Causal networks of phytoplankton diversity and biomass are modulated by environmental context

Chun Wei Chang; Takeshi Miki; Hao Ye; Sami Souissi; Rita Adrian; Orlane Anneville; Helen Agasild; Syuhei Ban; Yaron Be’eri-Shlevin; Yin Ru Chiang; Heidrun Feuchtmayr; Gideon Gal; Satoshi Ichise; Maiko Kagami; Michio Kumagai; Xin Liu; Shin Ichiro S. Matsuzaki; Marina M. Manca; Peeter Nõges; Roberta Piscia; Michela Rogora; Fuh Kwo Shiah; Stephen J. Thackeray; Claire E. Widdicombe; Jiunn Tzong Wu; Tamar Zohary; Chih hao Hsieh

doi:10.1038/s41467-022-28761-3

Causal networks of phytoplankton diversity and biomass are modulated by environmental context

Chun Wei Chang, Takeshi Miki, Hao Ye, Sami Souissi, Rita Adrian, Orlane Anneville, Helen Agasild, Syuhei Ban, Yaron Be’eri-Shlevin, Yin Ru Chiang, Heidrun Feuchtmayr, Gideon Gal, Satoshi Ichise, Maiko Kagami, Michio Kumagai, Xin Liu, Shin Ichiro S. Matsuzaki, Marina M. Manca, Peeter Nõges, Roberta PisciaMichela Rogora, Fuh Kwo Shiah, Stephen J. Thackeray, Claire E. Widdicombe, Jiunn Tzong Wu, Tamar Zohary, Chih hao Hsieh^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal Article › peer-review

43 Scopus citations

Abstract

Untangling causal links and feedbacks among biodiversity, ecosystem functioning, and environmental factors is challenging due to their complex and context-dependent interactions (e.g., a nutrient-dependent relationship between diversity and biomass). Consequently, studies that only consider separable, unidirectional effects can produce divergent conclusions and equivocal ecological implications. To address this complexity, we use empirical dynamic modeling to assemble causal networks for 19 natural aquatic ecosystems (N24^◦~N58^◦) and quantified strengths of feedbacks among phytoplankton diversity, phytoplankton biomass, and environmental factors. Through a cross-system comparison, we identify macroecological patterns; in more diverse, oligotrophic ecosystems, biodiversity effects are more important than environmental effects (nutrients and temperature) as drivers of biomass. Furthermore, feedback strengths vary with productivity. In warm, productive systems, strong nitrate-mediated feedbacks usually prevail, whereas there are strong, phosphate-mediated feedbacks in cold, less productive systems. Our findings, based on recovered feedbacks, highlight the importance of a network view in future ecosystem management.

Original language	English
Article number	1140
Journal	Nature Communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-28761-3
State	Published - 12 2022
Externally published	Yes

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Publisher Copyright:
© 2022, The Author(s).

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Chang, C. W., Miki, T., Ye, H., Souissi, S., Adrian, R., Anneville, O., Agasild, H., Ban, S., Be’eri-Shlevin, Y., Chiang, Y. R., Feuchtmayr, H., Gal, G., Ichise, S., Kagami, M., Kumagai, M., Liu, X., Matsuzaki, S. I. S., Manca, M. M., Nõges, P., ... Hsieh, C. H. (2022). Causal networks of phytoplankton diversity and biomass are modulated by environmental context. Nature Communications, 13(1), Article 1140. https://doi.org/10.1038/s41467-022-28761-3

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title = "Causal networks of phytoplankton diversity and biomass are modulated by environmental context",

abstract = "Untangling causal links and feedbacks among biodiversity, ecosystem functioning, and environmental factors is challenging due to their complex and context-dependent interactions (e.g., a nutrient-dependent relationship between diversity and biomass). Consequently, studies that only consider separable, unidirectional effects can produce divergent conclusions and equivocal ecological implications. To address this complexity, we use empirical dynamic modeling to assemble causal networks for 19 natural aquatic ecosystems (N24◦~N58◦) and quantified strengths of feedbacks among phytoplankton diversity, phytoplankton biomass, and environmental factors. Through a cross-system comparison, we identify macroecological patterns; in more diverse, oligotrophic ecosystems, biodiversity effects are more important than environmental effects (nutrients and temperature) as drivers of biomass. Furthermore, feedback strengths vary with productivity. In warm, productive systems, strong nitrate-mediated feedbacks usually prevail, whereas there are strong, phosphate-mediated feedbacks in cold, less productive systems. Our findings, based on recovered feedbacks, highlight the importance of a network view in future ecosystem management.",

