Difference between revisions of "Deliverable 4.7"

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= Willingness to Pay =
 
= Willingness to Pay =
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The objective of this study was to investigate consumer demand and choice behaviour for
 
fresh fish at the retail market. In particular, we examined consumer preferences for different
 
fish alternative species, as well as different attributes, using a labelled choice experiment
 
(LCE). The outcomes allow to elicit consumers’ preferences and willingness to pay (WTP)
 
for the salient attributes of a variety of fresh fish species in the retail market.
 
Data for this study were collected in June 2017 through a nationwide online survey
 
administered in the five countries (Italy, France, Spain, UK and Germany) by a third-party
 
contractor using its consumer panel database. The sample in each country consisted of
 
approximately 500 fish consumers (2,509 in total), representative of the national populations.
 
The final experimental design consisted in five attributes, defined for the seven fish
 
alternatives (trout, herring, salmon, sea bass, sea bream, cod and pangasius): price (average
 
market price +/-30%), production method (wild-caught, farm-raised), format (whole/round cut,
 
fillet, ready-to-cook), sustainability certification, nutrition and health claim. The questionnaire
 
included questions regarding socio-demographics, fish frequency of consumption, past
 
consumption, level of responsibility in fish purchasing and cooking, fish choice motives, attitude
 
towards environmental concerns, attitude towards health concerns, self-efficacy, trust, and
 
attitude towards ready-to-cook fish.
 
  
The part-worth, i.e. the marginal utility associated with the single attribute/level, and the price
+
The objective of this study was to investigate consumer demand and choice behaviour for fresh fish at the retail market. In particular, we examined consumer preferences for different fish alternative species, as well as different attributes, using a labelled choice experiment (LCE). The outcomes allow to elicit consumers’ preferences and willingness to pay (WTP) for the salient attributes of a variety of fresh fish species in the retail market. Data for this study were collected in June 2017 through a nationwide online survey administered in the five countries (Italy, France, Spain, UK and Germany) by a third-party contractor using its consumer panel database. The sample in each country consisted of approximately 500 fish consumers (2,509 in total), representative of the national populations. The final experimental design consisted in five attributes, defined for the seven fish alternatives (trout, herring, salmon, sea bass, sea bream, cod and pangasius): price (average market price +/-30%), production method (wild-caught, farm-raised), format (whole/round cut, fillet, ready-to-cook), sustainability certification, nutrition and health claim. The questionnaire included questions regarding socio-demographics, fish frequency of consumption, past consumption, level of responsibility in fish purchasing and cooking, fish choice motives, attitude towards environmental concerns, attitude towards health concerns, self-efficacy, trust, and attitude towards ready-to-cook fish.
premium (WTP) have been estimated applying two different logit models:
+
 
 +
The part-worth, i.e. the marginal utility associated with the single attribute/level, and the price premium (WTP) have been estimated applying two different logit models:
 +
 
 +
*the first one with fish species-specific effects (FSSE); this is needed for obtaining WTP
  
* the first one with fish species-specific effects (FSSE); this is needed for obtaining WTP
 
 
specific for the seven species;
 
specific for the seven species;
* the second one with random price effect (RPE) models; this is needed for
+
 
 +
*the second one with random price effect (RPE) models; this is needed for  
 +
 
 
segmentation.
 
segmentation.
  
Based on the questions of the survey about the fish choice motives, value for money, price
+
Based on the questions of the survey about the fish choice motives, value for money, price and general appearance are the most important aspects considered by consumers in their fish selection. However, in Italy wild-caught and days since catch/harvest are relevant aspects, in France, Germany and in the UK the easy-to-cook products are more important, and the sustainability certification is relatively more quoted in Germany. Regarding attitudinal beliefs, consumers are more worried about the negative consequences of fishing on marine resources, than those of fish farming on the environment, and believe that fish consumption has more benefits than risks. Consumers’ trust in information provided about the sustainable fish production is higher for independent organisations and public authorities, than for industries and retailers. Trust for farmers and fishermen is higher than trust for industry and retailers in every country. In general, consumers show a rather negative perception about ready-to-cook products, in terms of risk of losing the original fish characteristics. The choice experiment has shown that, in general, the fish species with the highest choice probability is salmon in France, Germany, Spain and in the UK, and seabream in Italy. As Figure 1 shows, the choice probability varies across countries, therefore justifying the application of a model where the attribute part-worth are estimated separately for every species.
and general appearance are the most important aspects considered by consumers in their fish
 
selection. However, in Italy wild-caught and days since catch/harvest are relevant aspects, in
 
France, Germany and in the UK the easy-to-cook products are more important, and the
 
sustainability certification is relatively more quoted in Germany.
 
Regarding attitudinal beliefs, consumers are more worried about the negative consequences
 
of fishing on marine resources, than those of fish farming on the environment, and believe that
 
fish consumption has more benefits than risks. Consumers’ trust in information provided about
 
the sustainable fish production is higher for independent organisations and public authorities,
 
than for industries and retailers. Trust for farmers and fishermen is higher than trust for industry
 
and retailers in every country. In general, consumers show a rather negative perception about
 
ready-to-cook products, in terms of risk of losing the original fish characteristics.
 
The choice experiment has shown that, in general, the fish species with the highest choice
 
probability is salmon in France, Germany, Spain and in the UK, and seabream in Italy. As
 
Figure 1 shows, the choice probability varies across countries, therefore justifying the
 
application of a model where the attribute part-worth are estimated separately for every
 
species.
 
  
[[File:Wtp_figure_i.jpg|Figure i]]  
+
[[File:Wtp figure i.png|center|Figure i]] ''Figure i: Choice probability for fish species (mean value) estimated with FSSE model.''
''Figure i: Choice probability for fish species (mean value) estimated with FSSE model. ''
 
  
The results show that, in general, wild-caught fish is more appreciated than farm-raised.
+
The results show that, in general, wild-caught fish is more appreciated than farm-raised. However, the WTP estimates varies between countries and species, with highest premiums found in France for salmon (+58%), and for seabass in Germany (+51%); Spanish consumers exhibited the lowest premiums for wild-caught fishes. Ready-to-cook products are generally preferred to whole (or round cut) fish in all countries, except with round-cut salmon, with higher premiums found in Germany, UK and France, in particular for pangasius, herring and cod. Fish fillets preference is more species-specific: salmon, cod and seabream fillet are generally preferred to ready-to-cook alternatives, while ready-to-cook trout and pangasius are more appreciated than fillets. The results show positive premiums for a sustainability label, with high heterogeneity across species and countries. The highest premiums have been found in the UK for herring (above 60%), in Germany for seabream, seabass and pangasius (above 40%), in Spain for trout and pangasius (above 30%), in Italy for cod, herring and pangasius (above 20%), and in France for salmon (above 20%).
However, the WTP estimates varies between countries and species, with highest premiums
 
found in France for salmon (+58%), and for seabass in Germany (+51%); Spanish consumers
 
exhibited the lowest premiums for wild-caught fishes.
 
Ready-to-cook products are generally preferred to whole (or round cut) fish in all countries,
 
except with round-cut salmon, with higher premiums found in Germany, UK and France, in
 
particular for pangasius, herring and cod. Fish fillets preference is more species-specific:
 
salmon, cod and seabream fillet are generally preferred to ready-to-cook alternatives, while
 
ready-to-cook trout and pangasius are more appreciated than fillets.
 
The results show positive premiums for a sustainability label, with high heterogeneity across
 
species and countries. The highest premiums have been found in the UK for herring (above
 
60%), in Germany for seabream, seabass and pangasius (above 40%), in Spain for trout and
 
pangasius (above 30%), in Italy for cod, herring and pangasius (above 20%), and in France
 
for salmon (above 20%).
 
  
 +
The WTP for nutritional and health claims varied among countries too, with higher premium found for pangasius and salmon. Price premiums above 20% were found in Spain for pangasius (68%), trout (37%) and salmon (20%), in Germany for pangasius (44%), seabream (30%) and salmon (24%), in Italy for seabream (27%) and salmon (21%), in the UK for pangasius (26%). The relatively low willingness to pay of French consumers for both sustainability label and nutritional and health claim can be partially explained by their weak belief strength in the benefits of sustainability certification to the environment and society, and in the nutrition and health claim. The clusters resulting from the segmentation, based on the choice probabilities, exhibited a higher willingness to pay for fish species and attributes as follows:
  
The WTP for nutritional and health claims varied among countries too, with higher premium
+
*In Italy, the first cluster is the largest (36% of the sample), and exhibits a higher WTP
found for pangasius and salmon. Price premiums above 20% were found in Spain for
 
pangasius (68%), trout (37%) and salmon (20%), in Germany for pangasius (44%), seabream
 
(30%) and salmon (24%), in Italy for seabream (27%) and salmon (21%), in the UK for
 
pangasius (26%). The relatively low willingness to pay of French consumers for both
 
sustainability label and nutritional and health claim can be partially explained by their weak
 
belief strength in the benefits of sustainability certification to the environment and society, and
 
in the nutrition and health claim.
 
The clusters resulting from the segmentation, based on the choice probabilities, exhibited a
 
higher willingness to pay for fish species and attributes as follows:
 
  
* In Italy, the first cluster is the largest (36% of the sample), and exhibits a higher WTP
+
in general for all fish species and attributes. It is indeed one of the least sensitive to price changes. Mostly composed of females, middle aged, highly educated and with high income level, living in a medium-large family.
in general for all fish species and attributes. It is indeed one of the least sensitive to
 
price changes. Mostly composed of females, middle aged, highly educated and with
 
high income level, living in a medium-large family.
 
  
* In France, the first two segments (overall 45%) have the largest WTP scores for all fish
+
*In France, the first two segments (overall 45%) have the largest WTP scores for all fish  
species and attributes, including a higher WTP for ready-to-cook products. Consumers
 
in these two segments are less sensitive to price changes. The first one is mostly made
 
up of younger males, highly educated and with high income level, living in two-three
 
people families. The second segment is mostly composed of older females, highly
 
educated and with high income level, living in larger-sized families (four members).
 
  
*In Germany, the segment one (28% of the sample), is the one with the highest
+
species and attributes, including a higher WTP for ready-to-cook products. Consumers in these two segments are less sensitive to price changes. The first one is mostly made up of younger males, highly educated and with high income level, living in two-three people families. The second segment is mostly composed of older females, highly educated and with high income level, living in larger-sized families (four members).
estimated WTP for all species and attributes. It is almost equally composed of young
 
males and females, with medium-to-high educational level, and high incomes, mostly
 
living with small family units (one or two members).
 
  
*In the UK, segment four (19%) is the one with the highest estimated WTP; middle-aged
+
*In Germany, the segment one (28% of the sample), is the one with the highest  
and older females are more represented, as well as middle educated and income
 
levels, and mostly living in families with two members.
 
  
*In Spain, segment two (18% of the sample), showing the highest WTPs, is composed
+
estimated WTP for all species and attributes. It is almost equally composed of young males and females, with medium-to-high educational level, and high incomes, mostly living with small family units (one or two members).
of young males, with high income, living in large family units (four people or more).
 
Segment three (19%), showing medium-high WTP estimates, is relatively more
 
represented by older females, with low income level, living in small family units.
 
  
 +
*In the UK, segment four (19%) is the one with the highest estimated WTP; middle-aged
 +
 +
and older females are more represented, as well as middle educated and income levels, and mostly living in families with two members.
 +
 +
*In Spain, segment two (18% of the sample), showing the highest WTPs, is composed
 +
 +
of young males, with high income, living in large family units (four people or more). Segment three (19%), showing medium-high WTP estimates, is relatively more represented by older females, with low income level, living in small family units.
 +
 +
 
  
 
== Introduction ==
 
== Introduction ==
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The experimental design resulted in 9 blocks of 8 choice sets with 7 product profiles plus the “no choice” option. Figure 1 shows an example of the layout of the choice set.
 
The experimental design resulted in 9 blocks of 8 choice sets with 7 product profiles plus the “no choice” option. Figure 1 shows an example of the layout of the choice set.
  
[[File:Wtp_figure_1.jpg|Figure 1: Example of choice set.]] ''Figure 1: Example of choice set.''
+
[[File:Wtp figure 1.jpg|Figure 1: Example of choice set.]] ''Figure 1: Example of choice set.''
  
 
 
 
 
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Overall, 40% of the respondents increased fish consumption in the past 3 years, 16% decreased fish consumption in the same period, and 44% maintained the same level. The share of those who increased fish consumption is higher in the UK (45%) and Italy (43%), whilst the quota of those who decreased fish consumption is higher in France (20%), Germany (17%) and Spain (17%) (Figure 2).
 
Overall, 40% of the respondents increased fish consumption in the past 3 years, 16% decreased fish consumption in the same period, and 44% maintained the same level. The share of those who increased fish consumption is higher in the UK (45%) and Italy (43%), whilst the quota of those who decreased fish consumption is higher in France (20%), Germany (17%) and Spain (17%) (Figure 2).
  
[[File:Wtp_figure_2.jpg|Figure 2: Evolution of fish consumption in the past 3 years.]] ''Figure 2: Evolution of fish consumption in the past 3 years.''
+
[[File:Wtp figure 2.jpg|Figure 2: Evolution of fish consumption in the past 3 years.]] ''Figure 2: Evolution of fish consumption in the past 3 years.''
  
 
The level of involvement is high in all countries both for fish purchasing (83% are completely or fairly involved) and for fish preparing and cooking (79%). The level of involvement is higher in the UK, respectively, 86% and 84% (Figure 3).
 
The level of involvement is high in all countries both for fish purchasing (83% are completely or fairly involved) and for fish preparing and cooking (79%). The level of involvement is higher in the UK, respectively, 86% and 84% (Figure 3).
  
[[File:Wtp_figure_3.jpg|Figure 3: Level of involvement in fish purchasing in your household.]] ''Figure 3: Level of involvement in fish purchasing in your household.''
+
[[File:Wtp figure 3.jpg|Figure 3: Level of involvement in fish purchasing in your household.]] ''Figure 3: Level of involvement in fish purchasing in your household.''
  
[[File:Wtp_figure_4.jpg|Figure 4: Level of involvement in your household when preparing and cooking fish.]] ''Figure 4: Level of involvement in your household when preparing and cooking fish.''
+
[[File:Wtp figure 4.jpg|Figure 4: Level of involvement in your household when preparing and cooking fish.]] ''Figure 4: Level of involvement in your household when preparing and cooking fish.''
  
 
Table 6 shows the fish choice motives expressed by the participants. Value for money, price and general appearance are the most important attributes in every country. However, in Italy wild caught and days since catch/harvest (likely as a proxi of freshness) are more important than price. Easy to cook is ranked as another important attribute in fish selection, in particular in France, UK and Germany. Sustainability certification is ranked as 5th and 6th aspect in fish selection, respectively, in Germany and Spain. Table 7 shows the level of agreement on the attitudinal beliefs attitude towards environmental concerns (AE), attitude towards health concerns (AH), self-efficacy (SE), trust in information about sustainable production (TI), attitude towards ready-to-cook fish (AR). The results about the attitudinal beliefs are also displayed in Figures 5-9.
 
Table 6 shows the fish choice motives expressed by the participants. Value for money, price and general appearance are the most important attributes in every country. However, in Italy wild caught and days since catch/harvest (likely as a proxi of freshness) are more important than price. Easy to cook is ranked as another important attribute in fish selection, in particular in France, UK and Germany. Sustainability certification is ranked as 5th and 6th aspect in fish selection, respectively, in Germany and Spain. Table 7 shows the level of agreement on the attitudinal beliefs attitude towards environmental concerns (AE), attitude towards health concerns (AH), self-efficacy (SE), trust in information about sustainable production (TI), attitude towards ready-to-cook fish (AR). The results about the attitudinal beliefs are also displayed in Figures 5-9.
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{| class="wikitable" style="width: 98%"
 
{| class="wikitable" style="width: 98%"
 
|-
 
|-
! colspan="2" scope="col" |  
+
! colspan="2" scope="col" |  
 
! colspan="2" scope="col" | France
 
! colspan="2" scope="col" | France
 
! colspan="2" scope="col" | Germany
 
! colspan="2" scope="col" | Germany
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In general consumers are more warried about the negative consequences of fishing on marine resources, than those of fish farming on the environment (Figure 5). The concern is higher in France and lower in Italy.
 
In general consumers are more warried about the negative consequences of fishing on marine resources, than those of fish farming on the environment (Figure 5). The concern is higher in France and lower in Italy.
  
[[File:Wtp_figure_5.jpg|Figure 5: Attitude towards environmental concerns.]] ''Figure 5: Attitude towards environmental concerns.''
+
[[File:Wtp figure 5.jpg|Figure 5: Attitude towards environmental concerns.]] ''Figure 5: Attitude towards environmental concerns.''
  
 
In general, respondents believe that fish consumption has more benefits than risks (Figure 6). The benefits are more appreciated in Spain, as well as the risks of negative consequences.
 
In general, respondents believe that fish consumption has more benefits than risks (Figure 6). The benefits are more appreciated in Spain, as well as the risks of negative consequences.
  
[[File:Wtp_figure_6.jpg|Figure 6: Attitude towards health concerns.]] ''Figure 6: Attitude towards health concerns.''
+
[[File:Wtp figure 6.jpg|Figure 6: Attitude towards health concerns.]] ''Figure 6: Attitude towards health concerns.''
  
 
In general consumers are more confident in cooking fish than in evaluating the quality of the fish before buying it (Figure 7).
 
In general consumers are more confident in cooking fish than in evaluating the quality of the fish before buying it (Figure 7).
  
[[File:Wtp_figure_7.jpg|Figure 7: Self-efficacy.]] ''Figure 7: Self-efficacy.''
+
[[File:Wtp figure 7.jpg|Figure 7: Self-efficacy.]] ''Figure 7: Self-efficacy.''
  
 
Consumers’ trust in information provided about the sustainable fish production is higher for independent organizations and public authorities, than for industries and retailers. Trust for farmers and fishermen is higher than trust for industry and retailers in every country. In France, the trust for fish farmers or fishermen is higher than for the public authority (Figure 8).
 
Consumers’ trust in information provided about the sustainable fish production is higher for independent organizations and public authorities, than for industries and retailers. Trust for farmers and fishermen is higher than trust for industry and retailers in every country. In France, the trust for fish farmers or fishermen is higher than for the public authority (Figure 8).
  
