A General Model of Selectivity for Fish Feeding: A Rank Proportion Algorithm

References

• Aksnes , D. L. and Giske , J. 1993 . A theoretical model of aquatic visual feeding . Ecological Modelling , 67 : 233 – 250 .
   Web of Science ®Google Scholar
• Andersen , K. P. and Ursin , E. 1977 . A multispecies extension to the Beverton and Holt theory of fishing, with accounts for phosphorous circulation and primary production . Meddelelser fra Danmarks Fiskeri- og Havundersogelser (N.S.) , 7 : 319 – 435 .
   Google Scholar
• Bax , N. J. 1991 . A comparison of the fish biomass flow to fish, fisheries, and mammals in six marine ecosystems . ICES Marine Science Symposia , 193 : 217 – 224 .
   Google Scholar
• Bax , N. J. 1998 . The significance and prediction of predation in marine fisheries . ICES Journal of Marine Science , 55 : 997 – 1030 .
   Web of Science ®Google Scholar
• Beauchamp , D. A. , Bladwin , C. M. , Vogel , J. L. and Gubala , C. P. 1999 . Estimating diel, depth-specific foraging opportunities with a visual encounter rate model for pelagic piscivores . Canadian Journal of Fisheries and Aquatic Sciences , 56 : 128 – 139 .
   Web of Science ®Google Scholar
• Brooks , J. L. and Dodson , S. I. 1965 . Predation, body size, and composition of the plankton . Science , 150 : 28 – 35 .
   PubMed Web of Science ®Google Scholar
• Buckel , J. A. , Conover , D. O. , Steinberg , N. D. and McKown , K. A. 1999 . Impact of age-0 bluefish (Pomatomus saltatrix) predation on age-0 fishes in the Hudson River estuary: evidence for density-dependent loss of juvenile striped bass (Morone saxatilis) . Canadian Journal of Fisheries and Aquatic Sciences , 56 : 275 – 287 .
   Web of Science ®Google Scholar
• Butler , S. M. and Bence , J. R. 1984 . A diet model for planktivores that follows density-dependent rules for prey selection . Ecology , 65 : 1885 – 1894 .
   Google Scholar
• Caparroy , P. , Thygesen , U. H. and Visser , A. W. 2000 . Modelling the attack success of planktonic predators: patterns and mechanisms of prey size selectivity . Journal of Plankton Research , 22 : 1871 – 1900 .
   Web of Science ®Google Scholar
• Carpenter , S. R. , Kitchell , J. F. and Hodgson , J. R. 1985 . Cascading trophic interactions and lake productivity: fish predation and herbivory can regulate lake ecosystems . Bioscience , 35 : 634 – 639 .
   Web of Science ®Google Scholar
• Charnov , E. L. 1976 . Optimal foraging, the marginal value theorem . Theoretical Population Biology , 9 : 129 – 136 .
   PubMed Web of Science ®Google Scholar
• Christensen , V. 1996 . Managing fisheries involving predator and prey species . Reviews in Fish Biology and Fisheries , 6 : 417 – 442 .
   Web of Science ®Google Scholar
• Christensen , V. and Pauly , D. On steady-state modeling of ecosystems . Trophic models of aquatic ecosystems . Edited by: Christensen , V. and Pauly , D. pp. 14 – 19 . Philippines : Manila . International Center for Living Aquatic Resources Management, Conference Proceedings 26
   Google Scholar
• Confer , J. L. and Blades , P. I. 1975 . Omnivorous zooplankton and planktivorous fish . Limnology and Oceanography , 20 : 570 – 579 .
   Google Scholar
• Confer , J. L. , Howick , G. L. , Corzette , M. H. , Kramer , S. I. , Fitzgibbon , S. and Landesberg , R. 1978 . Visual predation by planktivores . Oikos , 31 : 27 – 37 .
