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Diet and trophic ecology of skates ( Raja and Bathyraja spp.) in the Gulf of Alaska. Joseph J. Bizzarro, David A. Ebert, Simon C. Brown, Mariah D. Boyle and Gregor M. Cailliet. Pacific Shark Research Center Moss Landing Marine Laboratories. - PowerPoint PPT Presentation
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Diet and trophic ecology of skates (Raja and Bathyraja spp.) in the Gulf of Alaska
Joseph J. Bizzarro, David A. Ebert, Simon C. Brown, Mariah D. Boyle and Gregor
M. Cailliet
Pacific Shark Research CenterMoss Landing Marine Laboratories
Trophic Roles of Skates in Benthic Marine Communities
Skates are common components of benthic marine communities in temperate and boreal regions (Compagno 1990).
Skates consume a variety of prey taxa (e.g., polychaetes, molluscs, crustaceans, fishes), and typically occupy upper trophic levels (Ebert and Bizzarro 2007).
Skates may serve as predators or competitors of groundfishes (Link and Garrison 2002; Bizzarro et al. 2007).
Feeding Ecology of Skates in the Gulf of Alaska: Knowledge and Need
The biomass of skates in the Gulf of Alaska (GOA) appears to be increasing (Gaichas et al. 2003; Hoff 2006).
There is no published food habit information on skates in the GOA. Only available data are from NMFS/AFSC reports (Yang et al. 2006; Yang 2007).
Baseline, species-specific dietary information is necessary to determine the trophic roles of skates in the GOA - Development of effective, multi-species management plans - Potential impacts of exploitation and climate change on
the GOA ecosystem
Skate Assemblage in the Gulf of Alaska
Big skate(Raja binoculata)
Longnose skate(Raja rhina)
Bering skate(Bathyraja interrupta)
Aleutian skate(Bathyraja aleutica)
Objectives
1) Determine the diets of big (Raja binoculata), longnose (R. rhina), Aleutian (Bathyraja aleutica), and Bering (B. interrupta) skates in the GOA through analysis of stomach contents
2) Examine sources of variation in diet of each species
3) Examine regional differences in dietary composition of big and longnose skate populations in the GOA and off central California
4) Determine and compare trophic levels within and among species
5) Compare interspecific diets of GOA skates to determine the degree of dietary overlap
Methods: Specimen and Sample CollectionC.
2005n = 237
2006n = 481
2007n = 1346
Methods: Data Collection and AnalysisData Collection
Prey items identified to lowest possible taxon, weighed (0.01 g), and measured (0.1 mm)
Cumulative Prey Curves Quantitative Evaluation – Regression (P > 0.05; Bizzarro et al. 2007)
Dietary Indices (Single, Compound)%N, %M, %FO
%IRI: %FO * (%N+%M) (Pinkas et al. 1971)%GII: (%N + %M)/21/2 (Assis 1996)
Intra- and Interspecific Comparisons (%N, %M)18 Generalized Prey Categories nmMDS – Variable Categories
Permutation Tests (Manly 2007) PCA – Sources of Intraspecific Variation
Cluster Analysis (UPGMA)Trophic Level Calculations (Cortes 1999; Ebert and Bizzarro 2007)
Results (Overall): Big skate
General Dietary Information• 128 of 130 contained prey items (98.5%)• 68 Prey taxa identified• Trophic level = 3.67 + 0.24• Sufficient sample size at general, but not LPT categories
Dietary Composition• Crustaceans (crabs) were primary prey group (%IRI = 85.1 + 27.6)• Chionoecetes bairdi (%IRI = 62.3 + 41.3)• Crangon spp. (%IRI = 4.7 + 17.1)• Fishes (%IRI = 14.8 + 27.7; %FO = 48.4)
Comparison to LiteratureIn Alaskan waters, dietary information is limited to two specimens taken in the GOA (Yang et al. 2006) and two specimens from the Aleutian Islands (Yang 2007). Fishes and tanner crabs were the primary prey items found.
