Intense solar radiation constrains plant species richness in global grasslands

Marie Spohn; Carlos Alberto Arnillas; Jonathan D Bakker; Elizabeth T Borer; Kari Anne Bråthen; Marc W Cadotte; Clinton Carbutt; Jane A Catford; Mary E DuPre; Ciara Dwyer; Nico Eisenhauer; Catalina Estrada; Nicole Hagenah; Sylvia Haider; Kyle E Harms; Yann Hautier; Erika I Hersch-Green; Johannes M H Knops; Lauri Laanisto; Ramesh Laungani; Peter Macek; Holly Martinson; Jonathan Millett; Meelis Pärtel; Steven C Pennings; Pablo L Peri; Sally A Power; Anita C Risch; Christiane Roscher; Eric W Seabloom; Nicholas G Smith; Carly Stevens; Risto Virtanen; Glenda M Wardle; Pengfei Zhang

doi:10.1073/pnas.2527128123

Intense solar radiation constrains plant species richness in global grasslands

Marie Spohn^*
, Carlos Alberto Arnillas
, Jonathan D Bakker
, Elizabeth T Borer
, Kari Anne Bråthen
, Marc W Cadotte
, Clinton Carbutt
, Jane A Catford
, Mary E DuPre
, Ciara Dwyer
, Nico Eisenhauer
, Catalina Estrada
, Nicole Hagenah
, Sylvia Haider
, Kyle E Harms
, Yann Hautier
, Erika I Hersch-Green
, Johannes M H Knops
, Lauri Laanisto
, Ramesh Laungani

Peter Macek, Holly Martinson, Jonathan Millett, Meelis Pärtel, Steven C Pennings, Pablo L Peri, Sally A Power, Anita C Risch, Christiane Roscher, Eric W Seabloom, Nicholas G Smith, Carly Stevens, Risto Virtanen, Glenda M Wardle, Pengfei Zhang

^*Corresponding author for this work

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

Abstract

The search for predictors of plant diversity has challenged scientists for decades. Here we identify intense photosynthetically active radiation (PAR) as a major factor constraining plant species richness in global grasslands. We show that the strength of the negative relationship between species richness and PAR increases with increasing elevation and that species richness is more strongly correlated with intense PAR than with UV-B radiation, climate variables, and atmospheric nitrogen deposition. In addition to species richness, plant biomass was also negatively correlated with PAR at higher elevations, indicating that intense PAR also constrains plant biomass in montane grasslands. Furthermore, we show that the decrease in plant species richness with increasing PAR is mainly caused by a decrease in species richness of forbs, sedges, and rushes. In contrast, species richness of grasses was only negatively correlated with PAR at high elevations, and species richness of legumes was not significantly correlated with PAR. Our results suggest that PAR constrains plant species richness in global grasslands and limits the extent to which plant species of specific functional groups can migrate uphill in response to climate warming.

Original language	English
Article number	e2527128123
Number of pages	8
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	123
Issue number	6
DOIs	https://doi.org/10.1073/pnas.2527128123
Publication status	Published - Feb 2026

Bibliographical note

Publisher Copyright:
Copyright © 2026 the Author(s).

UN SDGs

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

SDG 13 Climate Action

Keywords

Biodiversity
Biomass
Grassland
Photosynthesis/radiation effects
Plants/radiation effects
Poaceae/radiation effects
Sunlight

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Cite this

Spohn, M., Arnillas, C. A., Bakker, J. D., Borer, E. T., Bråthen, K. A., Cadotte, M. W., Carbutt, C., Catford, J. A., DuPre, M. E., Dwyer, C., Eisenhauer, N., Estrada, C., Hagenah, N., Haider, S., Harms, K. E., Hautier, Y., Hersch-Green, E. I., Knops, J. M. H., Laanisto, L., ... Zhang, P. (2026). Intense solar radiation constrains plant species richness in global grasslands. Proceedings of the National Academy of Sciences of the United States of America, 123(6), Article e2527128123. https://doi.org/10.1073/pnas.2527128123

@article{260c6a38e5434f19bf7221d034e9a3af,

title = "Intense solar radiation constrains plant species richness in global grasslands",

abstract = "The search for predictors of plant diversity has challenged scientists for decades. Here we identify intense photosynthetically active radiation (PAR) as a major factor constraining plant species richness in global grasslands. We show that the strength of the negative relationship between species richness and PAR increases with increasing elevation and that species richness is more strongly correlated with intense PAR than with UV-B radiation, climate variables, and atmospheric nitrogen deposition. In addition to species richness, plant biomass was also negatively correlated with PAR at higher elevations, indicating that intense PAR also constrains plant biomass in montane grasslands. Furthermore, we show that the decrease in plant species richness with increasing PAR is mainly caused by a decrease in species richness of forbs, sedges, and rushes. In contrast, species richness of grasses was only negatively correlated with PAR at high elevations, and species richness of legumes was not significantly correlated with PAR. Our results suggest that PAR constrains plant species richness in global grasslands and limits the extent to which plant species of specific functional groups can migrate uphill in response to climate warming.",

keywords = "Biodiversity, Biomass, Grassland, Photosynthesis/radiation effects, Plants/radiation effects, Poaceae/radiation effects, Sunlight",