   Web of Science ®Google Scholar
• Confer , J. L. , Mills , E. L. and O'Bryan , L. 1990 . Influence of prey abundance on species and size selectivity by young yellow perch (Perca flavescens) . Canadian Journal of Fisheries and Aquatic Sciences , 47 : 882 – 887 .
   Web of Science ®Google Scholar
• Daan , N. and Sissenwine , M. P. , eds. 1991 . Multispecies models relevant to management of living resources , ICES Marine Science Symposia 193 Copenhagen
   Google Scholar
• Dill , L. M. 1983 . Adaptive flexibility in the foraging behavior of fishes . Canadian Journal of Fisheries and Aquatic Sciences , 40 : 398 – 408 .
   Web of Science ®Google Scholar
• Dunbrack , R. L. 1992 . Subsurface drift feeding by coho salmon (Oncorhynchus kisutch, Walbaum): a model and test . Journal of Fish Biology , 40 : 455 – 464 .
   Web of Science ®Google Scholar
• Dunbrack , R. L. and Dill , L. M. 1983 . A model of size dependent surface feeding in a stream dwelling salmonid . Environmental Biology of Fishes , 8 : 203 – 216 .
   Web of Science ®Google Scholar
• Dunbrack , R. L. and Dill , L. M. 1984 . Three-dimensional prey reaction field of the juvenile coho salmon (Oncorhyncus kisutch) . Canadian Journal of Fisheries and Aquatic Sciences , 41 : 1176 – 1182 .
   Web of Science ®Google Scholar
• Eggers , D. M. 1977 . The nature of prey selection by planktivorous fish . Ecology , 58 : 46 – 59 .
   Web of Science ®Google Scholar
• Eggers , D. M. 1982 . Planktivore preference by prey size . Ecology , 63 : 381 – 390 .
   Web of Science ®Google Scholar
• Flore , L. , Reckendorfer , W. and Keckeis , H. 2000 . Reaction field, capture field, and search volume of O+ nase (Chondrostoma nasus): effects of body size and water velocity . Canadian Journal of Fisheries and Aquatic Sciences , 57 : 342 – 350 .
   Google Scholar
• Gabriel , W. L. and Pearcy , W. G. 1981 . Feeding selectivity of Dover sole, Microstomus pacificus, off Oregon . Fisheries Bulletin , 79 : 749 – 763 .
   Web of Science ®Google Scholar
• Galbraith , M. G. 1967 . Size selective predation on Daphnia by rainbow trout and yellow perch . Transactions of the American Fisheries Society , 96 : 1 – 10 .
   Web of Science ®Google Scholar
• Gardner , M. B. 1981 . Mechanisms of size selectivity by planktivorous fishes: a test of hypotheses . Ecology , 62 : 571 – 578 .
   Web of Science ®Google Scholar
• Gerking , S. D. 1994 . Feeding ecology of fish New York : Academic Press .
   Google Scholar
• Gerritsen , J. and Strickler , J. R. 1977 . Encounter probabilities and community structure in zooplankton: a mathematical model . Journal of the Fisheries Research Board of Canada , 34 : 73 – 82 .
   Web of Science ®Google Scholar
• Giske , J. , Aksnes , D. L. and Fiksen , O. 1994 . Visual predators, environmental variables, and zooplankton mortality risk . Vie et Milieu , 44 : 1 – 9 .
   Google Scholar
• Hahm , W. and Langton , R. 1984 . Prey selection based on predator–prey weight ratios for some northwest Atlantic fish . Marine Ecology Progress Series , 19 : 1 – 5 .
   Web of Science ®Google Scholar
• Hall , D. J. , Threlkeld , S. T. , Burns , C. W. and Crowley , P. H. 1976 . The size-efficiency hypothesis and the size structure of zooplankton communities . Annual Review of Ecology and Systematics , 7 : 117 – 208 .
   Google Scholar
• Helgason , T. and Gislason , H. 1979 . VPA analysis with species interaction due to predation , International Council for the Exploration of the Sea, CM 1979/ G 52 Copenhagen
   Google Scholar
• Hewett , S. W. and Johnson , B. L. 1992 . Fish bioenergetics model 2: an updgrade of a generalized bioenergetics model of fish growth for microcomputers Madison : University of Wisconsin Sea Grant Institute .