Results (Kodiak): Big skate
0
20
40
60
80
100
120
Crabs Euphausiids Fishes Shrimps Squids
Prey taxa
Mea
n %
Mas
s
Big skate dietary composition was similar between years using both %N (SIMobs = 0.639, P = 0.369) and %M (SIMobs = 0.669, P = 0.506).
%Mn = 44 (2006)n = 30 (2007)
0
10
20
30
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60
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100
CEPH CRAB FISH OCRUST SHRIMP
Prey category
Me
an %
Mas
s
Results (Regional): Big skate
Big skate dietary composition from the GOA and off central California differed significantly by %N (SIMobs = 0.428, P = 0.005) and %M (SIMobs = 0.357, P = 0.000). Trophic level was significantly greater off CA (U = 7979.5, P < 0.001).
%Mn = 128n = 173
Results (Overall): Longnose skate
General Dietary Information• 253 of 258 contained prey items (98.1%)• 68 Prey taxa identified• Trophic level = 3.68 + 0.28• Sufficient sample size at general, but not LPT categories
Dietary Composition• Crustaceans (shrimps) were primary prey group (%IRI = 82.0 + 32.2)• Crangon spp. (%IRI = 17.6 + 29.2)• Pandalus eous. (%IRI = 14.0 + 26.9)• Fishes (%IRI = 17.5 + 31.7; %FO = 46.6)
Comparison to LiteratureIn Alaskan waters, longnose skate dietary information is limited to three specimens taken in the GOA (Yang et al. 2006). Pandalid shrimps and tanner crabs dominated the diets of these specimens.
Results (Kodiak): Longnose skate
Longnose skate dietary composition was similar between years using both %N (SIMobs = 0.639, P = 0.369) and %M (SIMobs = 0.669, P = 0.407).
0
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140
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Crabs Shrimps Fishes
Prey taxa
Mea
n %
Mas
s
%Mn = 54n = 94
Results (Regional): Longnose skate
Longnose skate dietary composition from the GOA and off central California differed significantly by %N (SIMobs = 0.567, P = 0.025) and %M (SIMobs = 0.411, P = 0.000). Trophic level was significantly greater off CA (U = 31,481.5, P < 0.001).
0
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CEPH CRAB FISH SHRIMP
Prey category
Mea
n %
Mas
s
%Mn = 253 (GOA)n = 486 (CA)
Results (Overall): Aleutian skate
General Dietary Information• 153 of 156 contained prey items (98.1%)• 63 Prey taxa identified• Trophic level = 3.69 + 0.25• Sufficient sample size at general, but not LPT categories
Dietary Composition• Crustaceans (shrimps) were primary prey group (%IRI = 83.9 + 25.3)• Pandalus eous (%IRI = 34.2 + 36.4)• Chionoecetes bairdi. (%IRI = 19.9 + 29.9)• Fishes (%IRI = 13.9 + 23.6; %FO = 61.4)
Comparison to LiteratureIn Alaskan waters, dietary composition is limited to 24 specimens from the Aleutian Islands, which consumed primarily fishes, as well as crustaceans (e.g., pandalid shrimps) and, to a lesser extent, cephalopods.
0
20
40
60
80
100
120
Crabs Euphausiids Fishes Shrimps Squids
Prey taxa
Mea
n %
Nu
mb
er
Results (Kodiak): Aleutian skate
Interannual dietary differences were evident for Aleutian skates by %N (SIMobs = 0.553, P = 0.003), but not by %M (SIMobs = 0.536, P = 0.393).
%Nn = 36 (2006)n = 60 (2007)
Results (Overall): Bering skate
General Dietary Information• 195 of 199 contained prey items (98.0%)• 80 Prey taxa identified• Trophic level = 3.58 + 0.20• Sufficient sample size at LPT categories
Dietary Composition• Crustaceans (shrimps, euphausiids) were primary prey group (%IRI = 94.5 + 11.7)• Thysanoessa inermis/spinifera (%IRI = 31.5 + 37.9)• Eualus avinus (%IRI = 13.9 + 23.0)• Fishes (%IRI = 3.9 + 9.4; %FO = 43.1)
Comparison to LiteratureIn Alaskan waters, dietary composition consists of five specimens from the Aleutian Islands that consumed primarily crabs and polychaetes (Yang 2003; 2007), and three GOA specimens ate shrimps, crabs, and fishes (Yang et al. 2006).
