Clarifying the effect of biodiversity on productivity in natural ecosystems with longitudinal data and methods for causal inference

L. E. Dee; P. J. Ferraro; C. N. Severen; K. A. Kimmel; E. T. Borer; J. E. K. Byrnes; A. T. Clark; Y. Hautier; A. Hector; X. Raynaud; Peter B. Reich; A. J. Wright; C. A. Arnillas; K. F. Davies; A. MacDougall; A. S. Mori; M. D. Smith; P. B. Adler; J. D. Bakker; K. A. Brauman; J. Cowles; K. Komatsu; J. M. H. Knops; R. L. McCulley; J. L. Moore; J. W. Morgan; T. Ohlert; Sally A. Power; L. L. Sullivan; C. Stevens; M. Loreau

doi:10.1038/s41467-023-37194-5

Clarifying the effect of biodiversity on productivity in natural ecosystems with longitudinal data and methods for causal inference

L. E. Dee, P. J. Ferraro, C. N. Severen, K. A. Kimmel, E. T. Borer, J. E. K. Byrnes, A. T. Clark, Y. Hautier, A. Hector, X. Raynaud, Peter B. Reich, A. J. Wright, C. A. Arnillas, K. F. Davies, A. MacDougall, A. S. Mori, M. D. Smith, P. B. Adler, J. D. Bakker, K. A. BraumanJ. Cowles, K. Komatsu, J. M. H. Knops, R. L. McCulley, J. L. Moore, J. W. Morgan, T. Ohlert, Sally A. Power, L. L. Sullivan, C. Stevens, M. Loreau

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Abstract

Causal effects of biodiversity on ecosystem functions can be estimated using experimental or observational designs — designs that pose a tradeoff between drawing credible causal inferences from correlations and drawing generalizable inferences. Here, we develop a design that reduces this tradeoff and revisits the question of how plant species diversity affects productivity. Our design leverages longitudinal data from 43 grasslands in 11 countries and approaches borrowed from fields outside of ecology to draw causal inferences from observational data. Contrary to many prior studies, we estimate that increases in plot-level species richness caused productivity to decline: a 10% increase in richness decreased productivity by 2.4%, 95% CI [−4.1, −0.74]. This contradiction stems from two sources. First, prior observational studies incompletely control for confounding factors. Second, most experiments plant fewer rare and non-native species than exist in nature. Although increases in native, dominant species increased productivity, increases in rare and non-native species decreased productivity, making the average effect negative in our study. By reducing the tradeoff between experimental and observational designs, our study demonstrates how observational studies can complement prior ecological experiments and inform future ones

Original language	English
Article number	2607
Number of pages	12
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-37194-5
Publication status	Published - Dec 2023

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© 2023, The Author(s).

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Dee, L. E., Ferraro, P. J., Severen, C. N., Kimmel, K. A., Borer, E. T., Byrnes, J. E. K., Clark, A. T., Hautier, Y., Hector, A., Raynaud, X., Reich, P. B., Wright, A. J., Arnillas, C. A., Davies, K. F., MacDougall, A., Mori, A. S., Smith, M. D., Adler, P. B., Bakker, J. D., ... Loreau, M. (2023). Clarifying the effect of biodiversity on productivity in natural ecosystems with longitudinal data and methods for causal inference. Nature Communications, 14(1), Article 2607. https://doi.org/10.1038/s41467-023-37194-5

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abstract = "Causal effects of biodiversity on ecosystem functions can be estimated using experimental or observational designs — designs that pose a tradeoff between drawing credible causal inferences from correlations and drawing generalizable inferences. Here, we develop a design that reduces this tradeoff and revisits the question of how plant species diversity affects productivity. Our design leverages longitudinal data from 43 grasslands in 11 countries and approaches borrowed from fields outside of ecology to draw causal inferences from observational data. Contrary to many prior studies, we estimate that increases in plot-level species richness caused productivity to decline: a 10% increase in richness decreased productivity by 2.4%, 95% CI [−4.1, −0.74]. This contradiction stems from two sources. First, prior observational studies incompletely control for confounding factors. Second, most experiments plant fewer rare and non-native species than exist in nature. Although increases in native, dominant species increased productivity, increases in rare and non-native species decreased productivity, making the average effect negative in our study. By reducing the tradeoff between experimental and observational designs, our study demonstrates how observational studies can complement prior ecological experiments and inform future ones",

author = "Dee, {L. E.} and Ferraro, {P. J.} and Severen, {C. N.} and Kimmel, {K. A.} and Borer, {E. T.} and Byrnes, {J. E. K.} and Clark, {A. T.} and Y. Hautier and A. Hector and X. Raynaud and Reich, {Peter B.} and Wright, {A. J.} and Arnillas, {C. A.} and Davies, {K. F.} and A. MacDougall and Mori, {A. S.} and Smith, {M. D.} and Adler, {P. B.} and Bakker, {J. D.} and Brauman, {K. A.} and J. Cowles and K. Komatsu and Knops, {J. M. H.} and McCulley, {R. L.} and Moore, {J. L.} and Morgan, {J. W.} and T. Ohlert and Power, {Sally A.} and Sullivan, {L. L.} and C. Stevens and M. Loreau",

