The positive effect of plant diversity on soil carbon depends on climate

Marie Spohn; Sumanta Bagchi; Lori A. Biederman; Elizabeth T. Borer; Kari Anne Bråthen; Miguel N. Bugalho; Maria C. Caldeira; Jane A. Catford; Scott L. Collins; Nico Eisenhauer; Nicole Hagenah; Sylvia Haider; Yann Hautier; Johannes M.H. Knops; Sally E. Koerner; Lauri Laanisto; Ylva Lekberg; Jason P. Martina; Holly Martinson; Rebecca L. McCulley; Pablo L. Peri; Petr Macek; Sally A. Power; Anita C. Risch; Christiane Roscher; Eric W. Seabloom; Carly Stevens; G. F.(Ciska) Veen; Risto Virtanen; Laura Yahdjian

doi:10.1038/s41467-023-42340-0

The positive effect of plant diversity on soil carbon depends on climate

Marie Spohn^*
, Sumanta Bagchi
, Lori A. Biederman
, Elizabeth T. Borer
, Kari Anne Bråthen
, Miguel N. Bugalho
, Maria C. Caldeira
, Jane A. Catford
, Scott L. Collins
, Nico Eisenhauer
, Nicole Hagenah
, Sylvia Haider
, Yann Hautier
, Johannes M.H. Knops
, Sally E. Koerner
, Lauri Laanisto
, Ylva Lekberg
, Jason P. Martina
, Holly Martinson
, Rebecca L. McCulley

Pablo L. Peri, Petr Macek, Sally A. Power, Anita C. Risch, Christiane Roscher, Eric W. Seabloom, Carly Stevens, G. F.(Ciska) Veen, Risto Virtanen, Laura Yahdjian

^*Corresponding author for this work

Research output: Journal contributions › Journal articles › Research › peer-review

164 Citations (Scopus)

Abstract

Little is currently known about how climate modulates the relationship between plant diversity and soil organic carbon and the mechanisms involved. Yet, this knowledge is of crucial importance in times of climate change and biodiversity loss. Here, we show that plant diversity is positively correlated with soil carbon content and soil carbon-to-nitrogen ratio across 84 grasslands on six continents that span wide climate gradients. The relationships between plant diversity and soil carbon as well as plant diversity and soil organic matter quality (carbon-to-nitrogen ratio) are particularly strong in warm and arid climates. While plant biomass is positively correlated with soil carbon, plant biomass is not significantly correlated with plant diversity. Our results indicate that plant diversity influences soil carbon storage not via the quantity of organic matter (plant biomass) inputs to soil, but through the quality of organic matter. The study implies that ecosystem management that restores plant diversity likely enhances soil carbon sequestration, particularly in warm and arid climates.

Original language	English
Article number	6624
Journal	Nature Communications
Volume	14
Issue number	1
Number of pages	10
ISSN	2041-1723
DOIs	https://doi.org/10.1038/s41467-023-42340-0
Publication status	Published - 01.12.2023

Bibliographical note

Publisher Copyright:
© 2023, Springer Nature Limited.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action
SDG 15 Life on Land

Research areas and keywords

Biology

ASJC Scopus Subject Areas

General
Physics and Astronomy(all)
Chemistry(all)
Biochemistry, Genetics and Molecular Biology(all)

Access to Document

10.1038/s41467-023-42340-0Licence: CC BY

Cite this

Spohn, M., Bagchi, S., Biederman, L. A., Borer, E. T., Bråthen, K. A., Bugalho, M. N., Caldeira, M. C., Catford, J. A., Collins, S. L., Eisenhauer, N., Hagenah, N., Haider, S., Hautier, Y., Knops, J. M. H., Koerner, S. E., Laanisto, L., Lekberg, Y., Martina, J. P., Martinson, H., ... Yahdjian, L. (2023). The positive effect of plant diversity on soil carbon depends on climate. Nature Communications, 14(1), Article 6624. https://doi.org/10.1038/s41467-023-42340-0

@article{6e14602f53bc4d6986da1d6ea32d4cbf,

title = "The positive effect of plant diversity on soil carbon depends on climate",

abstract = "Little is currently known about how climate modulates the relationship between plant diversity and soil organic carbon and the mechanisms involved. Yet, this knowledge is of crucial importance in times of climate change and biodiversity loss. Here, we show that plant diversity is positively correlated with soil carbon content and soil carbon-to-nitrogen ratio across 84 grasslands on six continents that span wide climate gradients. The relationships between plant diversity and soil carbon as well as plant diversity and soil organic matter quality (carbon-to-nitrogen ratio) are particularly strong in warm and arid climates. While plant biomass is positively correlated with soil carbon, plant biomass is not significantly correlated with plant diversity. Our results indicate that plant diversity influences soil carbon storage not via the quantity of organic matter (plant biomass) inputs to soil, but through the quality of organic matter. The study implies that ecosystem management that restores plant diversity likely enhances soil carbon sequestration, particularly in warm and arid climates.",

