Does foraging adaptation create the positive complexity-stability relationship in realistic food-web structure?

The adaptive food-web hypothesis suggests that an adaptive foraging switch inverses the classically negative complexity-stability relationships of food webs into positive ones, providing a possible resolution for the long-standing paradox of how populations persist in a complex natural food web. However, its applicability to natural ecosystems has been questioned, because the positive relationship does not emerge when a niche model, a realistic "benchmark" of food-web models, is used. I hypothesize that, in the niche model, increasing connectance influences the fraction of basal species to destabilize the system and this masks the inversion of the negative complexity-stability relationship in the presence of adaptive foraging. A model analysis shows that, if this confounding effect is eliminated, then, even in a niche model, a population is more likely to persist in a more complex food web. This result supports the robustness of adaptive food-web hypothesis and reveals the condition in which the hypothesis should be tested.

[1]  R. May,et al.  Stability and Complexity in Model Ecosystems , 1976, IEEE Transactions on Systems, Man, and Cybernetics.

[2]  Joel E. Cohen,et al.  Temporal Variation in Food Web Structure: 16 Empirical Cases , 1991 .

[3]  L. Oksanen,et al.  Exploitation Ecosystems in Gradients of Primary Productivity , 1981, The American Naturalist.

[4]  D. L. Angelis,et al.  STABILITY AND CONNECTANCE IN FOOD WEB MODELS , 1975 .

[5]  Michio Kondoh,et al.  Response to Comment on "Foraging Adaptation and the Relationship Between Food-Web Complexity and Stability" , 2003, Science.

[6]  L. Lawlor A Comment on Randomly Constructed Model Ecosystems , 1978, The American Naturalist.

[7]  G. Polis,et al.  Food webs: integration of patterns and dynamics , 1997 .

[8]  J. Lawton,et al.  Number of trophic levels in ecological communities , 1977, Nature.

[9]  A. Hastings,et al.  Weak trophic interactions and the balance of nature , 1998, Nature.

[10]  Neo D. Martinez,et al.  Comment on "Foraging Adaptation and the Relationship Between Food-Web Complexity and Stability" , 2003, Science.

[11]  Anje-Margriet Neutel,et al.  Stability in Real Food Webs: Weak Links in Long Loops , 2002, Science.

[12]  Charles C. Elton,et al.  The Ecology of Invasions by Animals and Plants. , 1959 .

[13]  P. Yodzis,et al.  The stability of real ecosystems , 1981, Nature.

[14]  P. Abrams,et al.  Effects of predator-specific defence on community complexity , 1994, Evolutionary Ecology.

[15]  R. Macarthur Fluctuations of Animal Populations and a Measure of Community Stability , 1955 .

[16]  Stuart L. Pimm,et al.  Food web design and the effect of species deletion , 1980 .

[17]  Neo D. Martinez,et al.  Simple rules yield complex food webs , 2000, Nature.

[18]  Hiroyuki Matsuda,et al.  Effects of predator-specific defence on biodiversity and community complexity in two-trophic-level communities , 2005, Evolutionary Ecology.

[19]  Alan Roberts,et al.  The robustness of natural systems , 1980, Nature.

[20]  L. Milne,et al.  The Balance of Nature , 1953, Oryx.

[21]  K. Winemiller,et al.  Factors Driving Temporal and Spatial Variation in Aquatic Floodplain Food Webs , 1996 .

[22]  Michio Kondoh,et al.  Foraging Adaptation and the Relationship Between Food-Web Complexity and Stability , 2003, Science.

[23]  Roger Guimerà,et al.  Analytical solution of a model for complex food webs. , 2001, Physical review. E, Statistical, nonlinear, and soft matter physics.

[24]  J. Pelletier,et al.  Are large complex ecosystems more unstable? A theoretical reassessment with predator switching. , 2000, Mathematical biosciences.

[25]  W. Zurek Quantum cloning: Schrödinger's sheep , 2000, Nature.

[26]  J. N. Thompson,et al.  The evolution of species interactions. , 1999, Science.

[27]  K. McCann The diversity–stability debate , 2000, Nature.

[28]  G. Polis,et al.  Complex Trophic Interactions in Deserts: An Empirical Critique of Food-Web Theory , 1991, The American Naturalist.

[29]  Robert M. May,et al.  Stability in multispecies community models , 1971 .

[30]  J. Lawton,et al.  On feeding on more than one trophic level , 1978, Nature.

[31]  C. S. Holling,et al.  The functional response of predators to prey density and its role in mimicry and population regulation. , 1965 .