author = "Chang, {Chun Wei} and Takeshi Miki and Hao Ye and Sami Souissi and Rita Adrian and Orlane Anneville and Helen Agasild and Syuhei Ban and Yaron Be{\textquoteright}eri-Shlevin and Chiang, {Yin Ru} and Heidrun Feuchtmayr and Gideon Gal and Satoshi Ichise and Maiko Kagami and Michio Kumagai and Xin Liu and Matsuzaki, {Shin Ichiro S.} and Manca, {Marina M.} and Peeter N{\~o}ges and Roberta Piscia and Michela Rogora and Shiah, {Fuh Kwo} and Thackeray, {Stephen J.} and Widdicombe, {Claire E.} and Wu, {Jiunn Tzong} and Tamar Zohary and Hsieh, {Chih hao}",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1038/s41467-022-28761-3",

language = "英语",

volume = "13",

journal = "Nature Communications",

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Chang, CW, Miki, T, Ye, H, Souissi, S, Adrian, R, Anneville, O, Agasild, H, Ban, S, Be’eri-Shlevin, Y, Chiang, YR, Feuchtmayr, H, Gal, G, Ichise, S, Kagami, M, Kumagai, M, Liu, X, Matsuzaki, SIS, Manca, MM, Nõges, P, Piscia, R, Rogora, M, Shiah, FK, Thackeray, SJ, Widdicombe, CE, Wu, JT, Zohary, T & Hsieh, CH 2022, 'Causal networks of phytoplankton diversity and biomass are modulated by environmental context', Nature Communications, vol. 13, no. 1, 1140. https://doi.org/10.1038/s41467-022-28761-3

TY - JOUR

T1 - Causal networks of phytoplankton diversity and biomass are modulated by environmental context

AU - Chang, Chun Wei

AU - Miki, Takeshi

AU - Ye, Hao

AU - Souissi, Sami

AU - Adrian, Rita

AU - Anneville, Orlane

AU - Agasild, Helen

AU - Ban, Syuhei

AU - Be’eri-Shlevin, Yaron

AU - Chiang, Yin Ru

AU - Feuchtmayr, Heidrun

AU - Gal, Gideon

AU - Ichise, Satoshi

AU - Kagami, Maiko

AU - Kumagai, Michio

AU - Liu, Xin

AU - Matsuzaki, Shin Ichiro S.

AU - Manca, Marina M.

AU - Nõges, Peeter

AU - Piscia, Roberta

AU - Rogora, Michela

AU - Shiah, Fuh Kwo

AU - Thackeray, Stephen J.

AU - Widdicombe, Claire E.

AU - Wu, Jiunn Tzong

AU - Zohary, Tamar

AU - Hsieh, Chih hao

PY - 2022/12

Y1 - 2022/12

N2 - Untangling causal links and feedbacks among biodiversity, ecosystem functioning, and environmental factors is challenging due to their complex and context-dependent interactions (e.g., a nutrient-dependent relationship between diversity and biomass). Consequently, studies that only consider separable, unidirectional effects can produce divergent conclusions and equivocal ecological implications. To address this complexity, we use empirical dynamic modeling to assemble causal networks for 19 natural aquatic ecosystems (N24◦~N58◦) and quantified strengths of feedbacks among phytoplankton diversity, phytoplankton biomass, and environmental factors. Through a cross-system comparison, we identify macroecological patterns; in more diverse, oligotrophic ecosystems, biodiversity effects are more important than environmental effects (nutrients and temperature) as drivers of biomass. Furthermore, feedback strengths vary with productivity. In warm, productive systems, strong nitrate-mediated feedbacks usually prevail, whereas there are strong, phosphate-mediated feedbacks in cold, less productive systems. Our findings, based on recovered feedbacks, highlight the importance of a network view in future ecosystem management.

AB - Untangling causal links and feedbacks among biodiversity, ecosystem functioning, and environmental factors is challenging due to their complex and context-dependent interactions (e.g., a nutrient-dependent relationship between diversity and biomass). Consequently, studies that only consider separable, unidirectional effects can produce divergent conclusions and equivocal ecological implications. To address this complexity, we use empirical dynamic modeling to assemble causal networks for 19 natural aquatic ecosystems (N24◦~N58◦) and quantified strengths of feedbacks among phytoplankton diversity, phytoplankton biomass, and environmental factors. Through a cross-system comparison, we identify macroecological patterns; in more diverse, oligotrophic ecosystems, biodiversity effects are more important than environmental effects (nutrients and temperature) as drivers of biomass. Furthermore, feedback strengths vary with productivity. In warm, productive systems, strong nitrate-mediated feedbacks usually prevail, whereas there are strong, phosphate-mediated feedbacks in cold, less productive systems. Our findings, based on recovered feedbacks, highlight the importance of a network view in future ecosystem management.

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U2 - 10.1038/s41467-022-28761-3

DO - 10.1038/s41467-022-28761-3

M3 - 文章

C2 - 35241667

AN - SCOPUS:85125688612

SN - 2041-1723

VL - 13

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 1140

ER -

Causal networks of phytoplankton diversity and biomass are modulated by environmental context

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