[[File:Wtp_figure_8.jpg|Figure 8: Trust for information about sustainable fish production]] ''Figure 8: Trust for information about sustainable fish production.''
+
[[File:Wtp figure 8.jpg|Figure 8: Trust for information about sustainable fish production]] ''Figure 8: Trust for information about sustainable fish production.''
  
 
In general, consumers show a rather negative perception about ready-to-cook products, in terms of loss of original characteristics. The preference for ready-to-cook fish products because of saving time is lower than the risk of alter the original fish characteristics (Figure 9). This difference is much larger in France and Spain, while is lower in the UK. Only in Germany consumers’ preference for ready-to-cook fish products is higher than the risk of alter the original fish characteristics.
 
In general, consumers show a rather negative perception about ready-to-cook products, in terms of loss of original characteristics. The preference for ready-to-cook fish products because of saving time is lower than the risk of alter the original fish characteristics (Figure 9). This difference is much larger in France and Spain, while is lower in the UK. Only in Germany consumers’ preference for ready-to-cook fish products is higher than the risk of alter the original fish characteristics.
  
[[File:Wtp_figure_9.jpg|Figure 9: Attitude towards ready-to-cook fish.]] ''Figure 9: Attitude towards ready-to-cook fish.''
+
[[File:Wtp figure 9.jpg|Figure 9: Attitude towards ready-to-cook fish.]] ''Figure 9: Attitude towards ready-to-cook fish.''
  
 
Once having performed the choice experiment, the respondents had to state how they believed in the benefits of sustainability certification to the environment and society, and how they believed in the nutrition and health claim. The results are reported in Figure 10 and 11. The belief strength is generally higher for the sustainability certification scheme, while, for both labels, is lower in France compared to Spain, Italy and UK.
 
Once having performed the choice experiment, the respondents had to state how they believed in the benefits of sustainability certification to the environment and society, and how they believed in the nutrition and health claim. The results are reported in Figure 10 and 11. The belief strength is generally higher for the sustainability certification scheme, while, for both labels, is lower in France compared to Spain, Italy and UK.
  
[[File:Wtp_figure_10.jpg|Figure 10: Belief strength about the sustainability label.]] ''Figure 10: Belief strength about the sustainability label.''
+
[[File:Wtp figure 10.jpg|Figure 10: Belief strength about the sustainability label.]] ''Figure 10: Belief strength about the sustainability label.''
  
 
Note: “We assume you have read the definition of sustainability certification above. On a scale of 0-100, to what extent do you believe in the benefits of such certification to the environment and society? (e.g., 0 = completely unbelievable; 50 = neutral; 100 = completely believable)
 
Note: “We assume you have read the definition of sustainability certification above. On a scale of 0-100, to what extent do you believe in the benefits of such certification to the environment and society? (e.g., 0 = completely unbelievable; 50 = neutral; 100 = completely believable)
  
[[File:Wtp_figure_11.jpg|Figure 11: Belief strength about the nutritional and health claim.]] ''Figure 11: Belief strength about the nutritional and health claim.''
+
[[File:Wtp figure 11.jpg|Figure 11: Belief strength about the nutritional and health claim.]] ''Figure 11: Belief strength about the nutritional and health claim.''
  
 
Note: “In the marketplace, some producers provide health benefit information from consuming their products. On a scale of 0-100, to what extent do you believe such health benefit claims? (e.g., 0 = completely unbelievable; 50 = neutral; 100 = completely believable).
 
Note: “In the marketplace, some producers provide health benefit information from consuming their products. On a scale of 0-100, to what extent do you believe such health benefit claims? (e.g., 0 = completely unbelievable; 50 = neutral; 100 = completely believable).
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The overall utility that a consumer obtains from consuming a seafood species j (Uj) can be expressed as:
 
The overall utility that a consumer obtains from consuming a seafood species j (Uj) can be expressed as:
  
[[File:Wtp_eq_1.JPG|center|Equation 1.]]
+
[[File:Wtp eq 1.JPG|center|Equation 1.]]
  
 
It is generally assumed that an individual would choose a product alternative if the utility derived from this alternative is maximized compared to the other alternatives:
 
It is generally assumed that an individual would choose a product alternative if the utility derived from this alternative is maximized compared to the other alternatives:
  
[[File:Wtp_eq_2.JPG|center|Equation 2.]]
+
[[File:Wtp eq 2.JPG|center|Equation 2.]]
  
 
When facing a “basket” of seafood products, consumers assign a random utility to each product alternatives and select the one with the highest derived utility. Assuming that the stochastic components εj have independent and identical distributed (iid) forms, the probability of a consumer i choosing a fish product j(P( yij = 1 ) given by the multinomial logit (MNL) model (McFadden, 1974), is expressed in the following equation:
 
When facing a “basket” of seafood products, consumers assign a random utility to each product alternatives and select the one with the highest derived utility. Assuming that the stochastic components εj have independent and identical distributed (iid) forms, the probability of a consumer i choosing a fish product j(P( yij = 1 ) given by the multinomial logit (MNL) model (McFadden, 1974), is expressed in the following equation:
  
[[File:Wtp_eq_3.JPG|center|Equation 3.]]
+
[[File:Wtp eq 3.JPG|center|Equation 3.]]
  
 
The MNL model presented in equation (3) is the basic choice model and has been approved to have several disadvantages such as assuming iid of the error and assuming the homogeneity of consumers’ preference. To overcome the limitations of MNL, there many advanced discrete choice models suggested such as the mixed logit models (random coefficient, scaled-multinomial logit, and generalized-multinomial logit) and the latent class model (LCM) (see Fiebig et al., 2010; Greene & Hensher, 2003). We estimated two types of models in this report to elicit the consumers’ WTP for fish attributes that are specific to particular fish species and for individual consumers, named as fish speciesspecific effect model (FSSE) and random (i.e price) parameter effect model. The fish species-specific effect (FSSE) model (fish j), is expressed as:
 
The MNL model presented in equation (3) is the basic choice model and has been approved to have several disadvantages such as assuming iid of the error and assuming the homogeneity of consumers’ preference. To overcome the limitations of MNL, there many advanced discrete choice models suggested such as the mixed logit models (random coefficient, scaled-multinomial logit, and generalized-multinomial logit) and the latent class model (LCM) (see Fiebig et al., 2010; Greene & Hensher, 2003). We estimated two types of models in this report to elicit the consumers’ WTP for fish attributes that are specific to particular fish species and for individual consumers, named as fish speciesspecific effect model (FSSE) and random (i.e price) parameter effect model. The fish species-specific effect (FSSE) model (fish j), is expressed as:
  
[[File:Wtp_eq_4.JPG|center|Equation 4.]]
+
[[File:Wtp eq 4.JPG|center|Equation 4.]]
  
 
where β parameters are estimated for the j-th fish species and for the attributes production method (i.e. Method, as wild caught vs. farmed fish), product format (i.e. Format, as whole fish/round cut, fillet or ready-to-cook), nutritional and health claim (i.e. Health, as with/without nutritional and health claim), and sustainability label (i.e. Sustain, as with/without sustainability certification). The Random price effect (RPE) model is specified so that the price coefficients includes two components, such as the average effect of price and the individual variance of price effects, expressed as:
 
where β parameters are estimated for the j-th fish species and for the attributes production method (i.e. Method, as wild caught vs. farmed fish), product format (i.e. Format, as whole fish/round cut, fillet or ready-to-cook), nutritional and health claim (i.e. Health, as with/without nutritional and health claim), and sustainability label (i.e. Sustain, as with/without sustainability certification). The Random price effect (RPE) model is specified so that the price coefficients includes two components, such as the average effect of price and the individual variance of price effects, expressed as:
  
[[File:Wtp_eq_5.JPG|center|Equation 5.]]
+
[[File:Wtp eq 5.JPG|center|Equation 5.]]
  
 
where αj, βk are fixed-effect coefficients, γ3 is random coefficient of price estimated for individual i. The specification of FSSE allows us to calculate the willingness to pay (WTP) for each of seven fish species in the choice experiment, while random price effect model allows us to elicit the WTP of each fish attributes at individual consumers’ level. The WTP for a non-monetary attribute is the price premium that consumers are willing to pay for obtaining a desired attribute level. The WTP for an attribute level A (e.g. health) from FSSE model in equation (4) is calculated as:
 
where αj, βk are fixed-effect coefficients, γ3 is random coefficient of price estimated for individual i. The specification of FSSE allows us to calculate the willingness to pay (WTP) for each of seven fish species in the choice experiment, while random price effect model allows us to elicit the WTP of each fish attributes at individual consumers’ level. The WTP for a non-monetary attribute is the price premium that consumers are willing to pay for obtaining a desired attribute level. The WTP for an attribute level A (e.g. health) from FSSE model in equation (4) is calculated as:
  
[[File:Wtp_eq_6.JPG|center|Equation 6.]]
+
[[File:Wtp eq 6.JPG|center|Equation 6.]]
  
 
where 𝑊𝑇𝑃Aj is the price premium paid for obtaining a desired level of attribute A (i.e., product with health claim) of the fish j, and β𝐴𝑗 and β5𝑗 are the estimated coefficients of attribute A and price attributes of fish j. Similarly, the WTP for attribute A (not specific to fish species) at consumers' individual level (𝑊𝑇𝑃𝐴i) is calculated from model in equation (5) is:
 
where 𝑊𝑇𝑃Aj is the price premium paid for obtaining a desired level of attribute A (i.e., product with health claim) of the fish j, and β𝐴𝑗 and β5𝑗 are the estimated coefficients of attribute A and price attributes of fish j. Similarly, the WTP for attribute A (not specific to fish species) at consumers' individual level (𝑊𝑇𝑃𝐴i) is calculated from model in equation (5) is:
  
[[File:Wtp_eq_7.JPG|center|Equation 7.]]
+
[[File:Wtp eq 7.JPG|center|Equation 7.]]
  
 
We estimate the WTP specific to fish species with expectation that consumers‘ preference for fish quality attributes depends in specific species (Thong et al., 2015). For instance, consumers may prefer filleted cod to the whole fish cod, but they may prefer whole fish herring to the filleted herring. The WTP for fish quality attributes are calculated at individual consumers because the nature of heterogeneity of preference. The random price effect model also allows us to obtain choice probability for fish species at the individual consumer‘s level. The individual consumers‘ choice probability thus will be used for segmentations that are actionable for marketing strategy and developing the decision support system (DSS). The segments are derived in every country using SAS macros, and three parameter criterion: cubic clustering criterion (Sarle, 1983), Pseudo-F statistics (Calinski and Harabasz, 1974), and Pseudo-t squared statistics (Duda and Hart, 1973).
 
We estimate the WTP specific to fish species with expectation that consumers‘ preference for fish quality attributes depends in specific species (Thong et al., 2015). For instance, consumers may prefer filleted cod to the whole fish cod, but they may prefer whole fish herring to the filleted herring. The WTP for fish quality attributes are calculated at individual consumers because the nature of heterogeneity of preference. The random price effect model also allows us to obtain choice probability for fish species at the individual consumer‘s level. The individual consumers‘ choice probability thus will be used for segmentations that are actionable for marketing strategy and developing the decision support system (DSS). The segments are derived in every country using SAS macros, and three parameter criterion: cubic clustering criterion (Sarle, 1983), Pseudo-F statistics (Calinski and Harabasz, 1974), and Pseudo-t squared statistics (Duda and Hart, 1973).
Line 1,605: Line 1,546:
 
----
 
----
  
===Data===
+
=== Data ===
  
 +
==== '''Italy''' ====
  
===='''Italy'''====
+
Table 8 reports the coefficients estimates for models with fish species-specific effect (FSSE) in the Italian sample. The higher coefficient reported for seabass indicate that this species is the most preferred by the Italian consumers, followed by cod and seabream, while the least preferred is herring. Wild caught alternative is the most preferred comparted to the farm-raised fish for all species, with higher incidence for cod and seabass. Ready-to-cook products are preferred compared to whole or round cut in the case of cod, herring and pangasius, while is less preferred for salmon and seabream. Fish fillet is preferred than ready-to-cook products for salmon, seabream and cod, while is less preferred for trout and seabass. The sustainability label is generally appreciated for all species, where the effect is higher for cod, seabream, pangasius and trout. The nutritional and health claim is also generally appreciated, where higher scores are found for seabream, pangasius and cod. The willingness to pay is directly derived from these results, applying the formula (6). The results are shown in Table 9, where the price premium (in €/kg) and the marginal WTP (in % above or below the average price in Table 3) are reported. Considering the production method, the higher relative WTP has been found in the case of wild salmon, compared to the farmraised alternative (+48%). Again the higher marginal WTP for format attribute is found for salmon fillet and round cut compared to the ready-to-cook alternative (respectively, +70% and +38%). The higher WTP for the sustainability scheme was found for cod (+27%), while the WTP for nutritional and health claim is higher for seabream (+27%).
  
Table 8 reports the coefficients estimates for models with fish species-specific effect (FSSE)
+
''Table 8: Fish Species-Specific Effect (FSSE) Model, β (mean and standard deviation) - Italy. '' [[File:Wtp table 8.JPG|center|WTP Table 8.]]
in the Italian sample.
 
The higher coefficient reported for seabass indicate that this species is the most preferred by
 
the Italian consumers, followed by cod and seabream, while the least preferred is herring. Wild
 
caught alternative is the most preferred comparted to the farm-raised fish for all species, with
 
higher incidence for cod and seabass. Ready-to-cook products are preferred compared to
 
whole or round cut in the case of cod, herring and pangasius, while is less preferred for salmon
 
and seabream. Fish fillet is preferred than ready-to-cook products for salmon, seabream and
 
cod, while is less preferred for trout and seabass. The sustainability label is generally
 
appreciated for all species, where the effect is higher for cod, seabream, pangasius and trout.
 
The nutritional and health claim is also generally appreciated, where higher scores are found
 
for seabream, pangasius and cod.
 
The willingness to pay is directly derived from these results, applying the formula (6). The
 
results are shown in Table 9, where the price premium (in €/kg) and the marginal WTP (in %
 
above or below the average price in Table 3) are reported. Considering the production method,
 
the higher relative WTP has been found in the case of wild salmon, compared to the farmraised
 
alternative (+48%). Again the higher marginal WTP for format attribute is found for
 
salmon fillet and round cut compared to the ready-to-cook alternative (respectively, +70% and
 
+38%). The higher WTP for the sustainability scheme was found for cod (+27%), while the
 
WTP for nutritional and health claim is higher for seabream (+27%).
 
  
''Table 8: Fish Species-Specific Effect (FSSE) Model, β (mean and standard deviation) - Italy. ''
+
''Table 9: Italian consumers' WTP a price premium (in €/kg and % above or below the average'' market price) for specific fish attributes, based on the estimates of the FSSE model.'' [[File:Wtp table 9.JPG|center|WTP Table 9.]]
[[File:Wtp_table_8.JPG|center|WTP Table 8.]]
 
  
''Table 9: Italian consumers' WTP a price premium (in €/kg and % above or below the average
+
The random price effect (RPE) model, able to estimate the price coefficient for every single consumer, resulted in the mean effects (and standard deviation) reported in Table 10. The attribute effects, in this case, are computed without the interaction with the species (i.e. on average for all species). The higher utility score was found for wild caught fishes compared to the farm-raised ones, and for the sustainability label and nutritional and health claims. The WTP estimates, based on these effects, are reported in Table 11. These estimates are the mean values estimated for each consumer in the sample.
market price) for specific fish attributes, based on the estimates of the FSSE model.''
 
[[File:Wtp_table_9.JPG|center|WTP Table 9.]]
 
  
The random price effect (RPE) model, able to estimate the price coefficient for every single
+
''Table 10: Random Price Effect (RPE) model, β (mean and standard deviation) - Italy. '' [[File:Wtp table 10.JPG|center|WTP Table 10.]]
consumer, resulted in the mean effects (and standard deviation) reported in Table 10. The
 
attribute effects, in this case, are computed without the interaction with the species (i.e. on
 
average for all species). The higher utility score was found for wild caught fishes compared to
 
the farm-raised ones, and for the sustainability label and nutritional and health claims. The
 
WTP estimates, based on these effects, are reported in Table 11. These estimates are the
 
mean values estimated for each consumer in the sample.
 
  
''Table 10: Random Price Effect (RPE) model, β (mean and standard deviation) - Italy. ''
+
Table 11: Italian consumers' WTP (in €/kg) for fish species and attributes, based on the estimates of the RPE model. [[File:Wtp table 11.JPG|center|WTP Table 11.]]
[[File:Wtp_table_10.JPG|center|WTP Table 10.]]
 
  
Table 11: Italian consumers' WTP (in €/kg) for fish species and attributes, based on the
+
The choice probability for fish species is reported in Table 12. This probability is very similar using both models, indicating the robustness of the effects across the models. Seabream, seabass and salmon exhibit the higher choice probability, while herring and pangasius and trout the lowest.
estimates of the RPE model.''
 
[[File:Wtp_table_11.JPG|center|WTP Table 11.]]
 
  
The choice probability for fish species is reported in Table 12. This probability is very similar
+
Table 12: Choice probability for fish species (mean value, standard deviation, minimum and maximum) with Fish Species-Specific Effect (FSSE) and Random Price Effect (RPE) models - Italy. [[File:Wtp table 12.JPG|center|WTP Table 12.]]
using both models, indicating the robustness of the effects across the models. Seabream,
 
seabass and salmon exhibit the higher choice probability, while herring and pangasius and
 
trout the lowest.
 
  
Table 12: Choice probability for fish species (mean value, standard deviation, minimum and
+
We have derived five different segments, based on choice probabilities, shown in Table 13. The first cluster is the largest (36% of the sample), and exhibits a higher WTP in general for all fish species and attributes. It is indeed one of the least sensitive to price changes. Mostly composed by females, middle aged, high educated and with high income level, living in a medium-large family. The second segment (12% of the sample) exhibits a low WTP, compared to the other segments, and a high sensitivity to price changes. It is made of females (61%), with lower education level, mostly living in two people families. The third segment is the second large one (30%), and expressed a medium WTP for all species, and a medium-high WTP for sustainability label and wild-caught fishes. It shows a low sensitivity with price changes. It is mostly composed by men (53%), middle-high aged, both low and high educated, with medium income and large family units (> three people). The fourth segment, representing 20% of the sample, shows slightly higher WTP values compared to the third one, only with a higher sensitivity with price changes. It is mostly composed by men (58%), younger, with lower educational level, and lower income (even if the higher income level is well represented), and living in larger family units. The fifth sample is the smallest (3%), and exhibits a low WTP for all species and attributes, and high price sensitivity.
maximum) with Fish Species-Specific Effect (FSSE) and Random Price Effect (RPE) models
 
- Italy.''
 
