Lorenzo Camerano’s Contribution to Early Food Web Theory

Here, we synthesize a number of recent empirical and theoretical papers to argue that food-web dynamics are characterized by high amounts of spatial and temporal variability and that organisms respond predictably, via behaviour, to these changing conditions. Such behavioural responses on the landscape drive a highly adaptive food-web structure in space and time. Empirical evidence suggests that underlying attributes of food webs are potentially scale-invariant such that food webs are characterized by hump-shaped trophic structures with fast and slow pathways that repeat at different resolutions within the food web. We place these empirical patterns within the context of recent food-web theory to show that adaptable food-web structure confers stability to an assemblage of interacting organisms in a variable world. Finally, we show that recent food-web analyses agree with two of the major predictions of this theory. We argue that the next major frontier in food-web theory and applied food-web ecology must consider the influence of variability on food-web structure.

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Experimental measurements of functional response: What is the relevance for food web theory?

SIL Proceedings 1922-2010 ◽

10.1080/03680770.2008.11902121 ◽

2008 ◽

Vol 30 (2) ◽

pp. 255-258

Author(s):

Gregor F. Fussmann

Keyword(s):

Food Web ◽

Functional Response ◽

Experimental Measurements ◽

Food Web Theory

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Towards an Integration of Biodiversity–Ecosystem Functioning and Food Web Theory to Evaluate Relationships between Multiple Ecosystem Services

Advances in Ecological Research - Ecosystem Services - From Biodiversity to Society, Part 1 ◽

10.1016/bs.aecr.2015.09.001 ◽

2015 ◽

pp. 161-199 ◽

Cited By ~ 46

Author(s):

Jes Hines ◽

Wim H. van der Putten ◽

Gerlinde B. De Deyn ◽

Cameron Wagg ◽

Winfried Voigt ◽

...

Keyword(s):

Ecosystem Services ◽

Food Web ◽

Ecosystem Functioning ◽

Food Web Theory

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Food Web Theory and Stability

Ecology ◽

10.2307/1941143 ◽

1988 ◽

Vol 69 (6) ◽

pp. 1665-1668 ◽

Cited By ~ 38

Author(s):

Alan Hastings

Keyword(s):

Food Web ◽

Food Web Theory

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Quantifying the relative importance of competition, predation, and environmental variation for species coexistence

10.1101/797704 ◽

2019 ◽

Cited By ~ 1

Author(s):

Lauren G. Shoemaker ◽

Allison K. Barner ◽

Leonora S. Bittleston ◽

Ashley I. Teufel

Keyword(s):

Food Web ◽

Species Coexistence ◽

Rocky Intertidal ◽

Relative Importance ◽

Environmental Fluctuation ◽

Coexistence Theory ◽

Machine Learning Approach ◽

Intertidal Ecosystem ◽

Model Partitioning ◽

Food Web Theory

1AbstractCoexistence theory and food web theory are two cornerstones of the longstanding effort to understand how species coexist. Although competition and predation are known to act simultaneously in communities, theory and empirical study of the two processes continue to be developed independently. Here, we integrate modern coexistence theory and food web theory to simultaneously quantify the relative importance of predation, competition, and environmental fluctuations for species coexistence. We first examine coexistence in a classic multi-trophic model, adding complexity to the food web using a novel machine learning approach. We then apply our framework to a parameterized rocky intertidal food web model, partitioning empirical coexistence dynamics. We find that both environmental fluctuation and variation in predation contribute substantially to species coexistence. Unexpectedly, covariation in these two forces tends to destabilize coexistence, leading to new insights about the role of bottom-up versus top-down forces in both theory and the rocky intertidal ecosystem.

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Food Web Interactions in Freshwater Ecosystems

10.1093/oso/9780198713593.003.0005 ◽

2017 ◽

Author(s):

Christer Brönmark ◽

Lars-Anders Hansson

Keyword(s):

Food Web ◽

Alternative Stable States ◽

Ecosystem Approach ◽

Freshwater Ecosystems ◽

Stable States ◽

Food Web Interactions ◽

Spatial Changes ◽

Temporal And Spatial ◽

Cascading Trophic Interactions ◽

Food Web Theory

This chapter on food web interactions connects the organisms and their interactions with the abiotic frame and provides a helicopter perspective on the function of freshwater ecosystems. Initially, the theoretical basis for an ecosystem approach is outlined, including food web theory, the bottom-up and top-down concepts and how these have evolved in concert with empirical advances. Specifically, the concepts of cascading trophic interactions and alternative stable states are discussed both from a theoretical and empirical viewpoint, as well as in both benthic and pelagic habitats. This chapter links all components, from microbes to vertebrates, to temporal and spatial changes in abiotic features leading to successional patterns in populations and communities.

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Food-web theory in marine ecosystems

Aquatic Food Webs ◽

10.1093/acprof:oso/9780198564836.003.0010 ◽

2005 ◽

pp. 98-114 ◽

Cited By ~ 14

Author(s):

Jason S. Link ◽

William T. Stockhausen ◽

Elizabeth T. Methratta

Keyword(s):

Food Web ◽

Marine Ecosystems ◽

Food Web Theory

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Special Feature: Food Web Theory: A Ladder for Picking Strawberries

Ecology ◽

10.2307/1941140 ◽

1988 ◽

Vol 69 (6) ◽

pp. 1647-1647 ◽

Cited By ~ 6

Author(s):

Donald R. Strong

Keyword(s):

Food Web ◽

Food Web Theory

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Strong nutrient-plant interactions enhance the stability of ecosystems

Communications Biology ◽

10.1038/s42003-021-02737-3 ◽

2021 ◽

Vol 4 (1) ◽

Author(s):

Zachariah G. Schonberger ◽

Kevin McCann ◽

Gabriel Gellner

Keyword(s):

Food Web ◽

Food Webs ◽

Plant Interactions ◽

Ecosystem Models ◽

Resource Interactions ◽

Ecosystem Theory ◽

The Stability ◽

Ecosystem Interactions ◽

Food Web Theory

AbstractModular food web theory shows how weak energetic fluxes resulting from consumptive interactions plays a major role in stabilizing food webs in space and time. Despite the reliance on energetic fluxes, food web theory surprisingly remains poorly understood within an ecosystem context that naturally focuses on material fluxes. At the same time, while ecosystem theory has employed modular nutrient-limited ecosystem models to understand how limiting nutrients alter the structure and dynamics of food webs, ecosystem theory has overlooked the role of key ecosystem interactions and their strengths (e.g., plant-nutrient; R-N) in mediating the stability of nutrient-limited ecosystems. Here, towards integrating food web theory and ecosystem theory, we first briefly review consumer-resource interactions (C-R) highlighting the relationship between the structure of C-R interactions and the stability of food web modules. We then translate this framework to nutrient-based systems, showing that the nutrient-plant interaction behaves as a coherent extension of current modular food web theory; however, in contrast to the rule that weak C-R interactions tend to be stabilizing we show that strong nutrient-plant interactions are potent stabilizers in nutrient-limited ecosystem models.

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Food Web Theory and Ecological Restoration

Foundations of Restoration Ecology ◽

10.5822/978-1-61091-698-1_11 ◽

2016 ◽

pp. 301-329 ◽

Cited By ~ 7

Author(s):

M. Jake Vander Zanden ◽

Julian D. Olden ◽

Claudio Gratton ◽

Tyler D. Tunney

Keyword(s):

Food Web ◽

Ecological Restoration ◽

Food Web Theory

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