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Dee, LE, Ferraro, PJ, Severen, CN, Kimmel, KA, Borer, ET, Byrnes, JEK, Clark, AT, Hautier, Y, Hector, A, Raynaud, X, Reich, PB, Wright, AJ, Arnillas, CA, Davies, KF, MacDougall, A, Mori, AS, Smith, MD, Adler, PB, Bakker, JD, Brauman, KA, Cowles, J, Komatsu, K, Knops, JMH, McCulley, RL, Moore, JL, Morgan, JW, Ohlert, T, Power, SA, Sullivan, LL, Stevens, C & Loreau, M 2023, 'Clarifying the effect of biodiversity on productivity in natural ecosystems with longitudinal data and methods for causal inference', Nature Communications, vol. 14, no. 1, 2607. https://doi.org/10.1038/s41467-023-37194-5

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AU - Dee, L. E.

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AU - Severen, C. N.

AU - Kimmel, K. A.

AU - Borer, E. T.

AU - Byrnes, J. E. K.

AU - Clark, A. T.

AU - Hautier, Y.

AU - Hector, A.

AU - Raynaud, X.

AU - Reich, Peter B.

AU - Wright, A. J.

AU - Arnillas, C. A.

AU - Davies, K. F.

AU - MacDougall, A.

AU - Mori, A. S.

AU - Smith, M. D.

AU - Adler, P. B.

AU - Bakker, J. D.

AU - Brauman, K. A.

AU - Cowles, J.

AU - Komatsu, K.

AU - Knops, J. M. H.

AU - McCulley, R. L.

AU - Moore, J. L.

AU - Morgan, J. W.

AU - Ohlert, T.

AU - Power, Sally A.

AU - Sullivan, L. L.

AU - Stevens, C.

AU - Loreau, M.

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N2 - Causal effects of biodiversity on ecosystem functions can be estimated using experimental or observational designs — designs that pose a tradeoff between drawing credible causal inferences from correlations and drawing generalizable inferences. Here, we develop a design that reduces this tradeoff and revisits the question of how plant species diversity affects productivity. Our design leverages longitudinal data from 43 grasslands in 11 countries and approaches borrowed from fields outside of ecology to draw causal inferences from observational data. Contrary to many prior studies, we estimate that increases in plot-level species richness caused productivity to decline: a 10% increase in richness decreased productivity by 2.4%, 95% CI [−4.1, −0.74]. This contradiction stems from two sources. First, prior observational studies incompletely control for confounding factors. Second, most experiments plant fewer rare and non-native species than exist in nature. Although increases in native, dominant species increased productivity, increases in rare and non-native species decreased productivity, making the average effect negative in our study. By reducing the tradeoff between experimental and observational designs, our study demonstrates how observational studies can complement prior ecological experiments and inform future ones

AB - Causal effects of biodiversity on ecosystem functions can be estimated using experimental or observational designs — designs that pose a tradeoff between drawing credible causal inferences from correlations and drawing generalizable inferences. Here, we develop a design that reduces this tradeoff and revisits the question of how plant species diversity affects productivity. Our design leverages longitudinal data from 43 grasslands in 11 countries and approaches borrowed from fields outside of ecology to draw causal inferences from observational data. Contrary to many prior studies, we estimate that increases in plot-level species richness caused productivity to decline: a 10% increase in richness decreased productivity by 2.4%, 95% CI [−4.1, −0.74]. This contradiction stems from two sources. First, prior observational studies incompletely control for confounding factors. Second, most experiments plant fewer rare and non-native species than exist in nature. Although increases in native, dominant species increased productivity, increases in rare and non-native species decreased productivity, making the average effect negative in our study. By reducing the tradeoff between experimental and observational designs, our study demonstrates how observational studies can complement prior ecological experiments and inform future ones

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Clarifying the effect of biodiversity on productivity in natural ecosystems with longitudinal data and methods for causal inference

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