[[File:Wtp_table_12.JPG|center|WTP Table 12.]]
 
  
We have derived five different segments, based on choice probabilities, shown in Table 13.
+
Table 13: Segmentation of the Italian market, based on individuals’ choice probabilities. [[File:Wtp table 13.JPG|center|WTP Table 13.]]
The first cluster is the largest (36% of the sample), and exhibits a higher WTP in general for
 
all fish species and attributes. It is indeed one of the least sensitive to price changes. Mostly
 
composed by females, middle aged, high educated and with high income level, living in a
 
medium-large family. The second segment (12% of the sample) exhibits a low WTP, compared
 
to the other segments, and a high sensitivity to price changes. It is made of females (61%),
 
with lower education level, mostly living in two people families. The third segment is the second
 
large one (30%), and expressed a medium WTP for all species, and a medium-high WTP for
 
sustainability label and wild-caught fishes. It shows a low sensitivity with price changes. It is
 
mostly composed by men (53%), middle-high aged, both low and high educated, with medium
 
income and large family units (> three people). The fourth segment, representing 20% of the
 
sample, shows slightly higher WTP values compared to the third one, only with a higher
 
sensitivity with price changes. It is mostly composed by men (58%), younger, with lower
 
educational level, and lower income (even if the higher income level is well represented), and
 
living in larger family units. The fifth sample is the smallest (3%), and exhibits a low WTP for
 
all species and attributes, and high price sensitivity.
 
  
Table 13: Segmentation of the Italian market, based on individuals’ choice probabilities.''
+
 
[[File:Wtp_table_13.JPG|center|WTP Table 13.]]
 
  
 +
==== '''France''' ====
  
===='''France'''====
+
Table 14 reports the coefficients estimates in the French sample for models with fish speciesspecific effect (FSSE). The higher β coefficient reported for seabream, cod and seabass indicate that these species are the most preferred by the French consumers, while the least preferred are herring and pangasius. Wild caught alternative is preferred comparted to the farm-raised fish for all species, with higher incidence for seabream. Ready-to-cook products are preferred compared to whole or round cut for all species, except with salmon. Fish fillet is preferred than ready-tocook products for salmon and cod, while is less preferred for pangasius. The sustainability label is generally appreciated by consumers, with higher effects for seabass and pangasius. The nutritional and health claim is appreciated for seabass, whilst the other effects are less significant. The willingness to pay results, applying the formula (8), are shown in Table 15 where the price premium (in €/kg) and the marginal WTP (in % above or below the average price in Table 3) are reported. Considering the production method, the higher relative WTP has been found in the case of wild salmon, compared to the farm-raised alternative (+58% compared to average market price); high premiums have been also estimated for wild seabream (+34%) and wild cod (+33%). The higher marginal WTP for format attribute is found for salmon fillet and round cut compared to the ready-to-cook alternative (respectively, +58% and +48%). Round cut pangasius is the least accepted, with a WTP for ready-to-cook alternative of 72%. Significant price premiums are also estimated for ready-to-cook cod (35%) and herring (33%), compared to, respectively, round cut and whole alternatives. The higher price premium for the sustainability scheme was found for salmon (+23%), seabass (+20%) and pangasius (+17%); the WTP for nutritional and health claim is higher for seabass (+13%).
  
Table 14 reports the coefficients estimates in the French sample for models with fish speciesspecific
+
Table 14: Fish Species-Specific Effect (FSSE) Model, β (mean and std. deviation) - France. [[File:Wtp table 14.JPG|center|WTP Table 14.]]
effect (FSSE).
 
The higher β coefficient reported for seabream, cod and seabass indicate that these species
 
are the most preferred by the French consumers, while the least preferred are herring and
 
pangasius. Wild caught alternative is preferred comparted to the farm-raised fish for all
 
species, with higher incidence for seabream. Ready-to-cook products are preferred compared
 
to whole or round cut for all species, except with salmon. Fish fillet is preferred than ready-tocook
 
products for salmon and cod, while is less preferred for pangasius. The sustainability
 
label is generally appreciated by consumers, with higher effects for seabass and pangasius.
 
The nutritional and health claim is appreciated for seabass, whilst the other effects are less
 
significant.
 
The willingness to pay results, applying the formula (8), are shown in Table 15 where the price
 
premium (in €/kg) and the marginal WTP (in % above or below the average price in Table 3)
 
are reported. Considering the production method, the higher relative WTP has been found in
 
the case of wild salmon, compared to the farm-raised alternative (+58% compared to average
 
market price); high premiums have been also estimated for wild seabream (+34%) and wild
 
cod (+33%). The higher marginal WTP for format attribute is found for salmon fillet and round
 
cut compared to the ready-to-cook alternative (respectively, +58% and +48%). Round cut
 
pangasius is the least accepted, with a WTP for ready-to-cook alternative of 72%. Significant
 
price premiums are also estimated for ready-to-cook cod (35%) and herring (33%), compared
 
to, respectively, round cut and whole alternatives. The higher price premium for the
 
sustainability scheme was found for salmon (+23%), seabass (+20%) and pangasius (+17%);
 
the WTP for nutritional and health claim is higher for seabass (+13%).
 
  
Table 14: Fish Species-Specific Effect (FSSE) Model, β (mean and std. deviation) - France. ''
+
Table 15: French consumers' WTP a price premium (in €/kg and % above or below the average market price) for specific fish attributes, based on the estimates of the FSSE model. [[File:Wtp table 15.JPG|center|WTP Table 15.]]
[[File:Wtp_table_14.JPG|center|WTP Table 14.]]
 
  
Table 15: French consumers' WTP a price premium (in €/kg and % above or below the average market price) for specific fish attributes, based on the estimates of the FSSE model. ''
+
The random price effects (RPE) model results (mean and standard deviation) are reported in Table 16 where the β coefficients are shown. The higher utility score was found for salmon and cod, and for wild caught fishes compared to the farm-raised ones. To a lesser extent the β coefficients are also positive for the fillets compared to the ready-to-cook alternatives, and for the sustainability label. The WTP estimates, based on these effects, are reported in Table 17; the higher premiums are associated with salmon and cod (respectively, 24.6 and 20.6 €/kg), and with wild-caught fishes (3.2 €/kg). The relatively low willingness to pay of French consumers for both sustainability label and nutritional and health claim can be partially explained by their weak belief strength in the benefits of sustainability certification to the environment and society, and in the nutrition and health claim.
[[File:Wtp_table_15.JPG|center|WTP Table 15.]]
 
  
The random price effects (RPE) model results (mean and standard deviation) are reported in
+
Table 16: Random Price Effect (RPE) model, β (mean and standard deviation) - France. [[File:Wtp table 16.JPG|center|WTP Table 16.]]
Table 16 where the β coefficients are shown. The higher utility score was found for salmon
 
and cod, and for wild caught fishes compared to the farm-raised ones. To a lesser extent the
 
β coefficients are also positive for the fillets compared to the ready-to-cook alternatives, and
 
for the sustainability label.
 
The WTP estimates, based on these effects, are reported in Table 17; the higher premiums
 
are associated with salmon and cod (respectively, 24.6 and 20.6 €/kg), and with wild-caught
 
fishes (3.2 €/kg). The relatively low willingness to pay of French consumers for both
 
sustainability label and nutritional and health claim can be partially explained by their weak
 
belief strength in the benefits of sustainability certification to the environment and society, and
 
in the nutrition and health claim.
 
  
Table 16: Random Price Effect (RPE) model, β (mean and standard deviation) - France. ''
+
Table 17: French consumers' WTP (in €/kg) for fish species and attributes, based on the estimates of the RPE model. [[File:Wtp table 17.JPG|center|WTP Table 17.]]
[[File:Wtp_table_16.JPG|center|WTP Table 16.]]
 
  
Table 17: French consumers' WTP (in €/kg) for fish species and attributes, based on the estimates of the RPE model.''
+
The choice probability for fish species is reported in Table 18. This probability is very similar using both models, indicating the robustness of the effects across the models. Salmon, cod and seabream exhibit the higher choice probability, while pangasius and herring the lowest.
[[File:Wtp_table_17.JPG|center|WTP Table 17.]]
 
  
The choice probability for fish species is reported in Table 18. This probability is very similar
+
Table 18: Choice probability for fish species (mean value, standard deviation, minimum and maximum) with Fish Species-Specific Effect (FSSE) and Random Price Effect (RPE) models - France. [[File:Wtp table 18.JPG|center|WTP Table 18.]]
using both models, indicating the robustness of the effects across the models. Salmon, cod
 
and seabream exhibit the higher choice probability, while pangasius and herring the lowest.  
 
  
Table 18: Choice probability for fish species (mean value, standard deviation, minimum and maximum) with Fish Species-Specific Effect (FSSE) and Random Price Effect (RPE) models - France. ''
+
Finally, we have derived six different segments, based on choice probabilities, shown in Table 19. The first two segments (CL1 and CL2), representing overall 45% of the sample, have the largest WTP scores for all fish species and attributes, including a higher WTP for ready-tocook fishes compared to whole alternatives. These two clusters are less sensitive to price changes. The first segment is mostly composed by younger males, highly educated and with higher income level, living in two-three people families. The second segment is mostly composed by older females, highly educated and with higher income level, living in largersized families (four people). The third segment (29% of the sample) exhibits an average WTP, compared to the other segments. It is mostly made of males (53%), middle-high aged, less educated and with lower income, mostly living alone. The fourth and the fifth segments, representing 9% and 5% of the sample, show low price premiums compared to the other ones, exhibiting a higher sensitivity with price changes. Segment four is mostly composed by young females (64%), with lower education and income, living either alone or in larger families (four people or more). Segment six, representing 13% of the sample, exhibits a medium-low willingness to pay premium for all species, but with low sensitivity with price change. It is mostly composed by young males with medium educational level, and high income, living in larger family units (three and more components).
[[File:Wtp_table_18.JPG|center|WTP Table 18.]]
 
  
Finally, we have derived six different segments, based on choice probabilities, shown in Table
+
Table 19: Segmentation of the French market, based on individuals’ choice probabilities. [[File:Wtp table 19.JPG|center|WTP Table 19.]]
19. The first two segments (CL1 and CL2), representing overall 45% of the sample, have the
 
largest WTP scores for all fish species and attributes, including a higher WTP for ready-tocook
 
fishes compared to whole alternatives. These two clusters are less sensitive to price
 
changes. The first segment is mostly composed by younger males, highly educated and with
 
higher income level, living in two-three people families. The second segment is mostly
 
composed by older females, highly educated and with higher income level, living in largersized
 
families (four people). The third segment (29% of the sample) exhibits an average WTP,
 
compared to the other segments. It is mostly made of males (53%), middle-high aged, less
 
educated and with lower income, mostly living alone. The fourth and the fifth segments,
 
representing 9% and 5% of the sample, show low price premiums compared to the other ones,
 
exhibiting a higher sensitivity with price changes. Segment four is mostly composed by young
 
females (64%), with lower education and income, living either alone or in larger families (four
 
people or more). Segment six, representing 13% of the sample, exhibits a medium-low
 
willingness to pay premium for all species, but with low sensitivity with price change. It is mostly
 
composed by young males with medium educational level, and high income, living in larger
 
family units (three and more components).  
 
  
Table 19: Segmentation of the French market, based on individuals’ choice probabilities.''
+
 
[[File:Wtp_table_19.JPG|center|WTP Table 19.]]
 
  
 +
==== '''Germany''' ====
  
===='''Germany'''====
+
Table 20 reports the coefficients estimates in the German sample for models with fish speciesspecific effect (FSSE), with and without beliefs. Cod, salmon, trout and seabass reported the higher β coefficients, indicating that these species are the most preferred by German consumers. Wild caught alternative is the most preferred comparted to the farm-raised fish for all species, with higher β coefficient for seabass. Readyto-cook products are generally preferred compared to whole (or round cut) fishes and fillets, except for salmon, where fillet is preferred than ready-to-cook product. The sustainability label is generally appreciated for all species, with more significant effects where found for seabass and seabream. The nutritional and health claim reported higher coefficients for seabream and herring. The willingness to pay results, applying the formula (8), are shown in Table 21. Wild-caught seabass exhibits the highest premium compared to the farm-raised alternative (+51% above the average market price), followed by wild-caught salmon (+35%) and seabream (+32%). As said before, the ready-to-cook products are generally preferred, with highest premiums found for pangasius, cod and seabass, compared to the whole or round cut fish. Consumers are willing to pay 38% price premium for salmon fillets compared to ready-to-cook products. The higher marginal WTP for the sustainability label was found for seabream (+53%), pangasius (49%) and seabass (42%). The WTP for nutritional and health claim is higher for pangasius (+44%) and seabream (+30%).
  
Table 20 reports the coefficients estimates in the German sample for models with fish speciesspecific
+
Table 20: Fish Species-Specific Effect (FSSE) Model, β (mean and std. deviation) - Germany. [[File:Wtp table 20.JPG|center|WTP Table 20.]]
effect (FSSE), with and without beliefs.
 
Cod, salmon, trout and seabass reported the higher β coefficients, indicating that these species
 
are the most preferred by German consumers. Wild caught alternative is the most preferred
 
comparted to the farm-raised fish for all species, with higher β coefficient for seabass. Readyto-cook
 
products are generally preferred compared to whole (or round cut) fishes and fillets,
 
except for salmon, where fillet is preferred than ready-to-cook product. The sustainability label
 
is generally appreciated for all species, with more significant effects where found for seabass
 
and seabream. The nutritional and health claim reported higher coefficients for seabream and
 
herring.
 
The willingness to pay results, applying the formula (8), are shown in Table 21. Wild-caught
 
seabass exhibits the highest premium compared to the farm-raised alternative (+51% above
 
the average market price), followed by wild-caught salmon (+35%) and seabream (+32%). As
 
said before, the ready-to-cook products are generally preferred, with highest premiums found
 
for pangasius, cod and seabass, compared to the whole or round cut fish. Consumers are
 
willing to pay 38% price premium for salmon fillets compared to ready-to-cook products. The
 
higher marginal WTP for the sustainability label was found for seabream (+53%), pangasius
 
(49%) and seabass (42%). The WTP for nutritional and health claim is higher for pangasius
 
(+44%) and seabream (+30%).  
 
  
Table 20: Fish Species-Specific Effect (FSSE) Model, β (mean and std. deviation) - Germany. ''
+
Table 21: German consumers' WTP a price premium (in €/kg and % above or below the average market price) for specific fish attributes, based on the estimates of the FSSE model. [[File:Wtp table 21.JPG|center|WTP Table 21.]]
[[File:Wtp_table_20.JPG|center|WTP Table 20.]]
 
  
 +
The RPE model effects (β coefficients mean and standard deviation) are reported in Table 22. The higher utility score was found for salmon, trout and cod, and for wild-caught fishes compared to the farm-raised ones and for ready-to-cook products compared to whole or round cut fishes. The β coefficients are also significant for the sustainability label and nutritional and health claim. The WTP estimates, based on these effects, are reported in Table 23; the higher premiums are associated with salmon and trout (respectively, 28.5 and 22.6 €/kg), and with ready-to-cook (2.7 €/kg compared to the whole alternative) and wild-caught fishes (2.4 €/kg).
  
Table 21: German consumers' WTP a price premium (in €/kg and % above or below the
+
Table 22: Random Price Effect (RPE) model, β (mean and standard deviation) - Germany. [[File:Wtp table 22.JPG|center|WTP Table 22.]]
average market price) for specific fish attributes, based on the estimates of the FSSE model. ''
 
[[File:Wtp_table_21.JPG|center|WTP Table 21.]]
 
  
The RPE model effects (β coefficients mean and standard deviation) are reported in Table 22.
+
Table 23: German consumers' WTP (in €/kg) for fish species and attributes, based on the estimates of the RPE model. [[File:Wtp table 23.JPG|center|WTP Table 23.]]
The higher utility score was found for salmon, trout and cod, and for wild-caught fishes
 
compared to the farm-raised ones and for ready-to-cook products compared to whole or round
 
cut fishes. The β coefficients are also significant for the sustainability label and nutritional and
 
health claim. The WTP estimates, based on these effects, are reported in Table 23; the higher
 
premiums are associated with salmon and trout (respectively, 28.5 and 22.6 €/kg), and with
 
ready-to-cook (2.7 €/kg compared to the whole alternative) and wild-caught fishes (2.4 €/kg).
 
  
Table 22: Random Price Effect (RPE) model, β (mean and standard deviation) - Germany. ''
+
Table 24 shows the choice probability for fish species. This probability is higher for salmon, trout and pangasius, while is lower for seabream and seabass.
[[File:Wtp_table_22.JPG|center|WTP Table 22.]]
 
  
Table 23: German consumers' WTP (in €/kg) for fish species and attributes, based on the
+
Table 24: Choice probability for fish species (mean value, standard deviation, minimum and maximum) with Fish Species-Specific Effect (FSSE) and Random Price Effect (RPE) models - Germany. [[File:Wtp table 24.JPG|center|WTP Table 24.]]
estimates of the RPE model.''
 
[[File:Wtp_table_23.JPG|center|WTP Table 23.]]
 
  
Table 24 shows the choice probability for fish species. This probability is higher for salmon,
+
We have derived four different segments, based on choice probabilities, shown in Table 25. The first cluster, representing 28% of the sample, is the one with the highest willingness to pay for all species and attributes, including the ready-to-cook alternatives. It is almost equally composed by young males and females, with medium-to-high educational level, and high incomes, mostly living with small family units (one or two members). Segment two is the smallest one (13.5%). It reports a low willingness to pay for all species and attributes, compared to the other segments. This segment is made by young and old people (middle aged less represented), with medium educational level, and high income, living in large family units (three people or more). The third segment is the largest (32%); it exhibits a medium willingness to pay for species and attributes. It is mostly composed by males, middle-old aged, average education, high income, and living in families with two people. Finally, the fourth segment (26%), reports a low willingness to pay for all species and attributes. It is made by middle-age females (59%), with low educational level, middle income and living in small family units.
trout and pangasius, while is lower for seabream and seabass.
 
  
Table 24: Choice probability for fish species (mean value, standard deviation, minimum and
+
Table 25: Segmentation of the German market, based on individuals’ choice probabilities. [[File:Wtp table 25.JPG|center|WTP Table 25.]]
maximum) with Fish Species-Specific Effect (FSSE) and Random Price Effect (RPE) models
 
- Germany.''
 