Results (Kodiak): Bering skate
Interannual dietary differences were evident for Bering skates by both %N (SIMobs = 0.229; P = 0.000) and %M (SIMobs = 0.354, P = 0.000).
0
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Crabs Euphausiids Fishes Mysids Shrimps Squids
Prey taxa
Mea
n %
Mas
s
%Mn = 64n = 62
Results: Interspecific Comparisons
B. aleutica B. interrupta (2006) B. interrupta (2007) R. binoculata R. rhina
B. aleutica - 0.571 0.354 0.331 0.563
B. interrupta (2006) 0.393 - 0.354 0.333 0.636
B. interrupta (2007) 0.000 0.000 - 0.171 0.312
R. binoculata 0.000 0.000 0.000 - 0.247
R. rhina 0.389 0.416 0.000 0.000 -
Mean trophic levels ranged from 3.58 + 0.20 (Bering skate) to 3.69 + 0.25 (Aleutian skate) and differed significantly among species (Kruskal–Wallis = 14.351, P = 0.002). Post–hoc tests revealed that the difference was attributable to the comparison between Bering and Aleutian skates (Dunn’s Q = 3.630, P = 0.002); however, no other pairwise comparisons were significant (Dunn’s Q < 2.639, P > 0.05).
Overall Data
Kodiak Data
Results: Interspecific Comparisons
Dietary similarity (Pianka's)
Rrhi
Bint (2006)
Bale
Bint (2007)
Rbin
0.28 0.4 0.52 0.64 0.76 0.88 1
CrabsCrabs
EuphausiidsEuphausiids
ShrimpsShrimps
Conclusions
• The GOA skate assemblage on the continental shelf and upper continental slope was comprised of secondary consumers with diets consisting primarily of decapod crustaceans.
• Interannual dietary differences were evident for Aleutian and Bering skates. In both cases, euphausiids comprised a much greater dietary proportion during 2007, and the contribution of shrimps was relatively less substantial.
• The diets of Aleutian, longnose, and Bering skates (during 2006) were quite similar, consisting primarily of shrimps, with brachyuran crabs and fishes of secondary importance. Dietary compositions differed significantly for all additional interspecific comparisons.
Conclusions
• Several commercially important invertebrates (e.g. pandalid shrimps, tanner crabs) and fishes (e.g., walleye pollock, flatfishes) were common prey items.
• Big and longnose skate populations from California consumed a greater proportion of fishes and occupied elevated trophic positions when compared to those from the Gulf of Alaska. Possible competitive release of skates in California waters as a result of decline in sympatric groundfish stocks?
• Skates appeared to be generalists, consuming locally abundant fishes and invertebrates. As common generalist predators, skate diet may be a useful indicator of temporal changes in benthic prey composition (seasonal recruitment, climate change).
Future Work
• Complete processing of all available stomach samples for each species.
• Expand examination of sources of variation in skate diets.
• Complete species-specific manuscripts on diet and trophic ecology, and an additional manuscript detailing the comparative feeding ecology of GOA skates.
• Additional M.Sc. thesis project on diet of skates from Prince William Sound is underway using samples collected during funding for NPRB 621.
Acknowledgements
Kally Spalinger • Ken Goldman • Mike Byerly • Nick Sagalkin
Jim Thomason • Bill Walker • Eric Hochberg
Jasmine Fry • Shaara Ainsley • Diane Haas • Lewis Barnett •Priscilla Jimmeye
North Pacific Research Board • NOAA/NMFS to the National
Shark Research Consortium
Specimen collection (ADFG):
Funding for this research was provided by:
Prey Identification (NMFS–AFSC/SBNHM):
PSRC Students and Interns: