The multiple-mechanisms hypothesis of biodiversity–stability relationships

The multiple-mechanisms hypothesis of biodiversity–stability relationships

Long-term research in grassland biodiversity experiments has provided empirical evidence that ecological and evolutionary processes are intertwined in determining both biodiversity–ecosystem functioning (BEF) and biodiversity–stability relationships. Focusing on plant diversity, we hypothesize that multifunctional stability is highest in high-diversity plant communities and that biodiversity–stability relationships increase over time due to a variety of forms of ecological complementarity including the interaction with other biota above and below ground. We introduce the multiple-mechanisms hypothesis of biodiversity–stability relationships suggesting that it is not an individual mechanism that drives long-term biodiversity effects on ecosystem functioning and stability but that several intertwined processes produce increasingly positive ecosystem effects. The following six mechanisms are important. Low-diversity plant communities accumulate more plant antagonists over time (1), and use resources less efficiently and have more open, leaky nutrient cycles (2). Conversely, high-diversity plant communities support a greater diversity and activity of beneficial interaction partners across trophic levels (3); diversify in their traits over time and space, within and across species, to optimize temporal (intra- and interannual) and spatial complementarity (4), create a more stable microclimate (5), and foster higher top-down control of aboveground and belowground herbivores by predators (6). In line with the observation that different species play unique roles in ecosystems that are dynamic and multifaceted, the particular mechanism contributing most to the higher performance and stability of diverse plant communities might differ across ecosystem functions, years, locations, and environmental change scenarios. This indicates “between-context insurance” or “across-context complementarity” of different mechanisms. We introduce examples of experiments that will be conducted to test our hypotheses and which might inspire additional work.