[[File:Wtp_table_24.JPG|center|WTP Table 24.]]
 
  
We have derived four different segments, based on choice probabilities, shown in Table 25.
+
 
The first cluster, representing 28% of the sample, is the one with the highest willingness to pay
 
for all species and attributes, including the ready-to-cook alternatives. It is almost equally
 
composed by young males and females, with medium-to-high educational level, and high
 
incomes, mostly living with small family units (one or two members). Segment two is the
 
smallest one (13.5%). It reports a low willingness to pay for all species and attributes,
 
compared to the other segments. This segment is made by young and old people (middle aged
 
less represented), with medium educational level, and high income, living in large family units
 
(three people or more). The third segment is the largest (32%); it exhibits a medium willingness
 
to pay for species and attributes. It is mostly composed by males, middle-old aged, average
 
education, high income, and living in families with two people. Finally, the fourth segment
 
(26%), reports a low willingness to pay for all species and attributes. It is made by middle-age
 
females (59%), with low educational level, middle income and living in small family units.
 
  
Table 25: Segmentation of the German market, based on individuals’ choice probabilities. ''
+
==== '''UK''' ====
[[File:Wtp_table_25.JPG|center|WTP Table 25.]]
 
  
 +
Table 26 reports the coefficients estimates in the UK sample for models with fish speciesspecific effect (FSSE). The high coefficients reported for salmon and cod indicate that these species are the most preferred by the UK consumers, while the least preferred are pangasius and seabass, exhibiting a negative β coefficient which denotes that these species decrease the consumers’ utility. Wild caught alternative are generally preferred, in particular seabass and salmon. Ready-to-cook products are preferred compared to while or round cut for all fish species, except for salmon. Fish fillet is preferred than ready-to-cook products for salmon and seabream, while it is less preferred for trout and pangasius. The sustainability label is mostly appreciated for herring and seabream, whilst it is detrimental for consumers’ utility in the case of pangasius. The nutritional and health claim is mostly appreciated for pangasius, salmon and trout. Table 10 shows the WTP estimates, in £/kg and as a % of the average price, applying the formula (8). The results show a +48% price premium consumers are willing to pay for wildcaught seabass compared to farmed alternative. The higher marginal WTP for format attribute have been found for ready-to-cook products, compared to whole/round cut fish, in the case of herring (81%), seabass (49%), cod (37%), trout (33%) and seabream (30%). Salmon fillet is preferred compared to the ready-to-cook alternative (+44%). The higher WTP for the sustainability scheme was found for herring (+62%), while the WTP for nutritional and health claim is higher for pangasius (+26%).
  
===='''UK'''====
+
Table 26: Fish Species-Specific Effect (FSSE) Model, β (mean and standard deviation) – UK. [[File:Wtp table 26.JPG|center|WTP Table 26.]]
  
Table 26 reports the coefficients estimates in the UK sample for models with fish speciesspecific
+
Table 27: UK consumers' WTP a price premium (in £/kg, /kg (5) and % of the average market price) for specific fish attributes, based on the estimates of the FSSE model. [[File:Wtp table 27.JPG|center|WTP Table 27.]] ''(5) The exchange rate used is 1 GB £ = 1.16 €.''
effect (FSSE).
 
The high coefficients reported for salmon and cod indicate that these species are the most
 
preferred by the UK consumers, while the least preferred are pangasius and seabass,
 
exhibiting a negative β coefficient which denotes that these species decrease the consumers’
 
utility. Wild caught alternative are generally preferred, in particular seabass and salmon.
 
Ready-to-cook products are preferred compared to while or round cut for all fish species,
 
except for salmon. Fish fillet is preferred than ready-to-cook products for salmon and
 
seabream, while it is less preferred for trout and pangasius. The sustainability label is mostly
 
appreciated for herring and seabream, whilst it is detrimental for consumers’ utility in the case
 
of pangasius. The nutritional and health claim is mostly appreciated for pangasius, salmon and
 
trout.
 
Table 10 shows the WTP estimates, in £/kg and as a % of the average price, applying the
 
formula (8). The results show a +48% price premium consumers are willing to pay for wildcaught
 
seabass compared to farmed alternative. The higher marginal WTP for format attribute
 
have been found for ready-to-cook products, compared to whole/round cut fish, in the case of
 
herring (81%), seabass (49%), cod (37%), trout (33%) and seabream (30%). Salmon fillet is
 
preferred compared to the ready-to-cook alternative (+44%). The higher WTP for the
 
sustainability scheme was found for herring (+62%), while the WTP for nutritional and health
 
claim is higher for pangasius (+26%).
 
  
Table 26: Fish Species-Specific Effect (FSSE) Model, β (mean and standard deviation) – UK.''
+
The RPE model results are reported in Table 28, where the β coefficients (mean and standard deviation) are shown.
[[File:Wtp_table_26.JPG|center|WTP Table 26.]]
 
  
Table 27: UK consumers' WTP a price premium (in £/kg, €/kg (5) and % of the average market
+
Table 28: Random Price Effect (RPE) model, β (mean and standard deviation) - UK. [[File:Wtp table 28.JPG|center|WTP Table 28.]]
price) for specific fish attributes, based on the estimates of the FSSE model. ''
 
[[File:Wtp_table_27.JPG|center|WTP Table 27.]]
 
''(5) The exchange rate used is 1 GB £ = 1.16 €.''
 
  
The RPE model results are reported in Table 28, where the β coefficients (mean and standard
+
Table 29: UK consumers' WTP (in £/kg and €/kg (6) ) for fish species and attributes, based on the estimates of the RPE model. [[File:Wtp table 29.JPG|center|WTP Table 29.]] ''6 The exchange rate used is 1 GB £ = 1.16 €.''
deviation) are shown.
 
  
Table 28: Random Price Effect (RPE) model, β (mean and standard deviation) - UK.''
+
The higher utility score was found for salmon and cod, and for wild caught fishes compared to the farm-raised ones. Ready-to-cook products are generally preferred compared to the whole/round cut alternatives. To a lesser extent the β coefficients are also positive for the fillets compared to the ready-to-cook alternatives, and for the sustainability label. The WTP estimates, based on these effects, are reported in Table 29; the higher premiums for fish species are associated with salmon and cod (respectively, 23.4 and 21.8 €/kg). For the attributes, wild-caught fishes carry the higher premiums (1.8 €/kg), followed by ready-to-cook products compared to whole alternative (1.4 €/kg), and by fish fillets compared to ready-tocook ones (1.1 €/kg). The choice probability, reported in Table 30, indicate that salmon and cod are the most chosen alternatives, while pangasius, seabream and trout are the least preferred ones.
[[File:Wtp_table_28.JPG|center|WTP Table 28.]]
 
  
Table 29: UK consumers' WTP (in £/kg and €/kg (6)
+
Table 30: Choice probability for fish species (mean value, standard deviation, minimum and maximum) with Fish Species-Specific Effect (FSSE) and Random Price Effect (RPE) models - UK. [[File:Wtp table 30.JPG|center|WTP Table 30.]]
) for fish species and attributes, based on the
 
estimates of the RPE model.''
 
[[File:Wtp_table_29.JPG|center|WTP Table 29.]]
 
''6 The exchange rate used is 1 GB £ = 1.16 €.''
 
  
The higher utility score was found for salmon and cod, and for wild caught fishes compared to
+
We have derived four different segments for the UK market, based on choice probabilities (Table 31). The first segment (13%) is the one with the lowest WTP for all species and attributes, and the one more sensitive with price changes. It shows, compared to the other segments, a higher incidence of middle-aged females, with low education and low income, living in larger family units. Segment 2 is the largest one (41% of the sample), showing, compared to the other segment a medium-high WTP. Younger males are more represented, with higher educational level and income, and living in families with three or four members. The third segment (27%) shows low estimates of premium prices; it is mostly composed by females, with medium income level and education, living in small family units. Segment 4 (19%) is the one with the highest estimated WTP; middle-aged and older females are more represented, as well as middle educated and income levels, and mostly living in families with two members.
the farm-raised ones. Ready-to-cook products are generally preferred compared to the  
 
whole/round cut alternatives. To a lesser extent the β coefficients are also positive for the fillets
 
compared to the ready-to-cook alternatives, and for the sustainability label.
 
The WTP estimates, based on these effects, are reported in Table 29; the higher premiums
 
for fish species are associated with salmon and cod (respectively, 23.4 and 21.8 €/kg). For the
 
attributes, wild-caught fishes carry the higher premiums (1.8 €/kg), followed by ready-to-cook
 
products compared to whole alternative (1.4 €/kg), and by fish fillets compared to ready-tocook
 
ones (1.1 €/kg).
 
The choice probability, reported in Table 30, indicate that salmon and cod are the most chosen
 
alternatives, while pangasius, seabream and trout are the least preferred ones.  
 
  
Table 30: Choice probability for fish species (mean value, standard deviation, minimum and
+
Table 31: Segmentation of the UK market, based on individuals’ choice probabilities. [[File:Wtp table 31.JPG|center|WTP Table 31.]]
maximum) with Fish Species-Specific Effect (FSSE) and Random Price Effect (RPE) models
 
- UK. ''
 
[[File:Wtp_table_30.JPG|center|WTP Table 30.]]
 
  
We have derived four different segments for the UK market, based on choice probabilities
+
 
(Table 31). The first segment (13%) is the one with the lowest WTP for all species and
+
 
attributes, and the one more sensitive with price changes. It shows, compared to the other
+
==== '''Spain''' ====
segments, a higher incidence of middle-aged females, with low education and low income,
+
 
living in larger family units. Segment 2 is the largest one (41% of the sample), showing,
+
Table 32 reports the coefficients estimates in the Spanish sample for models with fish speciesspecific effect (FSSE), with and without beliefs. Seabass, seabream and cod are the species with the highest β coefficients in the FSSE model, indicating a stronger preference of Spanish consumers for these products, while pangasius is the least preferred one. Wild-caught alternative are generally appreciated, while wild-caught seabass carrying the highest utility. Ready-to-cook products are preferred compared to while or round cut in the case of cod, pangasius and herring, while it is less preferred for salmon and seabream. This result is very similar to the Italian case. Fish fillets are generally preferred than ready-to-cook products apart from trout and pangasius. The sustainability label coefficient carrying the higher utility for consumers was found for trout, herring and seabream. The nutritional and health claim is generally appreciated, where higher scores are found for pangasius. The price premiums (in €/kg and % of the average price) that Spanish consumers are willing to pay for species and attributes, estimated with formula (8), are shown in Table 33. The higher relative WTP has been found in the case of wild-caught seabass, compared to the farm-raised alternative (+19%). Salmon fillet carries the higher premium compared to ready-to-cook alternative (+53%), whilst ready-to-cook trout is preferred than the fillet alternative, showing a 47% WTP. Consumers are willing to pay a premium for ready-to-cook pangasius compared to round cut and fillets, respectively, +36% and 32% premium. The higher WTP for the sustainability label and nutritional and health claim was found for trout (respectively, +33% and +37%) and pangasius (respectively, +30% and +68%).
compared to the other segment a medium-high WTP. Younger males are more represented,
 
with higher educational level and income, and living in families with three or four members.
 
The third segment (27%) shows low estimates of premium prices; it is mostly composed by
 
females, with medium income level and education, living in small family units. Segment 4 (19%)
 
is the one with the highest estimated WTP; middle-aged and older females are more
 
represented, as well as middle educated and income levels, and mostly living in families with
 
two members.  
 
  
Table 31: Segmentation of the UK market, based on individuals’ choice probabilities. ''
+
Table 32: Fish Species-Specific Effect (FSSE) Model, β (mean and standard deviation) - Spain. [[File:Wtp table 32.JPG|center|WTP Table 32.]]
[[File:Wtp_table_31.JPG|center|WTP Table 31.]]
 
  
 +
Table 33: Spanish consumers' WTP a price premium (in €/kg and % above or below the average market price) for specific fish attributes, based on the estimates of the FSSE model. [[File:Wtp table 33.JPG|center|WTP Table 33.]]
  
===='''Spain'''====
+
The RPE model effects (β coefficients mean and standard deviation) are reported in Table 34. The higher utility score was found for salmon, seabream, seabass and cod, and for wild-caught fishes compared to the farm-raised ones. The β coefficients are also significant for the sustainability label and nutritional and health claim. The WTP estimates, based on these effects, are reported in Table 35; the higher premiums for species are associated with salmon (mean premium 20.7 €/kg), seabream (18.4 €/kg) and cod (18.1 €/kg). The nutritional and health claim carries the highest premium among the attributes, with 1.1 €/kg.
  
Table 32 reports the coefficients estimates in the Spanish sample for models with fish speciesspecific
+
Table 34: Random Price Effect (RPE) model, β (mean and standard deviation) - Spain. [[File:Wtp table 34.JPG|center|WTP Table 34.]]
effect (FSSE), with and without beliefs.
 
Seabass, seabream and cod are the species with the highest β coefficients in the FSSE model,
 
indicating a stronger preference of Spanish consumers for these products, while pangasius is
 
the least preferred one. Wild-caught alternative are generally appreciated, while wild-caught
 
seabass carrying the highest utility. Ready-to-cook products are preferred compared to while
 
or round cut in the case of cod, pangasius and herring, while it is less preferred for salmon and
 
seabream. This result is very similar to the Italian case. Fish fillets are generally preferred than
 
ready-to-cook products apart from trout and pangasius. The sustainability label coefficient
 
carrying the higher utility for consumers was found for trout, herring and seabream. The
 
nutritional and health claim is generally appreciated, where higher scores are found for
 
pangasius.
 
The price premiums (in €/kg and % of the average price) that Spanish consumers are willing
 
to pay for species and attributes, estimated with formula (8), are shown in Table 33. The higher
 
relative WTP has been found in the case of wild-caught seabass, compared to the farm-raised
 
alternative (+19%). Salmon fillet carries the higher premium compared to ready-to-cook
 
alternative (+53%), whilst ready-to-cook trout is preferred than the fillet alternative, showing a
 
47% WTP. Consumers are willing to pay a premium for ready-to-cook pangasius compared to
 
round cut and fillets, respectively, +36% and 32% premium. The higher WTP for the
 
sustainability label and nutritional and health claim was found for trout (respectively, +33% and
 
+37%) and pangasius (respectively, +30% and +68%).
 
  
Table 32: Fish Species-Specific Effect (FSSE) Model, β (mean and standard deviation) - Spain.''
+
Table 35: Spanish consumers' WTP (in €/kg) for fish species and attributes, based on the estimates of the RPE model. [[File:Wtp table 35.JPG|center|WTP Table 35.]]
[[File:Wtp_table_32.JPG|center|WTP Table 32.]]
 
  
Table 33: Spanish consumers' WTP a price premium (in €/kg and % above or below the
+
Table 36 shows the choice probability for fish species. This probability is higher for salmon, seabream and trout, while is lower for herring and pangasius.
average market price) for specific fish attributes, based on the estimates of the FSSE model. ''
 
[[File:Wtp_table_33.JPG|center|WTP Table 33.]]
 
  
The RPE model effects (β coefficients mean and standard deviation) are reported in Table 34.
+
Table 36: Choice probability for fish species (mean value, standard deviation, minimum and maximum) with Fish Species-Specific Effect (FSSE) and Random Price Effect (RPE) models - Spain. [[File:Wtp table 36.JPG|center|WTP Table 36.]]
The higher utility score was found for salmon, seabream, seabass and cod, and for wild-caught
 
fishes compared to the farm-raised ones. The β coefficients are also significant for the
 
sustainability label and nutritional and health claim. The WTP estimates, based on these
 
effects, are reported in Table 35; the higher premiums for species are associated with salmon
 
(mean premium 20.7 €/kg), seabream (18.4 €/kg) and cod (18.1 €/kg). The nutritional and
 
health claim carries the highest premium among the attributes, with 1.1 €/kg.
 
  
Table 34: Random Price Effect (RPE) model, β (mean and standard deviation) - Spain. ''
+
We have derived seven different segments, based on choice probabilities, shown in Table 37. The first cluster, which is the larger one (21%), shows medium price premiums, compared to the other clusters, for species and attributes. It is mostly made by young females, highly educated, with high income and relatively medium-large family units (four people). Segment 2 (18% of the sample), showing the highest WTPs, is composed by young males, with high income, living in large family units (four people or more). Segment 3 shows medium-high WTP estimates too (19% of the sample), is relatively more representative of older females, with lower income level, living in smaller family units. The fourth segment (19% of the sample) shows an average WTP for species and attributes. It is mostly composed by middle-aged males, less educated and with lower income. Segments 5, 6 and 7 are all exhibiting lower premiums estimates for species and attributes.
[[File:Wtp_table_34.JPG|center|WTP Table 34.]]
 
  
Table 35: Spanish consumers' WTP (in €/kg) for fish species and attributes, based on the
+
Table 37: Segmentation of the Spanish market, based on individuals’ choice probabilities. [[File:Wtp table 37.JPG|center|WTP Table 37.]]
estimates of the RPE model.''
 
[[File:Wtp_table_35.JPG|center|WTP Table 35.]]
 
  
Table 36 shows the choice probability for fish species. This probability is higher for salmon,
+
 
seabream and trout, while is lower for herring and pangasius.
 
  
Table 36: Choice probability for fish species (mean value, standard deviation, minimum and
+
=== Appendix ===
maximum) with Fish Species-Specific Effect (FSSE) and Random Price Effect (RPE) models
+
 
- Spain.''
+
==== Synthesis of the qualitative phase ====
[[File:Wtp_table_36.JPG|center|WTP Table 36.]]
+
 
 +
''Table A1: Familiarity, attributes, barriers, and format for fish species and countries, as retrieved from the qualitative phase (Task 4.1)''
  
We have derived seven different segments, based on choice probabilities, shown in Table 37.
+
[[File:Wtp table a1.JPG|center|WTP Table A1.]]
The first cluster, which is the larger one (21%), shows medium price premiums, compared to
 
the other clusters, for species and attributes. It is mostly made by young females, highly
 
educated, with high income and relatively medium-large family units (four people). Segment 2
 
(18% of the sample), showing the highest WTPs, is composed by young males, with high
 
income, living in large family units (four people or more). Segment 3 shows medium-high WTP
 
estimates too (19% of the sample), is relatively more representative of older females, with
 
lower income level, living in smaller family units. The fourth segment (19% of the sample)
 
shows an average WTP for species and attributes. It is mostly composed by middle-aged
 
males, less educated and with lower income. Segments 5, 6 and 7 are all exhibiting lower
 
premiums estimates for species and attributes.
 
