Consumption patterns, complexity and enrichment in aquatic food chains

Lars-Anders Hansson; Christer Brönmark; Per Nyström; Per Lundberg; Larry Greenberg; Anders Nilsson; Anders Persson; Lars Pettersson; Pia Romare; Lars J. Tranvik

doi:10.1098/rspb.1998.0376

Consumption patterns, complexity and enrichment in aquatic food chains

Lars-Anders Hansson, Christer Brönmark, Per Nyström, Per Lundberg, Larry Greenberg, Anders Nilsson, Anders Persson, Lars Pettersson, Pia Romare, Lars J. Tranvik

Research output: Contribution to journal › Article › peer-review

Abstract

The interactions between consumers and prey, and their impact on biomass distribution among trophic levels, are central issues in both empirical and theoretical ecology. In a long-term experiment, where all organisms, including the top predator, were allowed to respond to environmental conditions by reproduction, we tested predictions from `prey-dependent' and `ratio-dependent' models. Prey-dependent
models made correct predictions only in the presence of strong interactors in simple food chains, but failed to predict patterns in more complex situations. Processes such as omnivory, consumer excretion, and unsuitable prey-size windows (invulnerable prey) increased the complexity and created patterns resembling ratio-dependent consumption. However, whereas the prey-dependent patterns were created by the mechanisms predicted by the model, ratio-dependent patterns were not, suggesting that they may be right for the wrong reason'. We show here that despite the enormous complexity of ecosystems, it is possible to identify and disentangle mechanisms responsible for observed patterns in community structure, as well as in biomass development of organisms ranging in size from bacteria to fish.

Original language	English
Pages (from-to)	901-906
Journal	Royal Society of London. Proceedings B. Biological Sciences
Volume	265
Issue number	1399
DOIs	https://doi.org/10.1098/rspb.1998.0376
Publication status	Published - 1998

Subject classification (UKÄ)

Ecology (including Biodiversity Conservation)

Free keywords

food chain
ratio-dependent
prey-dependent
enrichment
omnivory

Access to Document

10.1098/rspb.1998.0376

Cite this

@article{502442df2b6b499eb4c0b6f7f26b223a,

title = "Consumption patterns, complexity and enrichment in aquatic food chains",

abstract = "The interactions between consumers and prey, and their impact on biomass distribution among trophic levels, are central issues in both empirical and theoretical ecology. In a long-term experiment, where all organisms, including the top predator, were allowed to respond to environmental conditions by reproduction, we tested predictions from `prey-dependent' and `ratio-dependent' models. Prey-dependent models made correct predictions only in the presence of strong interactors in simple food chains, but failed to predict patterns in more complex situations. Processes such as omnivory, consumer excretion, and unsuitable prey-size windows (invulnerable prey) increased the complexity and created patterns resembling ratio-dependent consumption. However, whereas the prey-dependent patterns were created by the mechanisms predicted by the model, ratio-dependent patterns were not, suggesting that they may be right for the wrong reason'. We show here that despite the enormous complexity of ecosystems, it is possible to identify and disentangle mechanisms responsible for observed patterns in community structure, as well as in biomass development of organisms ranging in size from bacteria to fish.",

keywords = "food chain, ratio-dependent, prey-dependent, enrichment, omnivory",

author = "Lars-Anders Hansson and Christer Br{\"o}nmark and Per Nystr{\"o}m and Per Lundberg and Larry Greenberg and Anders Nilsson and Anders Persson and Lars Pettersson and Pia Romare and Tranvik, {Lars J.}",

year = "1998",

doi = "10.1098/rspb.1998.0376",

language = "English",

volume = "265",

pages = "901--906",

journal = "Royal Society of London. Proceedings B. Biological Sciences",

issn = "1471-2954",

publisher = "Royal Society Publishing",

number = "1399",

}

TY - JOUR

T1 - Consumption patterns, complexity and enrichment in aquatic food chains

AU - Hansson, Lars-Anders

AU - Brönmark, Christer

AU - Nyström, Per

AU - Lundberg, Per

AU - Greenberg, Larry

AU - Nilsson, Anders

AU - Persson, Anders

AU - Pettersson, Lars

AU - Romare, Pia

AU - Tranvik, Lars J.

PY - 1998

Y1 - 1998

N2 - The interactions between consumers and prey, and their impact on biomass distribution among trophic levels, are central issues in both empirical and theoretical ecology. In a long-term experiment, where all organisms, including the top predator, were allowed to respond to environmental conditions by reproduction, we tested predictions from `prey-dependent' and `ratio-dependent' models. Prey-dependent models made correct predictions only in the presence of strong interactors in simple food chains, but failed to predict patterns in more complex situations. Processes such as omnivory, consumer excretion, and unsuitable prey-size windows (invulnerable prey) increased the complexity and created patterns resembling ratio-dependent consumption. However, whereas the prey-dependent patterns were created by the mechanisms predicted by the model, ratio-dependent patterns were not, suggesting that they may be right for the wrong reason'. We show here that despite the enormous complexity of ecosystems, it is possible to identify and disentangle mechanisms responsible for observed patterns in community structure, as well as in biomass development of organisms ranging in size from bacteria to fish.

AB - The interactions between consumers and prey, and their impact on biomass distribution among trophic levels, are central issues in both empirical and theoretical ecology. In a long-term experiment, where all organisms, including the top predator, were allowed to respond to environmental conditions by reproduction, we tested predictions from `prey-dependent' and `ratio-dependent' models. Prey-dependent models made correct predictions only in the presence of strong interactors in simple food chains, but failed to predict patterns in more complex situations. Processes such as omnivory, consumer excretion, and unsuitable prey-size windows (invulnerable prey) increased the complexity and created patterns resembling ratio-dependent consumption. However, whereas the prey-dependent patterns were created by the mechanisms predicted by the model, ratio-dependent patterns were not, suggesting that they may be right for the wrong reason'. We show here that despite the enormous complexity of ecosystems, it is possible to identify and disentangle mechanisms responsible for observed patterns in community structure, as well as in biomass development of organisms ranging in size from bacteria to fish.

KW - food chain

KW - ratio-dependent

KW - prey-dependent

KW - enrichment

KW - omnivory

U2 - 10.1098/rspb.1998.0376

DO - 10.1098/rspb.1998.0376

M3 - Article

SN - 1471-2954

VL - 265

SP - 901

EP - 906

JO - Royal Society of London. Proceedings B. Biological Sciences

JF - Royal Society of London. Proceedings B. Biological Sciences

IS - 1399

ER -

Consumption patterns, complexity and enrichment in aquatic food chains

Abstract

Subject classification (UKÄ)

Free keywords

Access to Document

Fingerprint

Cite this