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Main Authors: Eisenhauer, Nico, Mueller, Kevin, Ebeling, Anne, Gleixner, Gerd, Huang, Yuanyuan, Madaj, Anna Maria, Roscher, Christiane, Weigelt, Alexandra, Bahn, Michael, Bonkowski, Michael, Brose, Ulrich, Cesarz, Simone, Feilhauer, Hannes, Guimaraes-Steinicke, Claudia, Heintz-Buschart, Anna, Hines, Jes, Lange, Markus, Meyer, Sebastian T., Mohanbabu, Neha, Mommer, Liesje, Neuhauser, Sigrid, Oelmann, Yvonne, Rahmanian, Soroor, Sasaki, Takehiro, Scheu, Stefan, Schielzeth, Holger, Schmid, Bernhard, Schloter, Michael, Schulz, Stefanie, Unsicker, Sybille B., Vogel, Cordula, Weisser, Wolfgang W., Isbell, Forest
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Biodiversity change, Biodiversity–ecosystem functioning, Complementarity, Recovery, Resilience, Resistance,
Online Access:https://research.wur.nl/en/publications/the-multiple-mechanisms-hypothesis-of-biodiversitystability-relat
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spelling dig-wur-nl-wurpubs-6333132024-10-30 Eisenhauer, Nico Mueller, Kevin Ebeling, Anne Gleixner, Gerd Huang, Yuanyuan Madaj, Anna Maria Roscher, Christiane Weigelt, Alexandra Bahn, Michael Bonkowski, Michael Brose, Ulrich Cesarz, Simone Feilhauer, Hannes Guimaraes-Steinicke, Claudia Heintz-Buschart, Anna Hines, Jes Lange, Markus Meyer, Sebastian T. Mohanbabu, Neha Mommer, Liesje Neuhauser, Sigrid Oelmann, Yvonne Rahmanian, Soroor Sasaki, Takehiro Scheu, Stefan Schielzeth, Holger Schmid, Bernhard Schloter, Michael Schulz, Stefanie Unsicker, Sybille B. Vogel, Cordula Weisser, Wolfgang W. Isbell, Forest Article/Letter to editor Basic and Applied Ecology 79 (2024) ISSN: 1439-1791 The multiple-mechanisms hypothesis of biodiversity–stability relationships 2024 Long-term research in grassland biodiversity experiments has provided empirical evidence that ecological and evolutionary processes are intertwined in determining both biodiversity–ecosystem functioning (BEF) and biodiversity–stability relationships. Focusing on plant diversity, we hypothesize that multifunctional stability is highest in high-diversity plant communities and that biodiversity–stability relationships increase over time due to a variety of forms of ecological complementarity including the interaction with other biota above and below ground. We introduce the multiple-mechanisms hypothesis of biodiversity–stability relationships suggesting that it is not an individual mechanism that drives long-term biodiversity effects on ecosystem functioning and stability but that several intertwined processes produce increasingly positive ecosystem effects. The following six mechanisms are important. Low-diversity plant communities accumulate more plant antagonists over time (1), and use resources less efficiently and have more open, leaky nutrient cycles (2). Conversely, high-diversity plant communities support a greater diversity and activity of beneficial interaction partners across trophic levels (3); diversify in their traits over time and space, within and across species, to optimize temporal (intra- and interannual) and spatial complementarity (4), create a more stable microclimate (5), and foster higher top-down control of aboveground and belowground herbivores by predators (6). In line with the observation that different species play unique roles in ecosystems that are dynamic and multifaceted, the particular mechanism contributing most to the higher performance and stability of diverse plant communities might differ across ecosystem functions, years, locations, and environmental change scenarios. This indicates “between-context insurance” or “across-context complementarity” of different mechanisms. We introduce examples of experiments that will be conducted to test our hypotheses and which might inspire additional work. en application/pdf https://research.wur.nl/en/publications/the-multiple-mechanisms-hypothesis-of-biodiversitystability-relat 10.1016/j.baae.2024.07.004 https://edepot.wur.nl/671440 Biodiversity change Biodiversity–ecosystem functioning Complementarity Recovery Resilience Resistance https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Biodiversity change
Biodiversity–ecosystem functioning
Complementarity
Recovery
Resilience
Resistance
Biodiversity change
Biodiversity–ecosystem functioning
Complementarity
Recovery
Resilience
Resistance
spellingShingle Biodiversity change
Biodiversity–ecosystem functioning
Complementarity
Recovery
Resilience
Resistance
Biodiversity change
Biodiversity–ecosystem functioning
Complementarity
Recovery
Resilience
Resistance
Eisenhauer, Nico
Mueller, Kevin
Ebeling, Anne
Gleixner, Gerd
Huang, Yuanyuan
Madaj, Anna Maria
Roscher, Christiane
Weigelt, Alexandra
Bahn, Michael
Bonkowski, Michael
Brose, Ulrich
Cesarz, Simone
Feilhauer, Hannes
Guimaraes-Steinicke, Claudia
Heintz-Buschart, Anna
Hines, Jes
Lange, Markus
Meyer, Sebastian T.
Mohanbabu, Neha
Mommer, Liesje
Neuhauser, Sigrid
Oelmann, Yvonne
Rahmanian, Soroor
Sasaki, Takehiro
Scheu, Stefan
Schielzeth, Holger
Schmid, Bernhard
Schloter, Michael
Schulz, Stefanie
Unsicker, Sybille B.
Vogel, Cordula
Weisser, Wolfgang W.
Isbell, Forest
The multiple-mechanisms hypothesis of biodiversity–stability relationships
description Long-term research in grassland biodiversity experiments has provided empirical evidence that ecological and evolutionary processes are intertwined in determining both biodiversity–ecosystem functioning (BEF) and biodiversity–stability relationships. Focusing on plant diversity, we hypothesize that multifunctional stability is highest in high-diversity plant communities and that biodiversity–stability relationships increase over time due to a variety of forms of ecological complementarity including the interaction with other biota above and below ground. We introduce the multiple-mechanisms hypothesis of biodiversity–stability relationships suggesting that it is not an individual mechanism that drives long-term biodiversity effects on ecosystem functioning and stability but that several intertwined processes produce increasingly positive ecosystem effects. The following six mechanisms are important. Low-diversity plant communities accumulate more plant antagonists over time (1), and use resources less efficiently and have more open, leaky nutrient cycles (2). Conversely, high-diversity plant communities support a greater diversity and activity of beneficial interaction partners across trophic levels (3); diversify in their traits over time and space, within and across species, to optimize temporal (intra- and interannual) and spatial complementarity (4), create a more stable microclimate (5), and foster higher top-down control of aboveground and belowground herbivores by predators (6). In line with the observation that different species play unique roles in ecosystems that are dynamic and multifaceted, the particular mechanism contributing most to the higher performance and stability of diverse plant communities might differ across ecosystem functions, years, locations, and environmental change scenarios. This indicates “between-context insurance” or “across-context complementarity” of different mechanisms. We introduce examples of experiments that will be conducted to test our hypotheses and which might inspire additional work.
format Article/Letter to editor
topic_facet Biodiversity change
Biodiversity–ecosystem functioning
Complementarity
Recovery
Resilience
Resistance
author Eisenhauer, Nico
Mueller, Kevin
Ebeling, Anne
Gleixner, Gerd
Huang, Yuanyuan
Madaj, Anna Maria
Roscher, Christiane
Weigelt, Alexandra
Bahn, Michael
Bonkowski, Michael
Brose, Ulrich
Cesarz, Simone
Feilhauer, Hannes
Guimaraes-Steinicke, Claudia
Heintz-Buschart, Anna
Hines, Jes
Lange, Markus
Meyer, Sebastian T.
Mohanbabu, Neha
Mommer, Liesje
Neuhauser, Sigrid
Oelmann, Yvonne
Rahmanian, Soroor
Sasaki, Takehiro
Scheu, Stefan
Schielzeth, Holger
Schmid, Bernhard
Schloter, Michael
Schulz, Stefanie
Unsicker, Sybille B.
Vogel, Cordula
Weisser, Wolfgang W.
Isbell, Forest
author_facet Eisenhauer, Nico
Mueller, Kevin
Ebeling, Anne
Gleixner, Gerd
Huang, Yuanyuan
Madaj, Anna Maria
Roscher, Christiane
Weigelt, Alexandra
Bahn, Michael
Bonkowski, Michael
Brose, Ulrich
Cesarz, Simone
Feilhauer, Hannes
Guimaraes-Steinicke, Claudia
Heintz-Buschart, Anna
Hines, Jes
Lange, Markus
Meyer, Sebastian T.
Mohanbabu, Neha
Mommer, Liesje
Neuhauser, Sigrid
Oelmann, Yvonne
Rahmanian, Soroor
Sasaki, Takehiro
Scheu, Stefan
Schielzeth, Holger
Schmid, Bernhard
Schloter, Michael
Schulz, Stefanie
Unsicker, Sybille B.
Vogel, Cordula
Weisser, Wolfgang W.
Isbell, Forest
author_sort Eisenhauer, Nico
title The multiple-mechanisms hypothesis of biodiversity–stability relationships
title_short The multiple-mechanisms hypothesis of biodiversity–stability relationships
title_full The multiple-mechanisms hypothesis of biodiversity–stability relationships
title_fullStr The multiple-mechanisms hypothesis of biodiversity–stability relationships
title_full_unstemmed The multiple-mechanisms hypothesis of biodiversity–stability relationships
title_sort multiple-mechanisms hypothesis of biodiversity–stability relationships
url https://research.wur.nl/en/publications/the-multiple-mechanisms-hypothesis-of-biodiversitystability-relat
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