The impact of thermal seasonality on terrestrial endotherm food web dynamics: a revision of the Exploitation Ecosystem Hypothesis

Many terrestrial endotherm food webs constitute three trophic level cascades. Others have two trophic level dynamics (food limited herbivores; plants adapted to tackle intense herbivory) or one trophic level dynamic (herbivorous endotherms absent, thus plants compete for the few places where they ca...

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Main Authors:	Lauri Oksanen, Tove Aa. Utsi, Katariina E. M. Vuorinen, Johan Olofsson, Christopher Wolf, Aurelia Mäkynen, William J. Ripple, Tarja Oksanen, Risto Virtanen
Other Authors:	ekologia ja evoluutiobiologia, Ecology and Evolutionary Biology, 2606402
Language:	English
Published:	WILEY 2022
Subjects:	Tundra
Online Access:	https://www.utupub.fi/handle/10024/163324

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record_format	openpolar
spelling	ftunivturku:oai:www.utupub.fi:10024/163324 2023-05-15T18:40:32+02:00 The impact of thermal seasonality on terrestrial endotherm food web dynamics: a revision of the Exploitation Ecosystem Hypothesis Lauri Oksanen Tove Aa. Utsi Katariina E. M. Vuorinen Johan Olofsson Christopher Wolf Aurelia Mäkynen William J. Ripple Tarja Oksanen Risto Virtanen ekologia ja evoluutiobiologia, Ecology and Evolutionary Biology 2606402 2022-10-28T13:10:27Z 1859 1877 https://www.utupub.fi/handle/10024/163324 en eng WILEY Britannia United Kingdom GB 43 10.1111/ecog.05076 Ecography 12 https://www.utupub.fi/handle/10024/163324 URN:NBN:fi-fe2021042821587 1600-0587 0906-7590 2022 ftunivturku 2022-11-03T00:00:45Z Many terrestrial endotherm food webs constitute three trophic level cascades. Others have two trophic level dynamics (food limited herbivores; plants adapted to tackle intense herbivory) or one trophic level dynamic (herbivorous endotherms absent, thus plants compete for the few places where they can survive and grow). According to the Exploitation Ecosystems Hypothesis (EEH), these contrasting dynamics are consequences of differences in primary productivity. The productivity thresholds for changing food web dynamics were assumed to be global constants. We challenged this assumption and found that several model parameters are sensitive to the contrast between persistently warm and seasonally cold climates. In persistently warm environments, three trophic level dynamics can be expected to prevail almost everywhere, save the most extreme deserts. We revised EEH accordingly and tested it by compiling direct evidence of three and two trophic level dynamics and by studying the global distribution of felids. In seasonally cold environments, we found evidence for three trophic level dynamics only in productive ecosystems, while evidence for two trophic level dynamics appeared in ecosystems with low primary productivity. In persistently warm environments, we found evidence for three trophic level dynamics in all types of ecosystems. The distribution of felids corroborated these results. The empirical evidence thus indicates that two trophic level dynamics, as defined by EEH, are restricted to seasonally cold biomes with low primary productivity, such as the artic-alpine tundra and the temperate steppe. Other/Unknown Material Tundra University of Turku: UTUPub
institution	Open Polar
collection	University of Turku: UTUPub
op_collection_id	ftunivturku
language	English
description	Many terrestrial endotherm food webs constitute three trophic level cascades. Others have two trophic level dynamics (food limited herbivores; plants adapted to tackle intense herbivory) or one trophic level dynamic (herbivorous endotherms absent, thus plants compete for the few places where they can survive and grow). According to the Exploitation Ecosystems Hypothesis (EEH), these contrasting dynamics are consequences of differences in primary productivity. The productivity thresholds for changing food web dynamics were assumed to be global constants. We challenged this assumption and found that several model parameters are sensitive to the contrast between persistently warm and seasonally cold climates. In persistently warm environments, three trophic level dynamics can be expected to prevail almost everywhere, save the most extreme deserts. We revised EEH accordingly and tested it by compiling direct evidence of three and two trophic level dynamics and by studying the global distribution of felids. In seasonally cold environments, we found evidence for three trophic level dynamics only in productive ecosystems, while evidence for two trophic level dynamics appeared in ecosystems with low primary productivity. In persistently warm environments, we found evidence for three trophic level dynamics in all types of ecosystems. The distribution of felids corroborated these results. The empirical evidence thus indicates that two trophic level dynamics, as defined by EEH, are restricted to seasonally cold biomes with low primary productivity, such as the artic-alpine tundra and the temperate steppe.
author2	ekologia ja evoluutiobiologia, Ecology and Evolutionary Biology 2606402
author	Lauri Oksanen Tove Aa. Utsi Katariina E. M. Vuorinen Johan Olofsson Christopher Wolf Aurelia Mäkynen William J. Ripple Tarja Oksanen Risto Virtanen
spellingShingle	Lauri Oksanen Tove Aa. Utsi Katariina E. M. Vuorinen Johan Olofsson Christopher Wolf Aurelia Mäkynen William J. Ripple Tarja Oksanen Risto Virtanen The impact of thermal seasonality on terrestrial endotherm food web dynamics: a revision of the Exploitation Ecosystem Hypothesis
author_facet	Lauri Oksanen Tove Aa. Utsi Katariina E. M. Vuorinen Johan Olofsson Christopher Wolf Aurelia Mäkynen William J. Ripple Tarja Oksanen Risto Virtanen
author_sort	Lauri Oksanen
title	The impact of thermal seasonality on terrestrial endotherm food web dynamics: a revision of the Exploitation Ecosystem Hypothesis
title_short	The impact of thermal seasonality on terrestrial endotherm food web dynamics: a revision of the Exploitation Ecosystem Hypothesis
title_full	The impact of thermal seasonality on terrestrial endotherm food web dynamics: a revision of the Exploitation Ecosystem Hypothesis
title_fullStr	The impact of thermal seasonality on terrestrial endotherm food web dynamics: a revision of the Exploitation Ecosystem Hypothesis
title_full_unstemmed	The impact of thermal seasonality on terrestrial endotherm food web dynamics: a revision of the Exploitation Ecosystem Hypothesis
title_sort	impact of thermal seasonality on terrestrial endotherm food web dynamics: a revision of the exploitation ecosystem hypothesis
publisher	WILEY
publishDate	2022
url	https://www.utupub.fi/handle/10024/163324
genre	Tundra
genre_facet	Tundra
op_relation	43 10.1111/ecog.05076 Ecography 12 https://www.utupub.fi/handle/10024/163324 URN:NBN:fi-fe2021042821587 1600-0587 0906-7590
_version_	1766229908569194496

The impact of thermal seasonality on terrestrial endotherm food web dynamics: a revision of the Exploitation Ecosystem Hypothesis

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