Global Meta-Analysis Reveals No Net Change in Local-Scale Plant Biodiversity over Time

Global Meta-Analysis Reveals No Net Change in Local-Scale Plant Biodiversity over Time. Vellend, M., Baeten, L., Myers-Smith, I. H., Elmendorf, S. C., Beauséjour, R., Brown, C. D., De Frenne, P., Verheyen, K., & Wipf, S. 110(48):19456–19459.

Paper doi abstract bibtex

[Significance] A major advance of the last 20 y at the interface of biological, environmental, and conservation sciences has been the demonstration that plant biodiversity positively influences ecosystem function. Linking these results to applied conservation efforts hinges on the assumption that biodiversity is actually declining at the local scale at which diversity-function relationships are strongest. Our compilation and analysis of a global database of $>$16,000 repeat survey vegetation plots from habitats across the globe directly contradict this assumption. We find no general tendency for local-scale plant species diversity to decline over the last century, calling into question the widespread use of ecosystem function experiments to argue for the importance of biodiversity conservation in nature. [Abstract] Global biodiversity is in decline. This is of concern for aesthetic and ethical reasons, but possibly also for practical reasons, as suggested by experimental studies, mostly with plants, showing that biodiversity reductions in small study plots can lead to compromised ecosystem function. However, inferring that ecosystem functions will decline due to biodiversity loss in the real world rests on the untested assumption that such loss is actually occurring at these small scales in nature. Using a global database of 168 published studies and $>$16,000 nonexperimental, local-scale vegetation plots, we show that mean temporal change in species diversity over periods of 5-261 y is not different from zero, with increases at least as likely as declines over time. Sites influenced primarily by plant species' invasions showed a tendency for declines in species richness, whereas sites undergoing postdisturbance succession showed increases in richness over time. Other distinctions among studies had little influence on temporal richness trends. Although maximizing diversity is likely important for maintaining ecosystem function in intensely managed systems such as restored grasslands or tree plantations, the clear lack of any general tendency for plant biodiversity to decline at small scales in nature directly contradicts the key assumption linking experimental results to ecosystem function as a motivation for biodiversity conservation in nature. How often real world changes in the diversity and composition of plant communities at the local scale cause ecosystem function to deteriorate, or actually to improve, remains unknown and is in critical need of further study.

@article{vellendGlobalMetaanalysisReveals2013,
  title = {Global Meta-Analysis Reveals No Net Change in Local-Scale Plant Biodiversity over Time},
  author = {Vellend, Mark and Baeten, Lander and Myers-Smith, Isla H. and Elmendorf, Sarah C. and Beauséjour, Robin and Brown, Carissa D. and De Frenne, Pieter and Verheyen, Kris and Wipf, Sonja},
  date = {2013-11},
  journaltitle = {Proceedings of the National Academy of Sciences},
  volume = {110},
  pages = {19456--19459},
  issn = {1091-6490},
  doi = {10.1073/pnas.1312779110},
  url = {https://doi.org/10.1073/pnas.1312779110},
  abstract = {[Significance]

A major advance of the last 20 y at the interface of biological, environmental, and conservation sciences has been the demonstration that plant biodiversity positively influences ecosystem function. Linking these results to applied conservation efforts hinges on the assumption that biodiversity is actually declining at the local scale at which diversity-function relationships are strongest. Our compilation and analysis of a global database of {$>$}16,000 repeat survey vegetation plots from habitats across the globe directly contradict this assumption. We find no general tendency for local-scale plant species diversity to decline over the last century, calling into question the widespread use of ecosystem function experiments to argue for the importance of biodiversity conservation in nature. [Abstract]

Global biodiversity is in decline. This is of concern for aesthetic and ethical reasons, but possibly also for practical reasons, as suggested by experimental studies, mostly with plants, showing that biodiversity reductions in small study plots can lead to compromised ecosystem function. However, inferring that ecosystem functions will decline due to biodiversity loss in the real world rests on the untested assumption that such loss is actually occurring at these small scales in nature. Using a global database of 168 published studies and {$>$}16,000 nonexperimental, local-scale vegetation plots, we show that mean temporal change in species diversity over periods of 5-261 y is not different from zero, with increases at least as likely as declines over time. Sites influenced primarily by plant species' invasions showed a tendency for declines in species richness, whereas sites undergoing postdisturbance succession showed increases in richness over time. Other distinctions among studies had little influence on temporal richness trends. Although maximizing diversity is likely important for maintaining ecosystem function in intensely managed systems such as restored grasslands or tree plantations, the clear lack of any general tendency for plant biodiversity to decline at small scales in nature directly contradicts the key assumption linking experimental results to ecosystem function as a motivation for biodiversity conservation in nature. How often real world changes in the diversity and composition of plant communities at the local scale cause ecosystem function to deteriorate, or actually to improve, remains unknown and is in critical need of further study.},
  keywords = {*imported-from-citeulike-INRMM,~INRMM-MiD:c-12821250,biodiversity,forest-resources,local-scale,meta-analysis,vegetation},
  number = {48}
}