  
Table 37: Segmentation of the Spanish market, based on individuals’ choice probabilities.''
+
==== Preliminary list of attributes ====
[[File:Wtp_table_37.JPG|center|WTP Table 37.]]
 
  
 +
''Table A2: Preliminary list of attributes and levels by species.''
  
===Appendix===
+
[[File:Wtp table a2.JPG|center|WTP Table A2.]]
  
====Synthesis of the qualitative phase====
+
==== Pictures of the format attribute ====
  
''Table A1: Familiarity, attributes, barriers, and format for fish species and countries, as retrieved from the qualitative phase (Task 4.1)''
+
''Table A3: Set of pictures of the format attribute, by species in each country.''
  
[[File:Wtp_table_a1.JPG|center|WTP Table A1.]]
+
===== France =====
  
====Preliminary list of attributes====
+
[[File:Wtp table a3 france.png|center|WTP Table A3 - France.]]
  
''Table A2: Preliminary list of attributes and levels by species.''
+
===== Germany =====
  
[[File:Wtp_table_a2.JPG|center|WTP Table A2.]]
+
[[File:Wtp table a3 germany.png|center|WTP Table A3 - Germany.]]
  
====Pictures of the format attribute====
+
===== Italy =====
''Table A3: Set of pictures of the format attribute, by species in each country.''
 
  
=====France=====
+
[[File:Wtp table a3 italy.png|center|WTP Table A3 - Italy.]]
[[File:Wtp_table_a3_france.png|center|WTP Table A3 - France.]]
 
  
=====Germany=====
+
===== Spain =====
[[File:Wtp_table_a3_germany.png|center|WTP Table A3 - Germany.]]
 
  
=====Italy=====
+
[[File:Wtp table a3 spain.png|center|WTP Table A3 - Spain.]]
[[File:Wtp_table_a3_italy.png|center|WTP Table A3 - Italy.]]
 
  
=====Spain=====
+
===== UK =====
[[File:Wtp_table_a3_spain.png|center|WTP Table A3 - Spain.]]
 
  
=====UK=====
+
[[File:Wtp table a3 uk.png|center|WTP Table A3 - UK.]]
[[File:Wtp_table_a3_uk.png|center|WTP Table A3 - UK.]]
 
  
 +
 
  
===The questionnaire===
+
=== The questionnaire ===
  
'''Appendix A4: The questionnaire in the English version. (5 pages)'''
+
'''Appendix A4: The questionnaire in the English version. (5 pages)''' [[File:Wtp question 1.JPG|center|WTP questionnaire page 1.]] [[File:Wtp question 2.JPG|center|WTP questionnaire page 2.]] [[File:Wtp question 3.JPG|center|WTP questionnaire page 3.]] [[File:Wtp question 4.JPG|center|WTP questionnaire page 4.]] [[File:Wtp question 5.JPG|center|WTP questionnaire page 5.]]
[[File:Wtp_question_1.JPG|center|WTP questionnaire page 1.]]
 
[[File:Wtp_question_2.JPG|center|WTP questionnaire page 2.]]
 
[[File:Wtp_question_3.JPG|center|WTP questionnaire page 3.]]
 
[[File:Wtp_question_4.JPG|center|WTP questionnaire page 4.]]
 
[[File:Wtp_question_5.JPG|center|WTP questionnaire page 5.]]
 
  
 +
 
  
 
== References & Readings ==
 
== References & Readings ==
Line 2,028: Line 1,718:
 
----
 
----
  
===Conclusions===
+
=== Conclusions ===
  
The activity performed in Task 4.4, resulting in this Deliverable (D4.7), investigated consumer
+
The activity performed in Task 4.4, resulting in this Deliverable (D4.7), investigated consumer demand and choice behaviour for fresh fish using an online choice experiment. In particular, we examined consumer preferences in five countries for different fish alternative species and attributes, using a labelled choice experiment (LCE). The results in terms of part-worth associated with the single attributes allowed to estimate consumers’ willingness to pay (WTP) for the salient product characteristics. The heterogeneous choices and preferences across countries and species suggested the application of a model where the attribute part-worth were estimated separately for every species in every country (fish species-specific effects model – FSSE). Using a random price effect (RPE) model we estimated the effects and WTP for attributes at consumers’ individual level; the individual consumers‘ choice probability so estimated thus was used for segmentations in every country. These results are actionable for marketing strategy and useful input in the developing of the decision support system (PrimeDSS). In particular, using the WTP results of the FSSE model it will be possible to estimate, in the five countries, the consumers’ willingness to pay a premium for specific species-related attributes cumulated in a product profile with certain characteristics. In other words, the DSS user, by selecting the preferred characteristics of the given species in a specific country, will retrieve the estimated consumers’ willingness to pay for that product, based on the estimated model on the data collected. Given the representativeness of the sample in every country, this result will provide stakeholder with a clear guidance about the (hypothetical) consumers’ preferences for each product profile. Similarly, the segmentation performed using the RPE model will provide DSS users with more details about the characteristics of the market segment more attracted by the given product profile. In addition, RPE model effects will enable us to estimate price elasticities, in which cross price elasticities among fish species are not constant. With these outcome it will be possible to develop competitiveness clouds and vulnerability index. Finally, the present activity have been implemented in parallel with the survey in Task 5.4, with a number of common questions (the “bridge questions”) leaving the possibly to combine the results of both surveys in a more powerful tool to be implemented in the PrimeDSS. The results of WTP and price elasticity for markets and segments across the five surveyed countries, as well as the possibility to combine the survey in Tasks 4.4 and 5.4, will be further investigated in Tasks 5.4 and 5.5, and eventually used as an input for the PrimeDSS development in WP6 of the project.'
demand and choice behaviour for fresh fish using an online choice experiment. In particular,
 
we examined consumer preferences in five countries for different fish alternative species and
 
attributes, using a labelled choice experiment (LCE). The results in terms of part-worth
 
associated with the single attributes allowed to estimate consumers’ willingness to pay (WTP)
 
for the salient product characteristics. The heterogeneous choices and preferences across
 
countries and species suggested the application of a model where the attribute part-worth were
 
estimated separately for every species in every country (fish species-specific effects model –
 
FSSE). Using a random price effect (RPE) model we estimated the effects and WTP for
 
attributes at consumers’ individual level; the individual consumers‘ choice probability so
 
estimated thus was used for segmentations in every country.
 
These results are actionable for marketing strategy and useful input in the developing of the
 
decision support system (PrimeDSS). In particular, using the WTP results of the FSSE model
 
it will be possible to estimate, in the five countries, the consumers’ willingness to pay a premium
 
for specific species-related attributes cumulated in a product profile with certain characteristics.
 
In other words, the DSS user, by selecting the preferred characteristics of the given species in
 
a specific country, will retrieve the estimated consumers’ willingness to pay for that product,
 
based on the estimated model on the data collected. Given the representativeness of the
 
sample in every country, this result will provide stakeholder with a clear guidance about the
 
(hypothetical) consumers’ preferences for each product profile.
 
Similarly, the segmentation performed using the RPE model will provide DSS users with more
 
details about the characteristics of the market segment more attracted by the given product
 
profile. In addition, RPE model effects will enable us to estimate price elasticities, in which
 
cross price elasticities among fish species are not constant. With these outcome it will be
 
possible to develop competitiveness clouds and vulnerability index.
 
Finally, the present activity have been implemented in parallel with the survey in Task 5.4, with
 
a number of common questions (the “bridge questions”) leaving the possibly to combine the
 
results of both surveys in a more powerful tool to be implemented in the PrimeDSS.
 
The results of WTP and price elasticity for markets and segments across the five surveyed
 
countries, as well as the possibility to combine the survey in Tasks 4.4 and 5.4, will be further
 
investigated in Tasks 5.4 and 5.5, and eventually used as an input for the PrimeDSS
 
development in WP6 of the project.'
 
  
 +
 
  
===Acknowledgement===
+
=== Acknowledgement ===
  
We gratefully acknowledge the Primefish project partners for having provided feedback and
+
We gratefully acknowledge the Primefish project partners for having provided feedback and helpful input to the present research. In particular, we thank Birgit Hagen, Emilia Cubero Dudinskaya and Antonella Carcagnì (University of Pavia, Italy), José Luis Santiago CastroRial, (Centro Tecnológico del Mar - Fundación CETMAR, Spain), Dimitar Taskov (University of Stirling, United Kingdom), Sterenn Lucas (Institut National de la Recherche Agronomique – INRA, France), Bjorn Suckow (TTZ, Germany), and Olga Untilov (Universite de Savoie, France).
helpful input to the present research. In particular, we thank Birgit Hagen, Emilia Cubero
 
Dudinskaya and Antonella Carcagnì (University of Pavia, Italy), José Luis Santiago CastroRial,
 
(Centro Tecnológico del Mar - Fundación CETMAR, Spain), Dimitar Taskov (University
 
of Stirling, United Kingdom), Sterenn Lucas (Institut National de la Recherche Agronomique –
 
INRA, France), Bjorn Suckow (TTZ, Germany), and Olga Untilov (Universite de Savoie,
 
France).
 
  
===References===
+
=== References ===
  
Calinski, T. & Harabasz, J. (1974). A Dendrite Method for Cluster Analysis. Communications
+
Calinski, T. & Harabasz, J. (1974). A Dendrite Method for Cluster Analysis. Communications in Statistics, 3, 1–27.
in Statistics, 3, 1–27.
 
  
Carlucci D., Nocella G., De Devitiis B., Viscecchia R., Bimbo F., Nardone G. (2015). Consumer
+
Carlucci D., Nocella G., De Devitiis B., Viscecchia R., Bimbo F., Nardone G. (2015). Consumer purchasing behaviour towards fish and seafood products. Patterns and insights from a sample of international studies. Appetite 84, 212–227.
purchasing behaviour towards fish and seafood products. Patterns and insights from a
 
sample of international studies. Appetite 84, 212–227.
 
  
Duda, R.O. & Hart, P.E. (1973). Pattern Classification and Scene Analysis, New York: John
+
Duda, R.O. & Hart, P.E. (1973). Pattern Classification and Scene Analysis, New York: John Wiley & Sons, Inc.
Wiley & Sons, Inc.
 
  
EEA (2016). Seafood in Europe: A food system approach for sustainability. European
+
EEA (2016). Seafood in Europe: A food system approach for sustainability. European Environmental Agency Report No 25/2016.
Environmental Agency Report No 25/2016.
 
  
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Revision as of 14:15, 24 October 2018

Willingness to Pay



Executive Summary


The objective of this study was to investigate consumer demand and choice behaviour for fresh fish at the retail market. In particular, we examined consumer preferences for different fish alternative species, as well as different attributes, using a labelled choice experiment (LCE). The outcomes allow to elicit consumers’ preferences and willingness to pay (WTP) for the salient attributes of a variety of fresh fish species in the retail market. Data for this study were collected in June 2017 through a nationwide online survey administered in the five countries (Italy, France, Spain, UK and Germany) by a third-party contractor using its consumer panel database. The sample in each country consisted of approximately 500 fish consumers (2,509 in total), representative of the national populations. The final experimental design consisted in five attributes, defined for the seven fish alternatives (trout, herring, salmon, sea bass, sea bream, cod and pangasius): price (average market price +/-30%), production method (wild-caught, farm-raised), format (whole/round cut, fillet, ready-to-cook), sustainability certification, nutrition and health claim. The questionnaire included questions regarding socio-demographics, fish frequency of consumption, past consumption, level of responsibility in fish purchasing and cooking, fish choice motives, attitude towards environmental concerns, attitude towards health concerns, self-efficacy, trust, and attitude towards ready-to-cook fish.

The part-worth, i.e. the marginal utility associated with the single attribute/level, and the price premium (WTP) have been estimated applying two different logit models:

  • the first one with fish species-specific effects (FSSE); this is needed for obtaining WTP

specific for the seven species;

  • the second one with random price effect (RPE) models; this is needed for

segmentation.

Based on the questions of the survey about the fish choice motives, value for money, price and general appearance are the most important aspects considered by consumers in their fish selection. However, in Italy wild-caught and days since catch/harvest are relevant aspects, in France, Germany and in the UK the easy-to-cook products are more important, and the sustainability certification is relatively more quoted in Germany. Regarding attitudinal beliefs, consumers are more worried about the negative consequences of fishing on marine resources, than those of fish farming on the environment, and believe that fish consumption has more benefits than risks. Consumers’ trust in information provided about the sustainable fish production is higher for independent organisations and public authorities, than for industries and retailers. Trust for farmers and fishermen is higher than trust for industry and retailers in every country. In general, consumers show a rather negative perception about ready-to-cook products, in terms of risk of losing the original fish characteristics. The choice experiment has shown that, in general, the fish species with the highest choice probability is salmon in France, Germany, Spain and in the UK, and seabream in Italy. As Figure 1 shows, the choice probability varies across countries, therefore justifying the application of a model where the attribute part-worth are estimated separately for every species.

Figure i
Figure i: Choice probability for fish species (mean value) estimated with FSSE model.

The results show that, in general, wild-caught fish is more appreciated than farm-raised. However, the WTP estimates varies between countries and species, with highest premiums found in France for salmon (+58%), and for seabass in Germany (+51%); Spanish consumers exhibited the lowest premiums for wild-caught fishes. Ready-to-cook products are generally preferred to whole (or round cut) fish in all countries, except with round-cut salmon, with higher premiums found in Germany, UK and France, in particular for pangasius, herring and cod. Fish fillets preference is more species-specific: salmon, cod and seabream fillet are generally preferred to ready-to-cook alternatives, while ready-to-cook trout and pangasius are more appreciated than fillets. The results show positive premiums for a sustainability label, with high heterogeneity across species and countries. The highest premiums have been found in the UK for herring (above 60%), in Germany for seabream, seabass and pangasius (above 40%), in Spain for trout and pangasius (above 30%), in Italy for cod, herring and pangasius (above 20%), and in France for salmon (above 20%).

The WTP for nutritional and health claims varied among countries too, with higher premium found for pangasius and salmon. Price premiums above 20% were found in Spain for pangasius (68%), trout (37%) and salmon (20%), in Germany for pangasius (44%), seabream (30%) and salmon (24%), in Italy for seabream (27%) and salmon (21%), in the UK for pangasius (26%). The relatively low willingness to pay of French consumers for both sustainability label and nutritional and health claim can be partially explained by their weak belief strength in the benefits of sustainability certification to the environment and society, and in the nutrition and health claim. The clusters resulting from the segmentation, based on the choice probabilities, exhibited a higher willingness to pay for fish species and attributes as follows:

  • In Italy, the first cluster is the largest (36% of the sample), and exhibits a higher WTP

in general for all fish species and attributes. It is indeed one of the least sensitive to price changes. Mostly composed of females, middle aged, highly educated and with high income level, living in a medium-large family.

  • In France, the first two segments (overall 45%) have the largest WTP scores for all fish

species and attributes, including a higher WTP for ready-to-cook products. Consumers in these two segments are less sensitive to price changes. The first one is mostly made up of younger males, highly educated and with high income level, living in two-three people families. The second segment is mostly composed of older females, highly educated and with high income level, living in larger-sized families (four members).

  • In Germany, the segment one (28% of the sample), is the one with the highest

estimated WTP for all species and attributes. It is almost equally composed of young males and females, with medium-to-high educational level, and high incomes, mostly living with small family units (one or two members).

  • In the UK, segment four (19%) is the one with the highest estimated WTP; middle-aged

and older females are more represented, as well as middle educated and income levels, and mostly living in families with two members.

  • In Spain, segment two (18% of the sample), showing the highest WTPs, is composed

of young males, with high income, living in large family units (four people or more). Segment three (19%), showing medium-high WTP estimates, is relatively more represented by older females, with low income level, living in small family units.

 

Introduction


The average apparent fish consumption per capita in the EU is the second highest in the world (at around 22 kg/capita/year), and some individual EU Member States are among the highest fish consuming countries in the world (EEA, 2016). The EU is the largest market in the world for fish; with a value of €55 billion and a volume of 12 million tons (FAO, 2016). While EU fish and seafood consumption has risen over the past 10 years with stable or declining supply from the fisheries sector, most of this increase has come from imports rather than from EU aquaculture. In 2014, around 75% of fisheries and aquaculture products consumed in the EU came from marine capture fisheries, which remains consistent with trends over the last decade (EUMOFA, 2015). Today 25% of all EU seafood consumption comes from EU fisheries, 10% from EU aquaculture and 65% from imports from third countries, both fisheries and aquaculture products. European aquaculture growth has stagnated since the turn of the century partly because its products have not been competitive compared with imports. In a market driven by the demand a better understanding of consumer purchasing behaviour towards fish products is paramount to developing more effective marketing and policy strategies (Carlucci et al., 2015). Therefore, understanding the consumers’ preferences across the EU countries for fish species and fish product attributes is crucial to sustain the fisheries and aquaculture sectors. The objective of this study was to investigate consumer demand and choice behaviour for fresh fish at the retail market. In particular, we examined consumer preferences for different fish alternative species, as well as different attributes. The outcomes allowed us to elicit consumers’ preferences and willingness to pay (WTP) for the salient attributes of a variety of fresh fish species in the retail market. We applied a discrete choice experiment (DCE) to accomplish this objective; this method is strongly consistent with the economic demand theory and in particular with the multi-attribute demand studies based on the Lancastrian consumer theory (Lancaster, 1966), This theory assumes that consumer’s utility stems from product properties rather than the products themselves. Thus, multi-attribute demand models can elicit the intrinsic value of the product attributes and have been applied widely in marketing research. Moreover, this method is highly flexible with respect to data collection and model specifications. DCE is based on random utility theory about individual decision making, and seems realistic in imitating real shopping behaviour (Louviere et al., 2000). Choice modelling techniques are multi-attribute valuation techniques that elicit values for multiple attributes by asking respondents to rate, rank or choose a set of attributes (levels). In particular, choice experiments are valuation techniques where respondents have to make trade-offs and indicate their preferred option out of a set of alternatives. We developed a choice-based on-line experiment, on a number of 500 respondents per country (Italy, France, Spain, UK and Germany). The profile attributes and levels analysed are derived from previous qualitative tasks (i.e., qualitative analysis by in-person interviews), and include product innovation features such as health claims, sustainability certification, etc. To accommodate the evaluation of choice alternatives through both attribute judgment and alternative comparison, we applied a labelled choice experiment (LCE), where choice alternatives were labelled by the respective names of the seafood (e.g., salmon, cod, herring, etc.) (Nguyen et al., 2015). We set our model specification in such a way that the constant terms, which represent intrinsic value of the alternatives, and attribute parameters were varied both over fish alternatives and across countries. The WTP associated with each attribute, by species and country, was also estimated.

