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Plant diversity loss affects stream ecosystem multifunctionality

Biodiversity loss is occurring globally at unprecedented rates, altering the functioning of the Earth’s ecosystems. Multiple processes are often key components of ecosystem functioning, but it is unclear how biodiversity loss affects ecosystem multifunctionality (i.e., the ability of ecosystems to m...

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Published in:	Ecology (Durham) 2019-12, Vol.100 (12), p.1-10
Main Authors:	López-Rojo, Naiara, Pozo, Jesús, Pérez, Javier, Basaguren, Ana, Martínez, Aingeru, Tonin, Alan M., Correa-Araneda, Francisco, Boyero, Luz
Format:	Article
Language:	English
Subjects:	Animals Biodiversity Biodiversity loss Biogeochemical cycles Cycles detritivore growth Detritivores detritus‐based streams Ecosystem ecosystem functioning Ecosystems Environmental changes FPOM production Information processing Litter litter decomposition Microorganisms multiple processes Nutrient cycles nutrient cycling Nutrient loss Nutrients Plant diversity Plant Leaves Plant species Plants Riparian vegetation Rivers Stoichiometry
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cited_by	cdi_FETCH-LOGICAL-c3717-c0decdb417138568c9cd1505fa78705247461c1ac39942e921c7e0fb076427683
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creator	López-Rojo, Naiara Pozo, Jesús Pérez, Javier Basaguren, Ana Martínez, Aingeru Tonin, Alan M. Correa-Araneda, Francisco Boyero, Luz
description	Biodiversity loss is occurring globally at unprecedented rates, altering the functioning of the Earth’s ecosystems. Multiple processes are often key components of ecosystem functioning, but it is unclear how biodiversity loss affects ecosystem multifunctionality (i.e., the ability of ecosystems to maintain multiple processes simultaneously). This is particularly true for some ecosystem types such as streams, which have been understudied, despite their key role in global biogeochemical cycles and their serious impairment by the widespread loss of riparian vegetation as a result of global change. Using a microcosm experiment, we tested whether losing riparian plant diversity affected stream multifunctionality, taking into account nine key processes related to litter decomposition, animal biomass production, and nutrient cycling, and simulating plant species loss from four to one in the presence or absence of litter-feeding detritivores. Multifunctionality increased with plant diversity in the presence of detritivores and decreased in their absence, evidencing a key role of detritivores in biodiversity–ecosystem-functioning (BEF) relationships. Moreover, by exploring effects of plant diversity on each process individually we were able to reveal potential mechanisms underlying BEF relationships; for example, effects of plant diversity on nutrient cycling occurred at least partly via indirect nutrient transfer, and were possibly accompanied by changes in microbial stoichiometry. Such mechanisms were unnoticeable when examining multifunctionality metrics, suggesting that individual processes provide crucial information to understand how stream ecosystem functioning is impaired by biodiversity loss.
doi_str_mv	10.1002/ecy.2847
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Multiple processes are often key components of ecosystem functioning, but it is unclear how biodiversity loss affects ecosystem multifunctionality (i.e., the ability of ecosystems to maintain multiple processes simultaneously). This is particularly true for some ecosystem types such as streams, which have been understudied, despite their key role in global biogeochemical cycles and their serious impairment by the widespread loss of riparian vegetation as a result of global change. Using a microcosm experiment, we tested whether losing riparian plant diversity affected stream multifunctionality, taking into account nine key processes related to litter decomposition, animal biomass production, and nutrient cycling, and simulating plant species loss from four to one in the presence or absence of litter-feeding detritivores. Multifunctionality increased with plant diversity in the presence of detritivores and decreased in their absence, evidencing a key role of detritivores in biodiversity–ecosystem-functioning (BEF) relationships. Moreover, by exploring effects of plant diversity on each process individually we were able to reveal potential mechanisms underlying BEF relationships; for example, effects of plant diversity on nutrient cycling occurred at least partly via indirect nutrient transfer, and were possibly accompanied by changes in microbial stoichiometry. 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Multiple processes are often key components of ecosystem functioning, but it is unclear how biodiversity loss affects ecosystem multifunctionality (i.e., the ability of ecosystems to maintain multiple processes simultaneously). This is particularly true for some ecosystem types such as streams, which have been understudied, despite their key role in global biogeochemical cycles and their serious impairment by the widespread loss of riparian vegetation as a result of global change. Using a microcosm experiment, we tested whether losing riparian plant diversity affected stream multifunctionality, taking into account nine key processes related to litter decomposition, animal biomass production, and nutrient cycling, and simulating plant species loss from four to one in the presence or absence of litter-feeding detritivores. Multifunctionality increased with plant diversity in the presence of detritivores and decreased in their absence, evidencing a key role of detritivores in biodiversity–ecosystem-functioning (BEF) relationships. Moreover, by exploring effects of plant diversity on each process individually we were able to reveal potential mechanisms underlying BEF relationships; for example, effects of plant diversity on nutrient cycling occurred at least partly via indirect nutrient transfer, and were possibly accompanied by changes in microbial stoichiometry. 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Multifunctionality increased with plant diversity in the presence of detritivores and decreased in their absence, evidencing a key role of detritivores in biodiversity–ecosystem-functioning (BEF) relationships. Moreover, by exploring effects of plant diversity on each process individually we were able to reveal potential mechanisms underlying BEF relationships; for example, effects of plant diversity on nutrient cycling occurred at least partly via indirect nutrient transfer, and were possibly accompanied by changes in microbial stoichiometry. 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subjects	Animals Biodiversity Biodiversity loss Biogeochemical cycles Cycles detritivore growth Detritivores detritus‐based streams Ecosystem ecosystem functioning Ecosystems Environmental changes FPOM production Information processing Litter litter decomposition Microorganisms multiple processes Nutrient cycles nutrient cycling Nutrient loss Nutrients Plant diversity Plant Leaves Plant species Plants Riparian vegetation Rivers Stoichiometry
title	Plant diversity loss affects stream ecosystem multifunctionality
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