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Assessing the roles of nitrogen, biomass, and niche dimensionality as drivers of species loss in grassland communities

Eutrophication is a major driver of species loss in plant communities worldwide. However, the underlying mechanisms of this phenomenon are controversial. Previous studies have raised three main explanations: 1) High levels of soil resources increase standing biomass, thereby intensifying competitive...

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Autores principales: Band, Nir, Kadmon, Ronen, Mandel, Micha, DeMalach, Niv
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8915794/
https://www.ncbi.nlm.nih.gov/pubmed/35235460
http://dx.doi.org/10.1073/pnas.2112010119
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author Band, Nir
Kadmon, Ronen
Mandel, Micha
DeMalach, Niv
author_facet Band, Nir
Kadmon, Ronen
Mandel, Micha
DeMalach, Niv
author_sort Band, Nir
collection PubMed
description Eutrophication is a major driver of species loss in plant communities worldwide. However, the underlying mechanisms of this phenomenon are controversial. Previous studies have raised three main explanations: 1) High levels of soil resources increase standing biomass, thereby intensifying competitive interactions (the “biomass-driven competition hypothesis”). 2) High levels of soil resources reduce the potential for resource-based niche partitioning (the “niche dimension hypothesis”). 3) Increasing soil nitrogen causes stress by changing the abiotic or biotic conditions (the “nitrogen detriment hypothesis”). Despite several syntheses of resource addition experiments, so far, no study has tested all of the hypotheses together. This is a major shortcoming, since the mechanisms underlying the three hypotheses are not independent. Here, we conduct a simultaneous test of the three hypotheses by integrating data from 630 resource addition experiments located in 99 sites worldwide. Our results provide strong support for the nitrogen detriment hypothesis, weaker support for the biomass-driven competition hypothesis, and negligible support for the niche dimension hypothesis. The results further show that the indirect effect of nitrogen through its effect on biomass is minor compared to its direct effect and is much larger than that of all other resources (phosphorus, potassium, and water). Thus, we conclude that nitrogen-specific mechanisms are more important than biomass or niche dimensionality as drivers of species loss under high levels of soil resources. This conclusion is highly relevant for future attempts to reduce biodiversity loss caused by global eutrophication.
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spelling pubmed-89157942022-09-02 Assessing the roles of nitrogen, biomass, and niche dimensionality as drivers of species loss in grassland communities Band, Nir Kadmon, Ronen Mandel, Micha DeMalach, Niv Proc Natl Acad Sci U S A Biological Sciences Eutrophication is a major driver of species loss in plant communities worldwide. However, the underlying mechanisms of this phenomenon are controversial. Previous studies have raised three main explanations: 1) High levels of soil resources increase standing biomass, thereby intensifying competitive interactions (the “biomass-driven competition hypothesis”). 2) High levels of soil resources reduce the potential for resource-based niche partitioning (the “niche dimension hypothesis”). 3) Increasing soil nitrogen causes stress by changing the abiotic or biotic conditions (the “nitrogen detriment hypothesis”). Despite several syntheses of resource addition experiments, so far, no study has tested all of the hypotheses together. This is a major shortcoming, since the mechanisms underlying the three hypotheses are not independent. Here, we conduct a simultaneous test of the three hypotheses by integrating data from 630 resource addition experiments located in 99 sites worldwide. Our results provide strong support for the nitrogen detriment hypothesis, weaker support for the biomass-driven competition hypothesis, and negligible support for the niche dimension hypothesis. The results further show that the indirect effect of nitrogen through its effect on biomass is minor compared to its direct effect and is much larger than that of all other resources (phosphorus, potassium, and water). Thus, we conclude that nitrogen-specific mechanisms are more important than biomass or niche dimensionality as drivers of species loss under high levels of soil resources. This conclusion is highly relevant for future attempts to reduce biodiversity loss caused by global eutrophication. National Academy of Sciences 2022-03-02 2022-03-08 /pmc/articles/PMC8915794/ /pubmed/35235460 http://dx.doi.org/10.1073/pnas.2112010119 Text en Copyright © 2022 the Author(s). Published by PNAS. https://creativecommons.org/licenses/by-nc-nd/4.0/This article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND) (https://creativecommons.org/licenses/by-nc-nd/4.0/) .
spellingShingle Biological Sciences
Band, Nir
Kadmon, Ronen
Mandel, Micha
DeMalach, Niv
Assessing the roles of nitrogen, biomass, and niche dimensionality as drivers of species loss in grassland communities
title Assessing the roles of nitrogen, biomass, and niche dimensionality as drivers of species loss in grassland communities
title_full Assessing the roles of nitrogen, biomass, and niche dimensionality as drivers of species loss in grassland communities
title_fullStr Assessing the roles of nitrogen, biomass, and niche dimensionality as drivers of species loss in grassland communities
title_full_unstemmed Assessing the roles of nitrogen, biomass, and niche dimensionality as drivers of species loss in grassland communities
title_short Assessing the roles of nitrogen, biomass, and niche dimensionality as drivers of species loss in grassland communities
title_sort assessing the roles of nitrogen, biomass, and niche dimensionality as drivers of species loss in grassland communities
topic Biological Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8915794/
https://www.ncbi.nlm.nih.gov/pubmed/35235460
http://dx.doi.org/10.1073/pnas.2112010119
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