 

Methods


We applied a labelled choice experiment (LCE) to investigate consumer demand and choice behaviour for fresh fish in a retail market hypothetical situation in five European countries: Italy, France, Spain, UK and Germany. The LCE was conducted for seven fish alternatives (i.e., cod, herring, seabass, seabream, salmon, trout and pangasius) labelled by the respective fish names. Consumer heterogeneity in preference was expressed by estimating a labelled latent class model with alternative-specific effects, which varies choice probability and model parameters over seafood alternatives and across classes. The WTP for extrinsic attributes (i.e., product format, production method, health claim, and sustainability certification), and the rank orderedintrinsic value are estimated for each seafood alternative within classes and the entire market. The WTP estimate in our study is expected to be more accurate than those derived from studies based on single product alternatives because the LCE allows respondents to evaluate choice alternatives through both attribute judgment and alternative comparison. Exploring a variety of product alternatives is also meaningful to firms with multiple products (e.g., fresh fish retailers) or firms with many direct competitors.

2.1 The choice experiment

The choice experiment was preceded by a cheap talk aiming at explaining the rationale behind the experiment and the need to respond carefully to the questions: “In this part of the questionnaire you will be asked to choose your preferred product from a set of 7 alternative products. Options A to G represent 7 different descriptions of a fish product. Please mark the displayed. Experience from previous similar surveys suggests that people often respond in one way but act in another. For instance, people sometimes state they would pay a higher price for a product than they actually would in reality. Therefore, please do consider thoroughly how the price would affect your budget, so that you are able to give as accurate an answer as possible. Similarly to the price, pay attentions to all fish alternatives and attributes“. At the end of the choice experiment, each consumer had to respond to the following questions in order to quantify the potential purchase: “What quantity would you purchase of the above product?“ Then, we have also asked consumers about their beliefs of health benefit claims and of the benefits of the sustainable certification to the environment and society, by answering the following questions: “In the marketplace, some producers provide health benefit information from consuming their products. On a scale of 0-100, to what extent do you believe such health benefit claims? (e.g., 0 = completely unbelievable; 50 = neutral; 100 = completely believable).“ “We assume you have read the definition of sustainability certification above. On a scale of 0-100, to what extent do you believe in the benefits of such certification to the environment and society? (e.g., 0 = completely unbelievable; 50 = neutral; 100 = completely believable).“

2.2 Attributes and levels

A previous qualitative study was performed with 30 individual in-depth interviews conducted in five countries identifying the positive or negative motives, perceptions, associations, attitudes towards fish/seafood consumption, with a focus on the chosen species: salmon, trout, seabass/seabream, herring and cod (Task 4.2). The findings of this qualitative work were collected considering the main attributes, barriers and format used by consumers for fish in general and for the selected fish species. These findings were summarized in Table A1 (see Appendix). This table 1 has been used to identify the main attributes that were mentioned quite uniformly across all fish species. Therefore, the following attributes were evaluated for all the different fish species:

  • production method (farmed / wild caught)
  • origin (specific countries to be agreed specie by specie)
  • nutritional and health claims (high in omega-3, source of omega-3, etc.)
  • date of catch / harvest (as a proxy of freshness)

Other attributes were instead relevant for specific fish species:

  • format (fillet, whole, frozen, etc.)
  • preparation (processed, “ovenable tray”, etc.)
  • sustainability (MSC, organic, etc.)
  • traceability

This preliminary set of attributes was represented in Table A22 (see Appendix), including: price, origin, production method, format, preparation, sustainability, health / nutrition claim and freshness. This list was discussed in the WP4 meeting in Paris (January 2017). From the discussion, we agreed to simplify the design, suggesting to concentrate the experiment on a more limited, and manageable, set of attributes and levels. Therefore, the final experimental design consisted in five attributes, defined for the seven fish alternatives: price, production method, format, sustainability certification, nutrition and health claim (Table 1). Table 2 provides the complete list specific for each fish species.

Table 1. Attributes and levels for the choice experiment in the five countries and for the seven fish species (trout, herring, salmon, sea bass, sea bream, cod and pangasius).

Attributes Levels
Price
  • Average market price
  • -30%
  • +30%
Production method
  • Wild-caught fish
  • Farm-raised fish
Format (picture)
  • Whole fish/round cut*
  • Fillet
  • Easy to cook
Sustainability certification
  • No
  • Yes
Nutrition and Health claim
  • No
  • Yes
  • Round cut for salmon and pangasius

Table 2: Final list of attributes and levels by fish species, common in the five countries.

Attributes Trout Herring Salmon Sea bass Sea bream Cod Pangasius
Price
  • Average market price
  • -30%
  • +30%
  • Average market price
  • -30%
  • +30%
  • Average market price
  • -30%
  • +30%
  • Average market price
  • -30%
  • +30%
  • Average market price
  • -30%
  • +30%
  • Average market price
  • -30%
  • +30%
  • Average market price
  • -30%
  • +30%
Production method

Farm-raised fish

Wild-caught fish

  • Wild-caught fish
  • Farm-raised fish
  • Wild-caught fish
  • Farm-raised fish
  • Wild-caught fish
  • Farm-raised fish
  • Wild-caught fish
  • Farm-raised fish

Farm-raised fish

Format (picture)
  • Whole fish
  • Fillet
  • Ready to cook
  • Whole fish
  • Fillet
  • Ready to cook
  • Round cut
  • Fillet
  • Ready to cook
  • Whole fish
  • Fillet
  • Ready to cook
  • Whole fish
  • Fillet
  • Ready to cook
  • Whole fish
  • Fillet
  • Ready to cook
  • Round cut
  • Fillet
  • Ready to cook
Sustainability certification
  • No
  • Yes
  • No
  • Yes
  • No
  • Yes
  • No
  • Yes
  • No
  • Yes
  • No
  • Yes
  • No
  • Yes
Nutritional and Health claim
  • No
  • Yes*
  • No
  • Yes*
  • No
  • Yes*
  • No
  • Yes*
  • No
  • Yes*
  • No
  • Yes*
  • No
  • Yes*

* Product high of omega 3 fatty acids which contributes to maintenance of normal function of the heart and normal blood pressure (the beneficial effect is obtained with a daily intake of 250 mg of omega 3 fatty acids. Such amount can be consumed as part of a balanced diet).

For the definition of the attribute price, we have provided some indication by email3 to the reference project partners for each country, suggesting to have, as much as possible, an yearly average market price level (at the retail stage) from an official data source (e.g., governmental/Ministry agencies, like ISMEA in Italy, etc.), possibly for year 2016. The price was indicated in €/kg potentially paid by consumers (£/kg in the UK), more detailed as possible (also with decimals), and considered for the average product/format (fresh product). If the data was not retrieved data from official source, we suggested to search it from other renowned sources (e.g., producers associations or syndicates, or the industry reference group), or from other sources (e.g., grey literature). The last possibility suggested was to perform a shop check to get the missing price(s); in this case, we have suggested to visit multiple shops of different format (large retailers, fishmongers, etc.), and calculate an average price. We have also suggested, if possible, to get the data also different geographical locations. For practical purposes, we have provided a table with some price levels downloaded by http://www.eumofa.eu/. The average prices, with corresponding levels +/- 30%, are reported in Table 3.

The production method attribute (wild / farmed) is usually considered relevant in purchasing decision, where wild fish is generally perceived as being superior to farmed fish by the majority of consumers in terms of taste, safety, healthiness and nutritional value (Carlucci et al., 2015). However, consumers’ perception of farmed fish is also positive for popular cultivated species, such as seabass, seabream, trout and salmon. Considering these patterns, we have decided to include the production method in the experimental design. The format attribute was presented as a picture to consumers. The pictures has been done by a professional agency based on our suggestions. The first shots have been commented by the partners, and several modifications have been suggested, in particular for the ready-tocook level. The final set of pictures, specific by fish species and country, is reported in Table A3 (see Appendix).

The sustainability certification attribute was based on the following definition, provided to respondents before the choice experiment, mostly derived from the Marine Stewardship Council (MSC) and Aquaculture Stewardship Council (ASC) standards:When certified according to a sustainability scheme, any fish can be traced back to a fishery or to a fish farm that meets principles reflecting the maintenance and re-establishment of healthy populations of targeted species, the maintenance of the integrity of ecosystems, the use of feed and other inputs that are sourced responsibly, and the social responsibility for workers and communities impacted by fishing and fish farming. This standard is intended to be used on a global basis by accredited third party certifiers to undertake the certification of fisheries and fish farmers to the above mentioned principles and criteria

The nutrition and health claim used in the experiment is “Product high of omega 3 fatty acids which contributes to maintenance of normal function of the heart and normal blood pressure”, with the following condition of use: “the beneficial effect is obtained with a daily intake of 250 mg of omega 3 fatty acids. Such amount can be consumed as part of a balanced diet”. This claim has already been approved by the EFSA (2009; 2010).

Table 3: Price levels (€/kg, and £/kg for the UK) by fish species for each country

  Trout Herring Salmon Seabream Seabass Cod Pangasius
France
Price + 30% 16.64 12.87 19.37 14.95 18.59 19.37 11.05
Avg. price 12.80 9.90 14.90 11.50 14.30 14.90 8.50
Price -30% 8.96 6.93 10.43 8.05 10.01 10.43 5.95
Spain
Price + 30% 7.76 15.47 16.73 12.83 14.35 15.60 6.80
Avg. price 5.97 11.90 12.87 9.87 11.04 12.00 5.23
Price -30% 4.18 8.33 9.01 6.91 7.73 8.40 3.66
Italy
Price + 30% 13.66 12.87 19.63 14.07 15.37 15.87 7.28
Avg. price 10.51 9.90 15.10 10.82 11.82 12.21 5.60
Price -30% 7.36 6.93 10.57 7.57 8.27 8.55 3.92
Germany
Price + 30% 15.05 14.12 21.89 21.71 21.84 21.78 6.83
Avg. price 11.58 10.86 16.84 16.70 16.80 16.75 5.25
Price -30% 8.11 7.60 11.79 11.69 11.76 11.73 3.68
UK (€/kg)
Price + 30% 21.83 6.81 20.97 28.09 30.73 20.68 13.48
Avg. price 16.79 5.24 16.13 21.61 23.64 15.91 10.37
Price -30% 11.75 3.67 11.29 15.13 16.55 11.14 7.26
UK (£/kg)
Price + 30% 19.32 6.03 18.56 24.86 27.20 18.30 11.93
Avg. price 14.86 4.64 14.27 19.12 20.92 14.08 9.18
Price -30% 10.40 3.25 9.99 13.39 14.64 9.86 6.42

We have decided to exclude the attribute origin; indeed, this attribute has already been deeply studied in the literature (Carlucci et al., 2015). Moreover, a huge effect of the domestic origin has been documented: 145% WTP by Stefani et al. (2012), 108% by Mauracher et al. (2013), 100% by McClenachan et al. (2016). We have evaluated that this effect might overwhelm the impact of other attributes on the consumers’ choices. Therefore, since other attributes have been studied much less, we have preferred to exclude the origin from the experiment.

2.3 Measures

Apart the choice experiment, the questionnaire included the following items: sociodemographics, frequency of consumption of fish, past consumption, level of responsibility in fish purchasing and cooking, fish choice motives, attitude towards environmental concerns, attitude towards health concerns, self-efficacy, trust, and attitude towards ready-to-cook fish. The survey questionnaire was developed and revised based on input from qualitative analysis and pre-tests. The questionnaire has been submitted online and was approx. 15 minutes long. The items with the asterisk (*) are common “bridge questions” with the survey performed in Task 5.4. The English version of the questionnaire is reported in the Appendix (see Appendix A4); the partners have translated the English version of the questionnaire in their national language (i.e. Italian, French, German and Spanish). Their versions were checked using a back-translation method to avoid semantic variance between countries.

The frequency of consumption of fish was measured by the following item: “Please indicate how often you consume fish (fresh, frozen, canned, smoked, ready to eat, etc.) at home, at restaurants and other food outlets (canteens, bars, etc.): Almost every day; 3-4 times a week; 1 or 2 times a week; 2-3 times a month; Once a month or less; Few times a year; Never” (*). This question has been replicated for every species considered in the experiment (salmon, trout, seabass, seabream, herring, cod, and pangasius). Past consumption was assessed by the following 7-point scaled item: “In the past 3 years has your fish consumption: strongly decreased – strongly increased” (*).

We have assessed the level of responsibility in fish purchasing and cooking by asking respondents to indicate the level of involvement in their household in fish purchasing, and in preparing and cooking fish (Not at all involved/Somewhat involved/Fairly involved/Completely involved).

Then we asked respondents to indicate the importance of each of the following attributes when purchasing fish: general appearance (*), free of smell (*), value for money (*), sustainability certification (*), easy to cook (*), low in calories (*), not previously frozen, wild caught, domestic origin, days since catch/harvest, organic certification, price (fish choice motives).

Attitude towards environmental concerns was assessed with two items (7-point scale, from ‘‘strongly disagree” to ‘‘strongly agree”): “I believe that fishing has negative consequences on marine resources” (*), “I believe that fish farming has negative consequences on the environment” (*).

We have measured attitude towards health concerns with two items (7-point scale, from ‘‘strongly disagree” to ‘‘strongly agree”): “I believe that eating fish containing omega-3 fatty acids benefits my health” (*), “I believe that eating fish would expose myself to substances (e.g. mercury, antibiotics, etc.) risking negative consequences on my health” (*).

We assessed self-efficacy with two items, using a 7-point scale (from ‘‘strongly disagree” to ‘‘strongly agree”): “I feel confident in evaluating the quality of the fish before buying it” (*), “I feel confident in cooking fish” (*).

Trust was defined by asking respondents the level of agreement (using a 7-point scale, from ‘‘strongly disagree” to ‘‘strongly agree”) with the following five statements: “I would trust the information provided about the sustainable fish production practices (fishing or farming) if they were certified by a: Public authority (e.g., the national Government or the EU) / Fish farmer or fisherman / Fish processing industry / Retailer / Independent organization (e.g., an NGO)”.

Attitude towards ready-to-cook fish was measured with four items using a 7-point scale (from ‘‘strongly disagree” to ‘‘strongly agree”): “I believe that ready-to-cook products would alter the original fish characteristics” (*), “I prefer to eat ready-to-cook fish because it allows me to save time” (*), “Preferably, I spend as little time as possible on meal preparation” (*), and “I prefer to eat ready-to-cook fish because it does not smell”.

 

2.4 Data collection and sample

Data for this study were collected in June 2017 through a nationwide online survey administered in the five countries (Italy, France, Spain, UK and Germany) by a third-party contractor using its consumer panel database. The sample in each country consisted of approximately 500 fish consumers (2,509 in total), representative of the national populations in at least three of the following criteria: age, gender, educational level and geographical macro-areas (e.g. in Italy: North, Centre, South). The main sample characteristics are reported in Table 4.

Table 4: Sample characteristics.

  France Germany Italy Spain UK Total
Gender n  % n  % n  % n  % n  % n  %
Males 256 51.1% 262 52.2% 250 49.6% 260 51.9% 254 50.7% 1282 51.1%
Females 245 48.9% 240 47.8% 254 50.4% 241 48.1% 247 49.3% 1227 48.9%
Age n  % n  % n  % n  % n  % n  %
18-24 61 12.2% 56 11.2% 51 10.1% 56 11.2% 49 9.8% 273 10.9%
25-34 91 18.2% 101 20.1% 98 19.4% 97 19.4% 121 24.2% 508 20.2%
35-44 113 22.6% 99 19.7% 117 23.2% 132 26.3% 105 21.0% 566 22.6%
45-54 117 23.4% 130 25.9% 127 25.2% 114 22.8% 118 23.6% 606 24.2%
55+ 119 23.8% 116 23.1% 111 22.0% 102 20.4% 108 21.6% 556 22.2%
Education n  % n  % n  % n  % n  % n  %
Lower secondary education or below 92 18.4% 86 17.1% 197 39.1% 181 36.1% 79 15.8% 635 25.3%
Upper secondary education 140 27.9% 97 19.3% 156 31.0% 65 13.0% 149 29.7% 607 24.2%
University or college below a degree 97 19.4% 191 38.0% 68 13.5% 75 15.0% 71 14.2% 502 20.0%
Bachelor's or equivalent level 88 17.6% 58 11.6% 41 8.1% 116 23.2% 133 26.5% 436 17.4%
Postgraduate MSc or PhD 84 16.8% 70 13.9% 42 8.3% 64 12.8% 69 13.8% 329 13.1%
Geographical area n  % n  % n  % n  % n  % n  %
Rural area 164 32.7% 100 19.9% 93 18.5% 52 10.4% 113 22.6% 522 20.8%
Small sized urban area 170 33.9% 187 37.3% 208 41.3% 144 28.7% 180 35.9% 889 35.4%
Large urban area 167 33.3% 215 42.8% 203 40.3% 305 60.9% 208 41.5% 1098 43.8%
Coastline n  % n  % n  % n  % n  % n  %
Yes 160 31.9% 91 18.1% 215 42.7% 294 58.7% 184 36.7% 944 37.6%
  mean sd mean sd mean sd mean sd mean sd mean sd
BMI 25.2 5.6 26.8 6.9 25.2 5.2 25.5 4.8 31.2 15.5 26.8 8.9
Persons in household (n) 2.6 1.3 2.4 1.2 3.0 1.2 3.2 1.2 2.8 1.6 2.8 1.3
< 18 years (n) 0.7 1.0 0.4 0.7 0.6 0.8 0.8 0.9 0.7 1.2 0.6 1.0
> 60 years (n) 0.4 0.7 0.4 0.7 0.5 0.8 0.4 0.7 0.3 0.7 0.4 0.7
Total (n) 501 502 504 501 501 2509

2.5 The experimental design

The experimental design resulted in 9 blocks of 8 choice sets with 7 product profiles plus the “no choice” option. Figure 1 shows an example of the layout of the choice set.

Figure 1: Example of choice set. Figure 1: Example of choice set.

 

Models

3.1 Descriptive analysis

The median values of fish consumption is reported in Table 5. In our samples, fish is more frequently consumed in Italy, France and Spain: ‘‘3-4 times a week” as a median value. As a median value, pangasius, herring and trout are the fish species less consumed in every country, whilst cod and salmon are those more consumed. Seabass and seabream are frequently consumed in the Mediterranean countries (Italy and Spain, in particular).