Downloads: 0

{"_id":"L7LbPWXPAJTZF9MFw","bibbaseid":"vellend-baeten-myerssmith-elmendorf-beausjour-brown-defrenne-verheyen-etal-globalmetaanalysisrevealsnonetchangeinlocalscaleplantbiodiversityovertime","authorIDs":[],"author_short":["Vellend, M.","Baeten, L.","Myers-Smith, I. H.","Elmendorf, S. C.","Beauséjour, R.","Brown, C. D.","De Frenne, P.","Verheyen, K.","Wipf, S."],"bibdata":{"bibtype":"article","type":"article","title":"Global Meta-Analysis Reveals No Net Change in Local-Scale Plant Biodiversity over Time","author":[{"propositions":[],"lastnames":["Vellend"],"firstnames":["Mark"],"suffixes":[]},{"propositions":[],"lastnames":["Baeten"],"firstnames":["Lander"],"suffixes":[]},{"propositions":[],"lastnames":["Myers-Smith"],"firstnames":["Isla","H."],"suffixes":[]},{"propositions":[],"lastnames":["Elmendorf"],"firstnames":["Sarah","C."],"suffixes":[]},{"propositions":[],"lastnames":["Beauséjour"],"firstnames":["Robin"],"suffixes":[]},{"propositions":[],"lastnames":["Brown"],"firstnames":["Carissa","D."],"suffixes":[]},{"propositions":[],"lastnames":["De","Frenne"],"firstnames":["Pieter"],"suffixes":[]},{"propositions":[],"lastnames":["Verheyen"],"firstnames":["Kris"],"suffixes":[]},{"propositions":[],"lastnames":["Wipf"],"firstnames":["Sonja"],"suffixes":[]}],"date":"2013-11","journaltitle":"Proceedings of the National Academy of Sciences","volume":"110","pages":"19456–19459","issn":"1091-6490","doi":"10.1073/pnas.1312779110","url":"https://doi.org/10.1073/pnas.1312779110","abstract":"[Significance] A major advance of the last 20 y at the interface of biological, environmental, and conservation sciences has been the demonstration that plant biodiversity positively influences ecosystem function. Linking these results to applied conservation efforts hinges on the assumption that biodiversity is actually declining at the local scale at which diversity-function relationships are strongest. Our compilation and analysis of a global database of $>$16,000 repeat survey vegetation plots from habitats across the globe directly contradict this assumption. We find no general tendency for local-scale plant species diversity to decline over the last century, calling into question the widespread use of ecosystem function experiments to argue for the importance of biodiversity conservation in nature. [Abstract] Global biodiversity is in decline. This is of concern for aesthetic and ethical reasons, but possibly also for practical reasons, as suggested by experimental studies, mostly with plants, showing that biodiversity reductions in small study plots can lead to compromised ecosystem function. However, inferring that ecosystem functions will decline due to biodiversity loss in the real world rests on the untested assumption that such loss is actually occurring at these small scales in nature. Using a global database of 168 published studies and $>$16,000 nonexperimental, local-scale vegetation plots, we show that mean temporal change in species diversity over periods of 5-261 y is not different from zero, with increases at least as likely as declines over time. Sites influenced primarily by plant species' invasions showed a tendency for declines in species richness, whereas sites undergoing postdisturbance succession showed increases in richness over time. Other distinctions among studies had little influence on temporal richness trends. Although maximizing diversity is likely important for maintaining ecosystem function in intensely managed systems such as restored grasslands or tree plantations, the clear lack of any general tendency for plant biodiversity to decline at small scales in nature directly contradicts the key assumption linking experimental results to ecosystem function as a motivation for biodiversity conservation in nature. How often real world changes in the diversity and composition of plant communities at the local scale cause ecosystem function to deteriorate, or actually to improve, remains unknown and is in critical need of further study.","keywords":"*imported-from-citeulike-INRMM,~INRMM-MiD:c-12821250,biodiversity,forest-resources,local-scale,meta-analysis,vegetation","number":"48","bibtex":"@article{vellendGlobalMetaanalysisReveals2013,\n title = {Global Meta-Analysis Reveals No Net Change in Local-Scale Plant Biodiversity over Time},\n author = {Vellend, Mark and Baeten, Lander