   Google Scholar
• Holling , C. S. 1959 . The components of predation as revealed by a study of small-mammal predation of the European sawfly . Canadian Entomologist , 91 : 293 – 320 .
   Google Scholar
• Hollowed , A. B. , Bax , N. , Beamish , R. , Collie , J. , Fogarty , M. , Livingston , P. , Pope , J. and Rice , J. C. 2000 . Are multispecies models an improvement on single-species models for measuring fishing impacts on marine ecosystems? . ICES Journal of Marine Science , 57 : 707 – 719 .
   Web of Science ®Google Scholar
• Hrbacek , J. 1962 . Species composition and the amount of zooplankton communities in relation to the fish stock , Rozpravy Ceskoslovenske Akademie Ved Rada Matematickych a Prirodnich Ved 72(10).
   Google Scholar
• Jobling , M. 1994 . Fish bioenergetics London : Chapman and Hall .
   Google Scholar
• Juanes , F. , Buckel , J. A. and Conover , D. O. 1994 . Accelerating the onset of piscivory: intersection of predator and prey phenologies . Journal of Fish Biology , 45 : 41 – 54 . (Supplement A)
   Web of Science ®Google Scholar
• Juanes , F. , Buckel , J. A. and Scharf , F. S. 2001 . Predatory behaviour and selectivity of a primary piscivore: comparison of fish and nonfish prey . Marine Ecology Progress Series , 217 : 157 – 165 .
   Web of Science ®Google Scholar
• Juanes , F. , Buckel , J. A. and Scharf , F. S. 2002 . “ Feeding ecology of piscivorous fishes ” . In Handbook of fish biology and fisheries Edited by: Hart , P. J. B. and Reynolds , J. D. Vol. 1 , 267 – 283 . Oxford, UK : Blackwell Scientific Publications .
   Google Scholar
• Keast , A. 1977 . Diet overlaps and feeding relationships between the year classes in the yellow perch (Perca flavescens) . Environmental Biology of Fishes , 2 : 53 – 70 .
   Google Scholar
• Keiffer , J. D. and Colgan , P. W. 1992 . The role of learning in fish behaviour . Reviews in Fish Biology and Fisheries , 2 : 125 – 143 .
   Google Scholar
• Kohler , C. C. and Ney , J. J. 1982 . A comparison of methods for quantitative analysis of feeding selection of fishes . Environmental Biology of Fishes , 7 : 363 – 368 .
   Web of Science ®Google Scholar
• Kreivi , P. , Muotka , T. , Huusko , A. , Maki-Petays , A. , Huhta , A. and Meissner , K. 1999 . Diel feeding periodicity, daily ration, and prey selectivity in juvenile brown trout in a subarctic river . Journal of Fish Biology , 55 : 553 – 571 .
   Web of Science ®Google Scholar
• Li , K. T. , Wetterer , J. K. and Hairston , N. G. 1985 . Fish size, visual resolution, and prey selectivity . Ecology , 66 : 1729 – 1735 .
   Web of Science ®Google Scholar
• Link , J. 1996 . Capture probabilities of Lake Superior zooplankton by an obligate planktivorous fish: the lake herring . Transactions of the American Fisheries Society , 125 : 139 – 142 .
   Web of Science ®Google Scholar
• Link , J. 1998 . Dynamics of lake herring (Coregonus artedi) reactive volume for different crustacean zooplankton . Hydrobiologia , 368 : 101 – 110 .
   Web of Science ®Google Scholar
• Link , J. and Hoff , M. H. 1998 . Relationship of lake herring (Coregonus artedi) gill raker characteristics to retention probabilities of zooplankton prey . Journal of Freshwater Ecology , 13 : 55 – 65 .