Table 5: Frequency of fish consumption (median values).

  Italy France Germany Spain UK
Trout Few times a year Few times a year Few times a year Few times a year Few times a year
Herring Few times a year Few times a year Few times a year Few times a year Never
Salmon Once a month Once a month Once a month Once a month Once a month
Seabass Once a month Few times a year Never Once a month Few times a year
Seabream Once a month Few times a year Never Once a month Never
Cod 2-3 times a month Once a month 2-3 times a month 2-3 times a month 2-3 times a month
Pangasius Few times a year Never Few times a year Few times a year Never
Fish 3-4 times a week 3-4 times a week 2-3 times a week 3-4 times a week 2-3 times a week

Overall, 40% of the respondents increased fish consumption in the past 3 years, 16% decreased fish consumption in the same period, and 44% maintained the same level. The share of those who increased fish consumption is higher in the UK (45%) and Italy (43%), whilst the quota of those who decreased fish consumption is higher in France (20%), Germany (17%) and Spain (17%) (Figure 2).

Figure 2: Evolution of fish consumption in the past 3 years. Figure 2: Evolution of fish consumption in the past 3 years.

The level of involvement is high in all countries both for fish purchasing (83% are completely or fairly involved) and for fish preparing and cooking (79%). The level of involvement is higher in the UK, respectively, 86% and 84% (Figure 3).

Figure 3: Level of involvement in fish purchasing in your household. Figure 3: Level of involvement in fish purchasing in your household.

Figure 4: Level of involvement in your household when preparing and cooking fish. Figure 4: Level of involvement in your household when preparing and cooking fish.

Table 6 shows the fish choice motives expressed by the participants. Value for money, price and general appearance are the most important attributes in every country. However, in Italy wild caught and days since catch/harvest (likely as a proxi of freshness) are more important than price. Easy to cook is ranked as another important attribute in fish selection, in particular in France, UK and Germany. Sustainability certification is ranked as 5th and 6th aspect in fish selection, respectively, in Germany and Spain. Table 7 shows the level of agreement on the attitudinal beliefs attitude towards environmental concerns (AE), attitude towards health concerns (AH), self-efficacy (SE), trust in information about sustainable production (TI), attitude towards ready-to-cook fish (AR). The results about the attitudinal beliefs are also displayed in Figures 5-9.

Table 6: Relative importance of different aspects in fish selection (1 = Not at all important; 7 = Extremely important).

  France Germany Italy Spain UK Total
Fish choice motives Mean sd Mean sd Mean sd Mean sd Mean sd Mean sd
Value for money 5.63 1.24 5.15 1.39 5.61 1.17 5.62 1.27 5.33 1.42 5.47 1.31
Price 5.57 1.24 5.10 1.34 5.31 1.25 5.44 1.29 5.29 1.42 5.34 1.32
General appearance 5.43 1.49 5.19 1.48 5.66 1.38 5.38 1.47 5.01 1.65 5.33 1.51
Free of smell 4.81 1.64 4.77 1.64 5.17 1.48 5.34 1.49 4.90 1.76 5.00 1.62
Easy to cook 5.09 1.44 4.87 1.49 4.99 1.35 4.97 1.44 5.00 1.49 4.98 1.44
Days since catch/harvest 5.01 1.51 4.39 1.63 5.36 1.43 5.25 1.46 4.70 1.67 4.94 1.58
Sustainability certification 4.80 1.48 4.81 1.59 5.14 1.36 5.09 1.45 4.65 1.72 4.90 1.54
Domestic origin 5.01 1.47 4.13 1.57 5.26 1.42 4.97 1.49 4.35 1.68 4.74 1.59
Wild caught 4.77 1.44 4.01 1.47 5.39 1.34 4.74 1.49 4.33 1.64 4.65 1.55
Organic certification 4.60 1.45 4.04 1.69 4.94 1.45 5.00 1.47 3.92 1.77 4.50 1.64
Not previously frozen 4.54 1.61 3.88 1.55 5.11 1.54 4.81 1.58 4.16 1.70 4.50 1.66
Low in calories 4.28 1.61 3.89 1.65 4.45 1.61 4.62 1.50 4.16 1.77 4.28 1.65

Table 7: Level of agreement on the following attitudinal beliefs: attitude towards environmental concerns (AE), attitude towards health concerns (AH), self-efficacy (SE), trust in information about sustainable production (TI), attitude towards ready-to-cook fish (AR).

  France Germany Italy Spain UK Total
Fish choice motives Att Mean sd Mean sd Mean sd Mean sd Mean sd Mean sd
I believe that fishing has negative consequences on marine resources. AE 4.73 1.43 4.39 1.41 4.02 1.53 4.39 1.52 4.27 1.41 4.36 1.48
I believe that fish farming has negative consequences on the environment. AE 4.38 1.47 3.79 1.44 3.74 1.51 3.88 1.66 4.14 1.44 3.98 1.52
I believe that eating fish containing omega-3 fatty acids benefits my health. AH 5.40 1.34 5.41 1.22 5.57 1.27 5.69 1.35 5.42 1.30 5.50 1.30
I believe that eating fish would expose myself to substances (e.g. mercury, antibiotics, etc.) risking negative consequences on my health. AH 3.99 1.53 3.79 1.42 3.95 1.50 4.19 1.61 3.64 1.56 3.91 1.54
I feel confident in evaluating the quality of the fish before buying it. SE 4.85 1.25 4.47 1.25 4.85 1.23 5.06 1.38 4.76 1.39 4.80 1.32
I feel confident in cooking fish. SE 4.97 1.28 4.88 1.33 5.11 1.29 5.38 1.32 5.14 1.48 5.09 1.35
I would trust the information provided about the sustainable fish production practices (fishing or farming) if they were certified by a public authority (e.g., the Government or the EU) TI 4.49 1.43 4.68 1.39 4.79 1.47 5.00 1.54 4.88 1.46 4.77 1.47
I would trust the information provided about the sustainable fish production practices (fishing or farming) if they were certified by a fish farmer or fisherman TI 4.71 1.38 4.53 1.35 4.65 1.37 4.85 1.36 4.69 1.39 4.68 1.37
I would trust the information provided about the sustainable fish production practices (fishing or farming) if they were certified by a fish processing industry TI 3.97 1.51 3.91 1.44 4.43 1.41 4.65 1.47 4.47 1.45 4.29 1.49
I would trust the information provided about the sustainable fish production practices (fishing or farming) if they were certified by a retailer TI 4.19 1.39 4.16 1.36 4.30 1.42 4.47 1.47 4.48 1.33 4.32 1.40
I would trust the information provided about the sustainable fish production practices (fishing or farming) if they were certified by an independent organization (e.g., an NGO) TI 4.89 1.34 4.81 1.34 4.91 1.41 4.96 1.52 4.93 1.38 4.90 1.40
I believe that ready-to-cook products would alter the original fish characteristics AR 4.91 1.32 4.45 1.15 4.47 1.25 4.95 1.39 4.52 1.21 4.66 1.28
I prefer to eat ready-to-cook fish because it allows me to save time AR 3.89 1.66 4.49 1.34 4.03 1.46 4.03 1.65 4.34 1.58 4.15 1.56
Preferably, I spend as little time as possible on meal preparation AR 3.74 1.64 4.35 1.45 3.92 1.53 3.82 1.71 4.14 1.56 3.99 1.60
I prefer to eat ready-to-cook fish because it does not smell AR 3.39 1.60 4.19 1.36 3.62 1.60 3.59 1.68 3.98 1.56 3.75 1.59

Note: all items are scored on the scale: 1 = Strongly disagree; 7 = Strongly agree.

In general consumers are more warried about the negative consequences of fishing on marine resources, than those of fish farming on the environment (Figure 5). The concern is higher in France and lower in Italy.

Figure 5: Attitude towards environmental concerns. Figure 5: Attitude towards environmental concerns.

In general, respondents believe that fish consumption has more benefits than risks (Figure 6). The benefits are more appreciated in Spain, as well as the risks of negative consequences.

Figure 6: Attitude towards health concerns. Figure 6: Attitude towards health concerns.

In general consumers are more confident in cooking fish than in evaluating the quality of the fish before buying it (Figure 7).

Figure 7: Self-efficacy. Figure 7: Self-efficacy.

Consumers’ trust in information provided about the sustainable fish production is higher for independent organizations and public authorities, than for industries and retailers. Trust for farmers and fishermen is higher than trust for industry and retailers in every country. In France, the trust for fish farmers or fishermen is higher than for the public authority (Figure 8).

Figure 8: Trust for information about sustainable fish production Figure 8: Trust for information about sustainable fish production.

In general, consumers show a rather negative perception about ready-to-cook products, in terms of loss of original characteristics. The preference for ready-to-cook fish products because of saving time is lower than the risk of alter the original fish characteristics (Figure 9). This difference is much larger in France and Spain, while is lower in the UK. Only in Germany consumers’ preference for ready-to-cook fish products is higher than the risk of alter the original fish characteristics.

Figure 9: Attitude towards ready-to-cook fish. Figure 9: Attitude towards ready-to-cook fish.

Once having performed the choice experiment, the respondents had to state how they believed in the benefits of sustainability certification to the environment and society, and how they believed in the nutrition and health claim. The results are reported in Figure 10 and 11. The belief strength is generally higher for the sustainability certification scheme, while, for both labels, is lower in France compared to Spain, Italy and UK.

Figure 10: Belief strength about the sustainability label. Figure 10: Belief strength about the sustainability label.

Note: “We assume you have read the definition of sustainability certification above. On a scale of 0-100, to what extent do you believe in the benefits of such certification to the environment and society? (e.g., 0 = completely unbelievable; 50 = neutral; 100 = completely believable)

Figure 11: Belief strength about the nutritional and health claim. Figure 11: Belief strength about the nutritional and health claim.

Note: “In the marketplace, some producers provide health benefit information from consuming their products. On a scale of 0-100, to what extent do you believe such health benefit claims? (e.g., 0 = completely unbelievable; 50 = neutral; 100 = completely believable).

 

3.2 The choice experiment results

Two different models were estimated:

  • the first one with fish species-specific effects (FSSE); this is needed for obtaining WTP

specific for the 7 species;

  • the second one with random price effect (RPE) models; this is needed for

segmentation.

 

3.2.1 Model specification and estimation

According to Lancaster’s consumer theory (1966), consumer utility stems from product attributes, not the products themselves. In other words, consumer utility can be separated into part-worth utilities. The part-worth utilities equal consumers’ preference for corresponding attributes. In marketing research, the product attributes are classified into extrinsic and intrinsic attributes (Zeithaml, 1988; Olsen et al., 2008). Regardless of whether consumers are exposed to these attributes, they may be important signals of product quality and determinants of consumer preference.

The overall utility that a consumer obtains from consuming a seafood species j (Uj) can be expressed as:

Equation 1.

It is generally assumed that an individual would choose a product alternative if the utility derived from this alternative is maximized compared to the other alternatives:

Equation 2.

When facing a “basket” of seafood products, consumers assign a random utility to each product alternatives and select the one with the highest derived utility. Assuming that the stochastic components εj have independent and identical distributed (iid) forms, the probability of a consumer i choosing a fish product j(P( yij = 1 ) given by the multinomial logit (MNL) model (McFadden, 1974), is expressed in the following equation:

Equation 3.

The MNL model presented in equation (3) is the basic choice model and has been approved to have several disadvantages such as assuming iid of the error and assuming the homogeneity of consumers’ preference. To overcome the limitations of MNL, there many advanced discrete choice models suggested such as the mixed logit models (random coefficient, scaled-multinomial logit, and generalized-multinomial logit) and the latent class model (LCM) (see Fiebig et al., 2010; Greene & Hensher, 2003). We estimated two types of models in this report to elicit the consumers’ WTP for fish attributes that are specific to particular fish species and for individual consumers, named as fish speciesspecific effect model (FSSE) and random (i.e price) parameter effect model. The fish species-specific effect (FSSE) model (fish j), is expressed as:

Equation 4.

where β parameters are estimated for the j-th fish species and for the attributes production method (i.e. Method, as wild caught vs. farmed fish), product format (i.e. Format, as whole fish/round cut, fillet or ready-to-cook), nutritional and health claim (i.e. Health, as with/without nutritional and health claim), and sustainability label (i.e. Sustain, as with/without sustainability certification). The Random price effect (RPE) model is specified so that the price coefficients includes two components, such as the average effect of price and the individual variance of price effects, expressed as:

Equation 5.

where αj, βk are fixed-effect coefficients, γ3 is random coefficient of price estimated for individual i. The specification of FSSE allows us to calculate the willingness to pay (WTP) for each of seven fish species in the choice experiment, while random price effect model allows us to elicit the WTP of each fish attributes at individual consumers’ level. The WTP for a non-monetary attribute is the price premium that consumers are willing to pay for obtaining a desired attribute level. The WTP for an attribute level A (e.g. health) from FSSE model in equation (4) is calculated as:

Equation 6.

where 𝑊𝑇𝑃Aj is the price premium paid for obtaining a desired level of attribute A (i.e., product with health claim) of the fish j, and β𝐴𝑗 and β5𝑗 are the estimated coefficients of attribute A and price attributes of fish j. Similarly, the WTP for attribute A (not specific to fish species) at consumers' individual level (𝑊𝑇𝑃𝐴i) is calculated from model in equation (5) is:

Equation 7.

We estimate the WTP specific to fish species with expectation that consumers‘ preference for fish quality attributes depends in specific species (Thong et al., 2015). For instance, consumers may prefer filleted cod to the whole fish cod, but they may prefer whole fish herring to the filleted herring. The WTP for fish quality attributes are calculated at individual consumers because the nature of heterogeneity of preference. The random price effect model also allows us to obtain choice probability for fish species at the individual consumer‘s level. The individual consumers‘ choice probability thus will be used for segmentations that are actionable for marketing strategy and developing the decision support system (DSS). The segments are derived in every country using SAS macros, and three parameter criterion: cubic clustering criterion (Sarle, 1983), Pseudo-F statistics (Calinski and Harabasz, 1974), and Pseudo-t squared statistics (Duda and Hart, 1973).

 

Reports & Data


Data

Italy

Table 8 reports the coefficients estimates for models with fish species-specific effect (FSSE) in the Italian sample. The higher coefficient reported for seabass indicate that this species is the most preferred by the Italian consumers, followed by cod and seabream, while the least preferred is herring. Wild caught alternative is the most preferred comparted to the farm-raised fish for all species, with higher incidence for cod and seabass. Ready-to-cook products are preferred compared to whole or round cut in the case of cod, herring and pangasius, while is less preferred for salmon and seabream. Fish fillet is preferred than ready-to-cook products for salmon, seabream and cod, while is less preferred for trout and seabass. The sustainability label is generally appreciated for all species, where the effect is higher for cod, seabream, pangasius and trout. The nutritional and health claim is also generally appreciated, where higher scores are found for seabream, pangasius and cod. The willingness to pay is directly derived from these results, applying the formula (6). The results are shown in Table 9, where the price premium (in €/kg) and the marginal WTP (in % above or below the average price in Table 3) are reported. Considering the production method, the higher relative WTP has been found in the case of wild salmon, compared to the farmraised alternative (+48%). Again the higher marginal WTP for format attribute is found for salmon fillet and round cut compared to the ready-to-cook alternative (respectively, +70% and +38%). The higher WTP for the sustainability scheme was found for cod (+27%), while the WTP for nutritional and health claim is higher for seabream (+27%).

Table 8: Fish Species-Specific Effect (FSSE) Model, β (mean and standard deviation) - Italy.
WTP Table 8.
Table 9: Italian consumers' WTP a price premium (in €/kg and % above or below the average market price) for specific fish attributes, based on the estimates of the FSSE model.
WTP Table 9.

The random price effect (RPE) model, able to estimate the price coefficient for every single consumer, resulted in the mean effects (and standard deviation) reported in Table 10. The attribute effects, in this case, are computed without the interaction with the species (i.e. on average for all species). The higher utility score was found for wild caught fishes compared to the farm-raised ones, and for the sustainability label and nutritional and health claims. The WTP estimates, based on these effects, are reported in Table 11. These estimates are the mean values estimated for each consumer in the sample.

Table 10: Random Price Effect (RPE) model, β (mean and standard deviation) - Italy.
WTP Table 10.
Table 11: Italian consumers' WTP (in €/kg) for fish species and attributes, based on the estimates of the RPE model.
WTP Table 11.

The choice probability for fish species is reported in Table 12. This probability is very similar using both models, indicating the robustness of the effects across the models. Seabream, seabass and salmon exhibit the higher choice probability, while herring and pangasius and trout the lowest.

Table 12: Choice probability for fish species (mean value, standard deviation, minimum and maximum) with Fish Species-Specific Effect (FSSE) and Random Price Effect (RPE) models - Italy.
WTP Table 12.

We have derived five different segments, based on choice probabilities, shown in Table 13. The first cluster is the largest (36% of the sample), and exhibits a higher WTP in general for all fish species and attributes. It is indeed one of the least sensitive to price changes. Mostly composed by females, middle aged, high educated and with high income level, living in a medium-large family. The second segment (12% of the sample) exhibits a low WTP, compared to the other segments, and a high sensitivity to price changes. It is made of females (61%), with lower education level, mostly living in two people families. The third segment is the second large one (30%), and expressed a medium WTP for all species, and a medium-high WTP for sustainability label and wild-caught fishes. It shows a low sensitivity with price changes. It is mostly composed by men (53%), middle-high aged, both low and high educated, with medium income and large family units (> three people). The fourth segment, representing 20% of the sample, shows slightly higher WTP values compared to the third one, only with a higher sensitivity with price changes. It is mostly composed by men (58%), younger, with lower educational level, and lower income (even if the higher income level is well represented), and living in larger family units. The fifth sample is the smallest (3%), and exhibits a low WTP for all species and attributes, and high price sensitivity.

Table 13: Segmentation of the Italian market, based on individuals’ choice probabilities.
WTP Table 13.