and Myers-Smith, Isla H. and Elmendorf, Sarah C. and Beauséjour, Robin and Brown, Carissa D. and De Frenne, Pieter and Verheyen, Kris and Wipf, Sonja},\n date = {2013-11},\n journaltitle = {Proceedings of the National Academy of Sciences},\n volume = {110},\n pages = {19456--19459},\n issn = {1091-6490},\n doi = {10.1073/pnas.1312779110},\n url = {https://doi.org/10.1073/pnas.1312779110},\n abstract = {[Significance]\n\nA major advance of the last 20 y at the interface of biological, environmental, and conservation sciences has been the demonstration that plant biodiversity positively influences ecosystem function. Linking these results to applied conservation efforts hinges on the assumption that biodiversity is actually declining at the local scale at which diversity-function relationships are strongest. Our compilation and analysis of a global database of {$>$}16,000 repeat survey vegetation plots from habitats across the globe directly contradict this assumption. We find no general tendency for local-scale plant species diversity to decline over the last century, calling into question the widespread use of ecosystem function experiments to argue for the importance of biodiversity conservation in nature. [Abstract]\n\nGlobal biodiversity is in decline. This is of concern for aesthetic and ethical reasons, but possibly also for practical reasons, as suggested by experimental studies, mostly with plants, showing that biodiversity reductions in small study plots can lead to compromised ecosystem function. However, inferring that ecosystem functions will decline due to biodiversity loss in the real world rests on the untested assumption that such loss is actually occurring at these small scales in nature. Using a global database of 168 published studies and {$>$}16,000 nonexperimental, local-scale vegetation plots, we show that mean temporal change in species diversity over periods of 5-261 y is not different from zero, with increases at least as likely as declines over time. Sites influenced primarily by plant species' invasions showed a tendency for declines in species richness, whereas sites undergoing postdisturbance succession showed increases in richness over time. Other distinctions among studies had little influence on temporal richness trends. Although maximizing diversity is likely important for maintaining ecosystem function in intensely managed systems such as restored grasslands or tree plantations, the clear lack of any general tendency for plant biodiversity to decline at small scales in nature directly contradicts the key assumption linking experimental results to ecosystem function as a motivation for biodiversity conservation in nature. How often real world changes in the diversity and composition of plant communities at the local scale cause ecosystem function to deteriorate, or actually to improve, remains unknown and is in critical need of further study.},\n keywords = {*imported-from-citeulike-INRMM,~INRMM-MiD:c-12821250,biodiversity,forest-resources,local-scale,meta-analysis,vegetation},\n number = {48}\n}\n\n","author_short":["Vellend, M.","Baeten, L.","Myers-Smith, I. H.","Elmendorf, S. C.","Beauséjour, R.","Brown, C. D.","De Frenne, P.","Verheyen, K.","Wipf, S."],"key":"vellendGlobalMetaanalysisReveals2013","id":"vellendGlobalMetaanalysisReveals2013","bibbaseid":"vellend-baeten-myerssmith-elmendorf-beausjour-brown-defrenne-verheyen-etal-globalmetaanalysisrevealsnonetchangeinlocalscaleplantbiodiversityovertime","role":"author","urls":{"Paper":"https://doi.org/10.1073/pnas.1312779110"},"keyword":["*imported-from-citeulike-INRMM","~INRMM-MiD:c-12821250","biodiversity","forest-resources","local-scale","meta-analysis","vegetation"],"downloads":0},"bibtype":"article","biburl":"https://tmpfiles.org/dl/58794/INRMM.bib","creationDate":"2020-07-02T22:41:32.452Z","downloads":0,"keywords":["*imported-from-citeulike-inrmm","~inrmm-mid:c-12821250","biodiversity","forest-resources","local-scale","meta-analysis","vegetation"],"search_terms":["global","meta","analysis","reveals","net","change","local","scale","plant","biodiversity","over","time","vellend","baeten","myers-smith","elmendorf","beauséjour","brown","de frenne","verheyen","wipf"],"title":"Global Meta-Analysis Reveals No Net Change in Local-Scale Plant Biodiversity over Time","year":null,"dataSources":["DXuKbcZTirdigFKPF"]}