author = "Marie Spohn and Arnillas, \{Carlos Alberto\} and Bakker, \{Jonathan D\} and Borer, \{Elizabeth T\} and Br{\aa}then, \{Kari Anne\} and Cadotte, \{Marc W\} and Clinton Carbutt and Catford, \{Jane A\} and DuPre, \{Mary E\} and Ciara Dwyer and Nico Eisenhauer and Catalina Estrada and Nicole Hagenah and Sylvia Haider and Harms, \{Kyle E\} and Yann Hautier and Hersch-Green, \{Erika I\} and Knops, \{Johannes M H\} and Lauri Laanisto and Ramesh Laungani and Peter Macek and Holly Martinson and Jonathan Millett and Meelis P{\"a}rtel and Pennings, \{Steven C\} and Peri, \{Pablo L\} and Power, \{Sally A\} and Risch, \{Anita C\} and Christiane Roscher and Seabloom, \{Eric W\} and Smith, \{Nicholas G\} and Carly Stevens and Risto Virtanen and Wardle, \{Glenda M\} and Pengfei Zhang",

note = "Publisher Copyright: Copyright {\textcopyright} 2026 the Author(s).",

year = "2026",

month = feb,

doi = "10.1073/pnas.2527128123",

language = "English",

volume = "123",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

publisher = "National Academy of Sciences",

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}

Spohn, M, Arnillas, CA, Bakker, JD, Borer, ET, Bråthen, KA, Cadotte, MW, Carbutt, C, Catford, JA, DuPre, ME, Dwyer, C, Eisenhauer, N, Estrada, C, Hagenah, N, Haider, S, Harms, KE, Hautier, Y, Hersch-Green, EI, Knops, JMH, Laanisto, L, Laungani, R, Macek, P, Martinson, H, Millett, J, Pärtel, M, Pennings, SC, Peri, PL, Power, SA, Risch, AC, Roscher, C, Seabloom, EW, Smith, NG, Stevens, C, Virtanen, R, Wardle, GM & Zhang, P 2026, 'Intense solar radiation constrains plant species richness in global grasslands', Proceedings of the National Academy of Sciences of the United States of America, vol. 123, no. 6, e2527128123. https://doi.org/10.1073/pnas.2527128123

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T1 - Intense solar radiation constrains plant species richness in global grasslands

AU - Spohn, Marie

AU - Arnillas, Carlos Alberto

AU - Bakker, Jonathan D

AU - Borer, Elizabeth T

AU - Bråthen, Kari Anne

AU - Cadotte, Marc W

AU - Carbutt, Clinton

AU - Catford, Jane A

AU - DuPre, Mary E

AU - Dwyer, Ciara

AU - Eisenhauer, Nico

AU - Estrada, Catalina

AU - Hagenah, Nicole

AU - Haider, Sylvia

AU - Harms, Kyle E

AU - Hautier, Yann

AU - Hersch-Green, Erika I

AU - Knops, Johannes M H

AU - Laanisto, Lauri

AU - Laungani, Ramesh

AU - Macek, Peter

AU - Martinson, Holly

AU - Millett, Jonathan

AU - Pärtel, Meelis

AU - Pennings, Steven C

AU - Peri, Pablo L

AU - Power, Sally A

AU - Risch, Anita C

AU - Roscher, Christiane

AU - Seabloom, Eric W

AU - Smith, Nicholas G

AU - Stevens, Carly

AU - Virtanen, Risto

AU - Wardle, Glenda M

AU - Zhang, Pengfei

PY - 2026/2

Y1 - 2026/2

N2 - The search for predictors of plant diversity has challenged scientists for decades. Here we identify intense photosynthetically active radiation (PAR) as a major factor constraining plant species richness in global grasslands. We show that the strength of the negative relationship between species richness and PAR increases with increasing elevation and that species richness is more strongly correlated with intense PAR than with UV-B radiation, climate variables, and atmospheric nitrogen deposition. In addition to species richness, plant biomass was also negatively correlated with PAR at higher elevations, indicating that intense PAR also constrains plant biomass in montane grasslands. Furthermore, we show that the decrease in plant species richness with increasing PAR is mainly caused by a decrease in species richness of forbs, sedges, and rushes. In contrast, species richness of grasses was only negatively correlated with PAR at high elevations, and species richness of legumes was not significantly correlated with PAR. Our results suggest that PAR constrains plant species richness in global grasslands and limits the extent to which plant species of specific functional groups can migrate uphill in response to climate warming.

AB - The search for predictors of plant diversity has challenged scientists for decades. Here we identify intense photosynthetically active radiation (PAR) as a major factor constraining plant species richness in global grasslands. We show that the strength of the negative relationship between species richness and PAR increases with increasing elevation and that species richness is more strongly correlated with intense PAR than with UV-B radiation, climate variables, and atmospheric nitrogen deposition. In addition to species richness, plant biomass was also negatively correlated with PAR at higher elevations, indicating that intense PAR also constrains plant biomass in montane grasslands. Furthermore, we show that the decrease in plant species richness with increasing PAR is mainly caused by a decrease in species richness of forbs, sedges, and rushes. In contrast, species richness of grasses was only negatively correlated with PAR at high elevations, and species richness of legumes was not significantly correlated with PAR. Our results suggest that PAR constrains plant species richness in global grasslands and limits the extent to which plant species of specific functional groups can migrate uphill in response to climate warming.

KW - Biodiversity

KW - Biomass

KW - Grassland

KW - Photosynthesis/radiation effects

KW - Plants/radiation effects

KW - Poaceae/radiation effects

KW - Sunlight

U2 - 10.1073/pnas.2527128123

DO - 10.1073/pnas.2527128123

M3 - Article

C2 - 41642984

SN - 0027-8424

VL - 123

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 6

M1 - e2527128123

ER -

Intense solar radiation constrains plant species richness in global grasslands

Abstract

Bibliographical note

UN SDGs

Keywords

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