 

France

Table 14 reports the coefficients estimates in the French sample for models with fish speciesspecific effect (FSSE). The higher β coefficient reported for seabream, cod and seabass indicate that these species are the most preferred by the French consumers, while the least preferred are herring and pangasius. Wild caught alternative is preferred comparted to the farm-raised fish for all species, with higher incidence for seabream. Ready-to-cook products are preferred compared to whole or round cut for all species, except with salmon. Fish fillet is preferred than ready-tocook products for salmon and cod, while is less preferred for pangasius. The sustainability label is generally appreciated by consumers, with higher effects for seabass and pangasius. The nutritional and health claim is appreciated for seabass, whilst the other effects are less significant. The willingness to pay results, applying the formula (8), are shown in Table 15 where the price premium (in €/kg) and the marginal WTP (in % above or below the average price in Table 3) are reported. Considering the production method, the higher relative WTP has been found in the case of wild salmon, compared to the farm-raised alternative (+58% compared to average market price); high premiums have been also estimated for wild seabream (+34%) and wild cod (+33%). The higher marginal WTP for format attribute is found for salmon fillet and round cut compared to the ready-to-cook alternative (respectively, +58% and +48%). Round cut pangasius is the least accepted, with a WTP for ready-to-cook alternative of 72%. Significant price premiums are also estimated for ready-to-cook cod (35%) and herring (33%), compared to, respectively, round cut and whole alternatives. The higher price premium for the sustainability scheme was found for salmon (+23%), seabass (+20%) and pangasius (+17%); the WTP for nutritional and health claim is higher for seabass (+13%).

Table 14: Fish Species-Specific Effect (FSSE) Model, β (mean and std. deviation) - France.
WTP Table 14.
Table 15: French consumers' WTP a price premium (in €/kg and % above or below the average market price) for specific fish attributes, based on the estimates of the FSSE model.
WTP Table 15.

The random price effects (RPE) model results (mean and standard deviation) are reported in Table 16 where the β coefficients are shown. The higher utility score was found for salmon and cod, and for wild caught fishes compared to the farm-raised ones. To a lesser extent the β coefficients are also positive for the fillets compared to the ready-to-cook alternatives, and for the sustainability label. The WTP estimates, based on these effects, are reported in Table 17; the higher premiums are associated with salmon and cod (respectively, 24.6 and 20.6 €/kg), and with wild-caught fishes (3.2 €/kg). The relatively low willingness to pay of French consumers for both sustainability label and nutritional and health claim can be partially explained by their weak belief strength in the benefits of sustainability certification to the environment and society, and in the nutrition and health claim.

Table 16: Random Price Effect (RPE) model, β (mean and standard deviation) - France.
WTP Table 16.
Table 17: French consumers' WTP (in €/kg) for fish species and attributes, based on the estimates of the RPE model.
WTP Table 17.

The choice probability for fish species is reported in Table 18. This probability is very similar using both models, indicating the robustness of the effects across the models. Salmon, cod and seabream exhibit the higher choice probability, while pangasius and herring the lowest.

Table 18: Choice probability for fish species (mean value, standard deviation, minimum and maximum) with Fish Species-Specific Effect (FSSE) and Random Price Effect (RPE) models - France.
WTP Table 18.

Finally, we have derived six different segments, based on choice probabilities, shown in Table 19. The first two segments (CL1 and CL2), representing overall 45% of the sample, have the largest WTP scores for all fish species and attributes, including a higher WTP for ready-tocook fishes compared to whole alternatives. These two clusters are less sensitive to price changes. The first segment is mostly composed by younger males, highly educated and with higher income level, living in two-three people families. The second segment is mostly composed by older females, highly educated and with higher income level, living in largersized families (four people). The third segment (29% of the sample) exhibits an average WTP, compared to the other segments. It is mostly made of males (53%), middle-high aged, less educated and with lower income, mostly living alone. The fourth and the fifth segments, representing 9% and 5% of the sample, show low price premiums compared to the other ones, exhibiting a higher sensitivity with price changes. Segment four is mostly composed by young females (64%), with lower education and income, living either alone or in larger families (four people or more). Segment six, representing 13% of the sample, exhibits a medium-low willingness to pay premium for all species, but with low sensitivity with price change. It is mostly composed by young males with medium educational level, and high income, living in larger family units (three and more components).

Table 19: Segmentation of the French market, based on individuals’ choice probabilities.
WTP Table 19.

 

Germany

Table 20 reports the coefficients estimates in the German sample for models with fish speciesspecific effect (FSSE), with and without beliefs. Cod, salmon, trout and seabass reported the higher β coefficients, indicating that these species are the most preferred by German consumers. Wild caught alternative is the most preferred comparted to the farm-raised fish for all species, with higher β coefficient for seabass. Readyto-cook products are generally preferred compared to whole (or round cut) fishes and fillets, except for salmon, where fillet is preferred than ready-to-cook product. The sustainability label is generally appreciated for all species, with more significant effects where found for seabass and seabream. The nutritional and health claim reported higher coefficients for seabream and herring. The willingness to pay results, applying the formula (8), are shown in Table 21. Wild-caught seabass exhibits the highest premium compared to the farm-raised alternative (+51% above the average market price), followed by wild-caught salmon (+35%) and seabream (+32%). As said before, the ready-to-cook products are generally preferred, with highest premiums found for pangasius, cod and seabass, compared to the whole or round cut fish. Consumers are willing to pay 38% price premium for salmon fillets compared to ready-to-cook products. The higher marginal WTP for the sustainability label was found for seabream (+53%), pangasius (49%) and seabass (42%). The WTP for nutritional and health claim is higher for pangasius (+44%) and seabream (+30%).

Table 20: Fish Species-Specific Effect (FSSE) Model, β (mean and std. deviation) - Germany.
WTP Table 20.
Table 21: German consumers' WTP a price premium (in €/kg and % above or below the average market price) for specific fish attributes, based on the estimates of the FSSE model.
WTP Table 21.

The RPE model effects (β coefficients mean and standard deviation) are reported in Table 22. The higher utility score was found for salmon, trout and cod, and for wild-caught fishes compared to the farm-raised ones and for ready-to-cook products compared to whole or round cut fishes. The β coefficients are also significant for the sustainability label and nutritional and health claim. The WTP estimates, based on these effects, are reported in Table 23; the higher premiums are associated with salmon and trout (respectively, 28.5 and 22.6 €/kg), and with ready-to-cook (2.7 €/kg compared to the whole alternative) and wild-caught fishes (2.4 €/kg).

Table 22: Random Price Effect (RPE) model, β (mean and standard deviation) - Germany.
WTP Table 22.
Table 23: German consumers' WTP (in €/kg) for fish species and attributes, based on the estimates of the RPE model.
WTP Table 23.

Table 24 shows the choice probability for fish species. This probability is higher for salmon, trout and pangasius, while is lower for seabream and seabass.

Table 24: Choice probability for fish species (mean value, standard deviation, minimum and maximum) with Fish Species-Specific Effect (FSSE) and Random Price Effect (RPE) models - Germany.
WTP Table 24.

We have derived four different segments, based on choice probabilities, shown in Table 25. The first cluster, representing 28% of the sample, is the one with the highest willingness to pay for all species and attributes, including the ready-to-cook alternatives. It is almost equally composed by young males and females, with medium-to-high educational level, and high incomes, mostly living with small family units (one or two members). Segment two is the smallest one (13.5%). It reports a low willingness to pay for all species and attributes, compared to the other segments. This segment is made by young and old people (middle aged less represented), with medium educational level, and high income, living in large family units (three people or more). The third segment is the largest (32%); it exhibits a medium willingness to pay for species and attributes. It is mostly composed by males, middle-old aged, average education, high income, and living in families with two people. Finally, the fourth segment (26%), reports a low willingness to pay for all species and attributes. It is made by middle-age females (59%), with low educational level, middle income and living in small family units.

Table 25: Segmentation of the German market, based on individuals’ choice probabilities.
WTP Table 25.

 

UK

Table 26 reports the coefficients estimates in the UK sample for models with fish speciesspecific effect (FSSE). The high coefficients reported for salmon and cod indicate that these species are the most preferred by the UK consumers, while the least preferred are pangasius and seabass, exhibiting a negative β coefficient which denotes that these species decrease the consumers’ utility. Wild caught alternative are generally preferred, in particular seabass and salmon. Ready-to-cook products are preferred compared to while or round cut for all fish species, except for salmon. Fish fillet is preferred than ready-to-cook products for salmon and seabream, while it is less preferred for trout and pangasius. The sustainability label is mostly appreciated for herring and seabream, whilst it is detrimental for consumers’ utility in the case of pangasius. The nutritional and health claim is mostly appreciated for pangasius, salmon and trout. Table 10 shows the WTP estimates, in £/kg and as a % of the average price, applying the formula (8). The results show a +48% price premium consumers are willing to pay for wildcaught seabass compared to farmed alternative. The higher marginal WTP for format attribute have been found for ready-to-cook products, compared to whole/round cut fish, in the case of herring (81%), seabass (49%), cod (37%), trout (33%) and seabream (30%). Salmon fillet is preferred compared to the ready-to-cook alternative (+44%). The higher WTP for the sustainability scheme was found for herring (+62%), while the WTP for nutritional and health claim is higher for pangasius (+26%).

Table 26: Fish Species-Specific Effect (FSSE) Model, β (mean and standard deviation) – UK.
WTP Table 26.
Table 27: UK consumers' WTP a price premium (in £/kg, €/kg (5) and % of the average market price) for specific fish attributes, based on the estimates of the FSSE model.
WTP Table 27.
(5) The exchange rate used is 1 GB £ = 1.16 €.

The RPE model results are reported in Table 28, where the β coefficients (mean and standard deviation) are shown.

Table 28: Random Price Effect (RPE) model, β (mean and standard deviation) - UK.
WTP Table 28.
Table 29: UK consumers' WTP (in £/kg and €/kg (6) ) for fish species and attributes, based on the estimates of the RPE model.
WTP Table 29.
6 The exchange rate used is 1 GB £ = 1.16 €.

The higher utility score was found for salmon and cod, and for wild caught fishes compared to the farm-raised ones. Ready-to-cook products are generally preferred compared to the whole/round cut alternatives. To a lesser extent the β coefficients are also positive for the fillets compared to the ready-to-cook alternatives, and for the sustainability label. The WTP estimates, based on these effects, are reported in Table 29; the higher premiums for fish species are associated with salmon and cod (respectively, 23.4 and 21.8 €/kg). For the attributes, wild-caught fishes carry the higher premiums (1.8 €/kg), followed by ready-to-cook products compared to whole alternative (1.4 €/kg), and by fish fillets compared to ready-tocook ones (1.1 €/kg). The choice probability, reported in Table 30, indicate that salmon and cod are the most chosen alternatives, while pangasius, seabream and trout are the least preferred ones.

Table 30: Choice probability for fish species (mean value, standard deviation, minimum and maximum) with Fish Species-Specific Effect (FSSE) and Random Price Effect (RPE) models - UK.
WTP Table 30.

We have derived four different segments for the UK market, based on choice probabilities (Table 31). The first segment (13%) is the one with the lowest WTP for all species and attributes, and the one more sensitive with price changes. It shows, compared to the other segments, a higher incidence of middle-aged females, with low education and low income, living in larger family units. Segment 2 is the largest one (41% of the sample), showing, compared to the other segment a medium-high WTP. Younger males are more represented, with higher educational level and income, and living in families with three or four members. The third segment (27%) shows low estimates of premium prices; it is mostly composed by females, with medium income level and education, living in small family units. Segment 4 (19%) is the one with the highest estimated WTP; middle-aged and older females are more represented, as well as middle educated and income levels, and mostly living in families with two members.

Table 31: Segmentation of the UK market, based on individuals’ choice probabilities.
WTP Table 31.

 

Spain

Table 32 reports the coefficients estimates in the Spanish sample for models with fish speciesspecific effect (FSSE), with and without beliefs. Seabass, seabream and cod are the species with the highest β coefficients in the FSSE model, indicating a stronger preference of Spanish consumers for these products, while pangasius is the least preferred one. Wild-caught alternative are generally appreciated, while wild-caught seabass carrying the highest utility. Ready-to-cook products are preferred compared to while or round cut in the case of cod, pangasius and herring, while it is less preferred for salmon and seabream. This result is very similar to the Italian case. Fish fillets are generally preferred than ready-to-cook products apart from trout and pangasius. The sustainability label coefficient carrying the higher utility for consumers was found for trout, herring and seabream. The nutritional and health claim is generally appreciated, where higher scores are found for pangasius. The price premiums (in €/kg and % of the average price) that Spanish consumers are willing to pay for species and attributes, estimated with formula (8), are shown in Table 33. The higher relative WTP has been found in the case of wild-caught seabass, compared to the farm-raised alternative (+19%). Salmon fillet carries the higher premium compared to ready-to-cook alternative (+53%), whilst ready-to-cook trout is preferred than the fillet alternative, showing a 47% WTP. Consumers are willing to pay a premium for ready-to-cook pangasius compared to round cut and fillets, respectively, +36% and 32% premium. The higher WTP for the sustainability label and nutritional and health claim was found for trout (respectively, +33% and +37%) and pangasius (respectively, +30% and +68%).

Table 32: Fish Species-Specific Effect (FSSE) Model, β (mean and standard deviation) - Spain.
WTP Table 32.
Table 33: Spanish consumers' WTP a price premium (in €/kg and % above or below the average market price) for specific fish attributes, based on the estimates of the FSSE model.
WTP Table 33.

The RPE model effects (β coefficients mean and standard deviation) are reported in Table 34. The higher utility score was found for salmon, seabream, seabass and cod, and for wild-caught fishes compared to the farm-raised ones. The β coefficients are also significant for the sustainability label and nutritional and health claim. The WTP estimates, based on these effects, are reported in Table 35; the higher premiums for species are associated with salmon (mean premium 20.7 €/kg), seabream (18.4 €/kg) and cod (18.1 €/kg). The nutritional and health claim carries the highest premium among the attributes, with 1.1 €/kg.

Table 34: Random Price Effect (RPE) model, β (mean and standard deviation) - Spain.
WTP Table 34.
Table 35: Spanish consumers' WTP (in €/kg) for fish species and attributes, based on the estimates of the RPE model.
WTP Table 35.

Table 36 shows the choice probability for fish species. This probability is higher for salmon, seabream and trout, while is lower for herring and pangasius.

Table 36: Choice probability for fish species (mean value, standard deviation, minimum and maximum) with Fish Species-Specific Effect (FSSE) and Random Price Effect (RPE) models - Spain.
WTP Table 36.

We have derived seven different segments, based on choice probabilities, shown in Table 37. The first cluster, which is the larger one (21%), shows medium price premiums, compared to the other clusters, for species and attributes. It is mostly made by young females, highly educated, with high income and relatively medium-large family units (four people). Segment 2 (18% of the sample), showing the highest WTPs, is composed by young males, with high income, living in large family units (four people or more). Segment 3 shows medium-high WTP estimates too (19% of the sample), is relatively more representative of older females, with lower income level, living in smaller family units. The fourth segment (19% of the sample) shows an average WTP for species and attributes. It is mostly composed by middle-aged males, less educated and with lower income. Segments 5, 6 and 7 are all exhibiting lower premiums estimates for species and attributes.

Table 37: Segmentation of the Spanish market, based on individuals’ choice probabilities.
WTP Table 37.

 

Appendix

Synthesis of the qualitative phase

Table A1: Familiarity, attributes, barriers, and format for fish species and countries, as retrieved from the qualitative phase (Task 4.1)

WTP Table A1.

Preliminary list of attributes

Table A2: Preliminary list of attributes and levels by species.

WTP Table A2.

Pictures of the format attribute

Table A3: Set of pictures of the format attribute, by species in each country.

France
WTP Table A3 - France.
Germany
WTP Table A3 - Germany.
Italy
WTP Table A3 - Italy.
Spain
WTP Table A3 - Spain.
UK
WTP Table A3 - UK.

 

The questionnaire

Appendix A4: The questionnaire in the English version. (5 pages)
WTP questionnaire page 1.
WTP questionnaire page 2.
WTP questionnaire page 3.
WTP questionnaire page 4.
WTP questionnaire page 5.

 

References & Readings


Conclusions

The activity performed in Task 4.4, resulting in this Deliverable (D4.7), investigated consumer demand and choice behaviour for fresh fish using an online choice experiment. In particular, we examined consumer preferences in five countries for different fish alternative species and attributes, using a labelled choice experiment (LCE). The results in terms of part-worth associated with the single attributes allowed to estimate consumers’ willingness to pay (WTP) for the salient product characteristics. The heterogeneous choices and preferences across countries and species suggested the application of a model where the attribute part-worth were estimated separately for every species in every country (fish species-specific effects model – FSSE). Using a random price effect (RPE) model we estimated the effects and WTP for attributes at consumers’ individual level; the individual consumers‘ choice probability so estimated thus was used for segmentations in every country. These results are actionable for marketing strategy and useful input in the developing of the decision support system (PrimeDSS). In particular, using the WTP results of the FSSE model it will be possible to estimate, in the five countries, the consumers’ willingness to pay a premium for specific species-related attributes cumulated in a product profile with certain characteristics. In other words, the DSS user, by selecting the preferred characteristics of the given species in a specific country, will retrieve the estimated consumers’ willingness to pay for that product, based on the estimated model on the data collected. Given the representativeness of the sample in every country, this result will provide stakeholder with a clear guidance about the (hypothetical) consumers’ preferences for each product profile. Similarly, the segmentation performed using the RPE model will provide DSS users with more details about the characteristics of the market segment more attracted by the given product profile. In addition, RPE model effects will enable us to estimate price elasticities, in which cross price elasticities among fish species are not constant. With these outcome it will be possible to develop competitiveness clouds and vulnerability index. Finally, the present activity have been implemented in parallel with the survey in Task 5.4, with a number of common questions (the “bridge questions”) leaving the possibly to combine the results of both surveys in a more powerful tool to be implemented in the PrimeDSS. The results of WTP and price elasticity for markets and segments across the five surveyed countries, as well as the possibility to combine the survey in Tasks 4.4 and 5.4, will be further investigated in Tasks 5.4 and 5.5, and eventually used as an input for the PrimeDSS development in WP6 of the project.'

 

Acknowledgement

We gratefully acknowledge the Primefish project partners for having provided feedback and helpful input to the present research. In particular, we thank Birgit Hagen, Emilia Cubero Dudinskaya and Antonella Carcagnì (University of Pavia, Italy), José Luis Santiago CastroRial, (Centro Tecnológico del Mar - Fundación CETMAR, Spain), Dimitar Taskov (University of Stirling, United Kingdom), Sterenn Lucas (Institut National de la Recherche Agronomique – INRA, France), Bjorn Suckow (TTZ, Germany), and Olga Untilov (Universite de Savoie, France).

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