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author = "Marie Spohn and Sumanta Bagchi and Biederman, \{Lori A.\} and Borer, \{Elizabeth T.\} and Br{\aa}then, \{Kari Anne\} and Bugalho, \{Miguel N.\} and Caldeira, \{Maria C.\} and Catford, \{Jane A.\} and Collins, \{Scott L.\} and Nico Eisenhauer and Nicole Hagenah and Sylvia Haider and Yann Hautier and Knops, \{Johannes M.H.\} and Koerner, \{Sally E.\} and Lauri Laanisto and Ylva Lekberg and Martina, \{Jason P.\} and Holly Martinson and McCulley, \{Rebecca L.\} and Peri, \{Pablo L.\} and Petr Macek and Power, \{Sally A.\} and Risch, \{Anita C.\} and Christiane Roscher and Seabloom, \{Eric W.\} and Carly Stevens and Veen, \{G. F.(Ciska)\} and Risto Virtanen and Laura Yahdjian",

note = "Publisher Copyright: {\textcopyright} 2023, Springer Nature Limited.",

year = "2023",

month = dec,

day = "1",

doi = "10.1038/s41467-023-42340-0",

language = "English",

volume = "14",

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Spohn, M, Bagchi, S, Biederman, LA, Borer, ET, Bråthen, KA, Bugalho, MN, Caldeira, MC, Catford, JA, Collins, SL, Eisenhauer, N, Hagenah, N, Haider, S, Hautier, Y, Knops, JMH, Koerner, SE, Laanisto, L, Lekberg, Y, Martina, JP, Martinson, H, McCulley, RL, Peri, PL, Macek, P, Power, SA, Risch, AC, Roscher, C, Seabloom, EW, Stevens, C, Veen, GF, Virtanen, R & Yahdjian, L 2023, 'The positive effect of plant diversity on soil carbon depends on climate', Nature Communications, vol. 14, no. 1, 6624. https://doi.org/10.1038/s41467-023-42340-0

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T1 - The positive effect of plant diversity on soil carbon depends on climate

AU - Spohn, Marie

AU - Bagchi, Sumanta

AU - Biederman, Lori A.

AU - Borer, Elizabeth T.

AU - Bråthen, Kari Anne

AU - Bugalho, Miguel N.

AU - Caldeira, Maria C.

AU - Catford, Jane A.

AU - Collins, Scott L.

AU - Eisenhauer, Nico

AU - Hagenah, Nicole

AU - Haider, Sylvia

AU - Hautier, Yann

AU - Knops, Johannes M.H.

AU - Koerner, Sally E.

AU - Laanisto, Lauri

AU - Lekberg, Ylva

AU - Martina, Jason P.

AU - Martinson, Holly

AU - McCulley, Rebecca L.

AU - Peri, Pablo L.

AU - Macek, Petr

AU - Power, Sally A.

AU - Risch, Anita C.

AU - Roscher, Christiane

AU - Seabloom, Eric W.

AU - Stevens, Carly

AU - Veen, G. F.(Ciska)

AU - Virtanen, Risto

AU - Yahdjian, Laura

PY - 2023/12/1

Y1 - 2023/12/1

N2 - Little is currently known about how climate modulates the relationship between plant diversity and soil organic carbon and the mechanisms involved. Yet, this knowledge is of crucial importance in times of climate change and biodiversity loss. Here, we show that plant diversity is positively correlated with soil carbon content and soil carbon-to-nitrogen ratio across 84 grasslands on six continents that span wide climate gradients. The relationships between plant diversity and soil carbon as well as plant diversity and soil organic matter quality (carbon-to-nitrogen ratio) are particularly strong in warm and arid climates. While plant biomass is positively correlated with soil carbon, plant biomass is not significantly correlated with plant diversity. Our results indicate that plant diversity influences soil carbon storage not via the quantity of organic matter (plant biomass) inputs to soil, but through the quality of organic matter. The study implies that ecosystem management that restores plant diversity likely enhances soil carbon sequestration, particularly in warm and arid climates.

AB - Little is currently known about how climate modulates the relationship between plant diversity and soil organic carbon and the mechanisms involved. Yet, this knowledge is of crucial importance in times of climate change and biodiversity loss. Here, we show that plant diversity is positively correlated with soil carbon content and soil carbon-to-nitrogen ratio across 84 grasslands on six continents that span wide climate gradients. The relationships between plant diversity and soil carbon as well as plant diversity and soil organic matter quality (carbon-to-nitrogen ratio) are particularly strong in warm and arid climates. While plant biomass is positively correlated with soil carbon, plant biomass is not significantly correlated with plant diversity. Our results indicate that plant diversity influences soil carbon storage not via the quantity of organic matter (plant biomass) inputs to soil, but through the quality of organic matter. The study implies that ecosystem management that restores plant diversity likely enhances soil carbon sequestration, particularly in warm and arid climates.

KW - Biology

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UR - https://www.mendeley.com/catalogue/7c28a0c7-703c-386f-b38f-85bd9954ecb7/

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DO - 10.1038/s41467-023-42340-0

M3 - Journal articles

C2 - 37857640

AN - SCOPUS:85174498243

SN - 2041-1723

VL - 14

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 6624

ER -

The positive effect of plant diversity on soil carbon depends on climate

Abstract

Bibliographical note

UN SDGs

Research areas and keywords

ASJC Scopus Subject Areas

Access to Document

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Cite this