   Web of Science ®Google Scholar
• Link , J. and Keen , R. 1999 . A model of salmonid planktivory: field test of a mechanistic approach to size selection . Ecological Modelling , 117 : 269 – 283 .
   Web of Science ®Google Scholar
• Link , J. , Selgeby , J. H. , Hoff , M. H. and Haskell , C. 1995 . Winter diet of lake herring (Coregonus artedi) in western Lake Superior . Journal of Great Lakes Research , 21 : 395 – 399 .
   Web of Science ®Google Scholar
• Livingston , M. E. 1987 . Food resource use among five flatfish species (Pleuronectiformes) in Wellington Harbour, New Zealand . New Zealand Journal of Marine and Freshwater Research , 21 : 281 – 293 .
   Web of Science ®Google Scholar
• Luecke , C. and O'Brien , W. J. 1981 . Prey location volume of a planktivorous fish: a new measure of prey vulnerability . Canadian Journal of Fisheries and Aquatic Sciences , 38 : 1264 – 1270 .
   Web of Science ®Google Scholar
• Luo , J. , Brandt , S. B. and Klebasko , M. J. 1996 . Virtual reality of planktivores: a fish's perspective of prey size selection . Marine Ecology Progress Series , 140 : 271 – 283 .
   Web of Science ®Google Scholar
• MacKenzie , B. R. and Kiorboe , T. 1995 . Encounter rates and swimming behavior of pause-travel and cruise larval fish predators in calm and turbulent laboratory environments . Limnology and Oceanography , 40 : 1278 – 1289 .
   Web of Science ®Google Scholar
• Manatunge , J. and Asaeda , T. 1999 . Optimal foraging as the criteria of prey selection by two centrarchid fishes . Hydrobiologia , 391 : 223 – 240 .
   Web of Science ®Google Scholar
• Manly , B. J. F. , McDonald , L. L. and Thomas , D. L. 1993 . Resource selection by animals: statistical design and analysis for field studies New York : Chapman and Hall .
   Google Scholar
• Marschall , E. A. , Chesson , P. L. and Stein , R. A. 1989 . Foraging in a patchy environment: prey encounter rate and residence time distributions . Animal Behaviour , 37 : 444 – 454 .
   Web of Science ®Google Scholar
• McQueen , D. J. , Post , J. R. and Mills , E. L. 1986 . Trophic relationships in freshwater pelagic ecosystems . Canadian Journal of Fisheries and Aquatic Sciences , 43 : 1571 – 1581 .
   Web of Science ®Google Scholar
• Miller , T. J. , Crowder , L. B. and Rice , J. A. 1993 . Ontogenetic changes in behavioural and histological measures of visual acuity in three species of fish . Environmental Biology of Fishes , 37 : 1 – 8 .
   Web of Science ®Google Scholar
• Mills , E. L. , Confer , J. L. and Ready , R. C. 1984 . Prey selection by young yellow perch: the influence of capture success, visual acuity, and prey choice . Transactions of the American Fisheries Society , 113 : 579 – 587 .
   Web of Science ®Google Scholar
• Mills , E. L. and Forney , J. L. 1981 . Energetics, food consumption, and growth of young yellow perch in Oneida Lake, New York . Transactions of the American Fisheries Society , 110 : 479 – 488 .
   Web of Science ®Google Scholar
• Mittelbach , G. G. 1981 . Foraging efficiency and body size: a study of optimal diet and habitat use by bluegills . Ecology , 62 : 1370 – 1386 .
   Web of Science ®Google Scholar
• Mittelbach , G. G. and Persson , L. 1998 . The ontogeny of piscivory and its ecological consequences . Canadian Journal of Fisheries and Aquatic Sciences , 55 : 1454 – 1465 .
   Web of Science ®Google Scholar
• Newman , R. M. 1987 . Comparison of encounter model predictions with observed size selectivity by stream trout . Journal of the North American Benthological Society , 6 : 56 – 64 .
