Foraging Decision Rules and Prey Species Preferences of Northwestern Crows (Corvus caurinus)

Categorization of similar prey types and the application of decision rules by dietary generalists can enhance the efficiency of foraging decisions and facilitate the inclusion of novel prey types in the diet. While considerable research attention has been directed toward investigation of these concepts in invertebrates, few have assessed categorization and decision rules used by generalist vertebrate predators. In this study, we experimentally investigated decision rules and prey preferences of northwestern crows (Corvus caurinus) feeding on littleneck clams (Tapes philippinarum) and whelks (Nucella lamellosa). We presented crows with three speciessize combinations: small clams (2.0–2.9 cm length) paired with large whelks (4.0–4.9 cm), small clams paired with medium whelks (3.0–3.9 cm), and large clams (4.0–4.9 cm) with large whelks. Profitability estimates based on observations of crows feeding on these prey species indicated that clams were always the more energetically profitable option; however, in prey choice trials crows consistently selected the heavier prey species, regardless of differences in profitability. These results show that crows apply a general decision rule according to which they select heavier prey items when feeding on hard-shelled prey requiring similar handling techniques, and that while such decision rules may approximate optimal choices they may not always follow predictions based solely on prey profitability. We discuss these results in the context of behavioural flexibility of generalist predators, and predicting impacts of intertidal avian predators on prey populations.

[1]  Daniel A. Cristol American crows cache less preferred walnuts , 2001, Animal Behaviour.

[2]  Irene M. Pepperberg,et al.  Acquisition of the same/different concept by an African Grey parrot (Psittacus erithacus): Learning with respect to categories of color, shape, and material , 1987 .

[3]  T. Keasar,et al.  Possible Mechanisms for the Formation of Flower Size Preferences by Foraging Bumblebees , 2002 .

[4]  N. Verbeek,et al.  Diet selection by Yearling Northwestern Crows (Corvus caurinus) feeding on littleneck clams (Venerupis japonica) , 1987 .

[5]  F. Whoriskey,et al.  Nest sites of the threespine stickleback: Can site characters alone protect the nest against egg predators and are nest sites a limiting resource? , 1985 .

[6]  B. Ens,et al.  Kleptoparasitism as a problem of prey choice: a study on mudflat-feeding curlews, Numenius arquata , 1990, Animal Behaviour.

[7]  S. Leeson,et al.  Effects of calcium source, particle size and time on in-vitro calcium solubility of some indigenous Nigerian mineral ingredients for poultry diets , 1997 .

[8]  C. Joerg,et al.  Black-capped chickadees and red-breasted nuthatches weigh sunflower seeds , 1997 .

[9]  A. Bouskila,et al.  Rules of Thumb for Predation Hazard Assessment: Predictions from a Dynamic Model , 1992, The American Naturalist.

[10]  R. Zach Shell Dropping: Decision-Making and Optimal Foraging in Northwestern Crows , 1979 .

[11]  W. Mitchell Informational constraints on optimally foraging hummingbirds , 1989 .

[12]  Bernd Heinrich,et al.  Discrimination and generalization of leaf damage by blue jays (Cyanocitta cristata) , 1984 .

[13]  V. Tilgar,et al.  Calcium shortage as a constraint on reproduction in great tits Parus major: a field experiment , 2002 .

[14]  N. Verbeek,et al.  Diet Selection and Optimization by Northwestern Crows Feeding on Japanese Littleneck Clams , 1986 .

[15]  Andrew D. West,et al.  Predicting mortality in novel environments: tests and sensitivity of a behaviour‐based model , 2000 .

[16]  J. Wootton,et al.  ESTIMATES AND TESTS OF PER CAPITA INTERACTION STRENGTH: DIET, ABUNDANCE, AND IMPACT OF INTERTIDALLY FORAGING BIRDS , 1997 .

[17]  W. Stickle,et al.  The effects of starvation on the respiration and major nutrient stores of thais lamellosa , 1970 .

[18]  W. Hochachka,et al.  VARIATIONS IN CALCIUM USE BY BIRDS DURING THE BREEDING SEASON , 2001 .

[19]  Jens Krause,et al.  Influence of prey foraging posture on flight behavior and predation risk: predators take advantage of unwary prey , 1996 .

[20]  F. Micheli Behavioural plasticity in prey-size selectivity of the blue crab Callinectes sapidus feeding on bivalve prey , 1995 .

[21]  L. Krook,et al.  Nutritional secondary hyperparathyroidism in free-living fledgling American crows (Corvus brachyrhynchos brachyrhynchos). , 1999, Journal of zoo and wildlife medicine : official publication of the American Association of Zoo Veterinarians.

[22]  R. Ha,et al.  Effects of ecology and prey characteristics on the use of alternative social foraging tactics in crows, Corvus caurinus , 2003, Animal Behaviour.

[23]  F. Whoriskey,et al.  The effects of bird predation on an estuarine stickleback (Pisces: Gasterosteidae) community , 1985 .

[24]  B. Menge Foraging Strategy of a Starfish in Relation to Actual Prey Availability and Environmental Predictability , 1972 .

[25]  R. Dukas,et al.  Categorization of food types enhances foraging performance of bumblebees , 1994, Animal Behaviour.

[26]  B. Cole,et al.  Imperfectly optimal animals , 1981, Behavioral Ecology and Sociobiology.