   Google Scholar
• Newman , R. M. and Waters , T. F. 1984 . Size-selective predation on Gammarus pseudolimnafus by trout and sculpins . Ecology , 65 : 1535 – 1545 .
   Web of Science ®Google Scholar
• Ney , J. J. 1990 . Trophic economics in fisheries: assessment of demand–supply relationships between predator and prey . Reviews in Aquatic Sciences , 2 : 55 – 81 .
   Web of Science ®Google Scholar
• O'Brien , W. J. 1979 . The predator–prey interaction of planktivorous fish and zooplankton . American Scientist , 67 : 572 – 581 .
   Web of Science ®Google Scholar
• O'Brien , W. J. 1987 . “ Planktivory by freshwater fish: thrust and parry in the pelagia ” . In Predation: direct and indirect impacts on aquatic communities Edited by: Kerfoot , W. C. and Sih , A. 3 – 16 . Hanover, New Hampshire : University Press of New England .
   Google Scholar
• O'Brien , W. J. , Evans , B. I. and Luecke , C. 1976 . Apparent size as the determinant of prey selection by bluegill sunfish (Lepomis macrochirus) . Ecology , 57 : 1304 – 1310 .
   Web of Science ®Google Scholar
• Palomares , M. L. and Pauly , D. 1989 . A multiple regression model for predicting the food consumption of marine fish populations . Australian Journal of Marine and Freshwater Research , 40 : 259 – 273 .
   Web of Science ®Google Scholar
• Pearcy , W. G. and Hancock , D. 1978 . Feeding habits of dover sole, Microstomus pacificus; rex sole, Glyptocephalus zachirus; slender sole, Lyopsetta exilis; and Pacific sanddab, Citharichthys sordidus, in a region of diverse sediments and bathymetry off Oregon. Fisheries Bulletin 76:641–651
   Google Scholar
• Polis , G. A. and Winemiller , K. O. 1996 . Food webs: integration of patterns and dynamics Boston : Kluwer Academic Publishers .
   Google Scholar
• Reiriz , L. , Nicieza , A. G. and Brana , F. 1998 . Prey selection by experienced and naive juvenile Atlantic salmon . Journal of Fish Biology , 53 : 100 – 114 .
   Web of Science ®Google Scholar
• Rincon , P. A. and Lobon-Cervia , J. 1995 . Use of an encounter model to predict size-selective predation by a stream dwelling cyprinid . Freshwater Biology , 33 : 181 – 191 .
   Web of Science ®Google Scholar
• Sagar , P. M. and Glova , G. J. 1998 . Diel feeding and prey selection of three size-classes of shortfinned eel (Anguilla australis) in New Zealand . Marine and Freshwater Research , 49 : 421 – 428 .
   Web of Science ®Google Scholar
• Sanyanga , R. A. 1998 . Food composition and selectivity of Synodontis zambezensis (Pisces: Mochokidae) in Lake Kariba and the ecological implications . Hydrobiologia , 361 : 89 – 99 .
   Web of Science ®Google Scholar
• Scharf , F. S. , Juanes , F. and Sutherland , M. 1998 . Inferring ecological relationships from the edges of scatter diagrams: comparison of regression techniques . Ecology , 79 : 448 – 460 .
   Web of Science ®Google Scholar
• Scharf , F. S. , Juanes , F. and Rountree , R. A. 2000 . Predator size–prey size relationships in marine fish predators: interspecific variation and effects of ontogeny and body size on trophic-niche breadth . Marine Ecology Progress Series , 208 : 229 – 248 .
   Web of Science ®Google Scholar
• Schmidt , D. and O'Brien , W. J. 1982 . Planktivorous feeding ecology of Arctic grayling (Thymallus arcticus) . Canadian Journal of Fisheries and Aquatic Sciences , 39 : 475 – 482 .
   Web of Science ®Google Scholar
• Schoener , T. W. 1970 . Nonsynchronous spatial overlap of lizards in patchy habitats . Ecology , 51 : 408 – 418 .
   Web of Science ®Google Scholar
• Sheldon , R. W. , Prakash , A. and Sutcliffe , W. H. 1972 . The size distribution of particles in the ocean . Limnology and Oceanography , 17 : 327 – 340 .
   Web of Science ®Google Scholar
• Sissenwine , M. P. 1984 . “ Why do fish populations vary? ” . In Exploitation of marine communities Edited by: May , R. M. 59 – 95 . New York : Springer-Verlag .
   Google Scholar
• Thiebaux , M. L. and Dickie , L. M. 1993 . Structure of the body-size spectrum of the biomass in aquatic ecosystems: a consequence of allometry in predator–prey interactions . Canadian Journal of Fisheries and Aquatic Sciences , 50 : 1308 – 1317 .
   Web of Science ®Google Scholar
• Tyson , J. T. and Knight , R. L. 2001 . Response of yellow perch to changes in the benthic invertebrate community of western Lake Erie . Transactions of the American Fisheries Society , 130 : 766 – 782 .
   Web of Science ®Google Scholar
• Vinyard , G. L. 1980 . Differential prey vulnerability and predator selectivity: effects of evasive prey on bluegill (Lepomis macrochirus) and pumpkinseed (L. gibbosus) predation . Canadian Journal of Fisheries and Aquatic Sciences , 37 : 2294 – 2299 .
   Web of Science ®Google Scholar
• Walters , C. J. , Christensen , V. and Pauly , D. 1997 . Structuring dynamic models of exploited ecosystems from trophic mass-balance assessments . Reviews in Fish Biology and Fisheries , 7 : 139 – 172 .
   Web of Science ®Google Scholar
• Wanzenboeck , J. 1996 . The need for state-dependent foraging models to predict size selectivity of 0+ zooplanktivorous fish . Limnologica , 26 : 139 – 143 .
   Google Scholar
• Ware , D. M. 1971 . Predation by rainbow trout (Salmo gairdneri): the effect of experience . Journal of the Fisheries Research Board of Canada , 28 : 1847 – 1852 .
   Web of Science ®Google Scholar
• Ware , D. M. 1973 . The risk of epibenthic prey to predation by rainbow trout (Salmo gairdneri) . Journal of the Fisheries Research Board of Canada , 30 : 787 – 797 .
   Web of Science ®Google Scholar
• Werner , E. E. and Hall , D. J. 1974 . Optimal foraging and the size selection of prey by the bluegill sunfish (Lepomis macrochirus) . Ecology , 55 : 1042 – 1052 .
   Web of Science ®Google Scholar
• Wetterer , J. K. and Bishop , C. J. 1985 . Planktivore prey selection: the reactive field volume model vs. the apparent-size model . Ecology , 66 : 457 – 464 .
   Web of Science ®Google Scholar
• Whipple , S. J. , Link , J. S. , Garrison , L. P. and Fogarty , M. J. 2000 . Models of predation and fishing mortality in aquatic ecosystems . Fish and Fisheries , 1 : 22 – 40 .
   Web of Science ®Google Scholar
• Williamson , C. E. 1993 . Linking predation risk models with behavioral mechanisms: identifying population bottlenecks . Ecology , 74 : 320 – 331 .
   Web of Science ®Google Scholar
• Williamson , C. E. , Stoeckel , M. E. and Schoeneck , L. J. 1989 . Predation risk and the structure of freshwater zooplankton communities . Oecologia , 79 : 76 – 82 .
   PubMed Web of Science ®Google Scholar
• Wright , D. I. and O'Brien , W. J. 1984 . The development of a tactical model of the planktivorous feeding of white crappie (Pomoxis annularis) . Ecological Monographs , 54 : 65 – 98 .
   Web of Science ®Google Scholar
• Zhang , C. I. 1988 . Food habits and ecological interactions of Alaska plaice, Pleuronectes quadrituberculatus, with other flatfish species in the eastern Bering Sea . Bulletin of the Korean Fisheries Society , 21 : 150 – 160 .
   Google Scholar