Interactions among nutrients govern the global grassland biomass-precipitation relationship

Fay, Philip A.; Gherardi, Laureano A.; Yahdjian, Laura; Adler, Peter B.; Bakker, Jonathan D.; Bharath, Siddharth; Borer, Elizabeth T.; Harpole, W. Stanley; Green, Erika Hersch -; Huxman, Travis E.; Macdougall, Andrew S.; Risch, Anita C.; Seabloom, Eric W.; Bagchi, Sumanta; Barrio, Isabel C.; Biederman, Lori; Buckley, Yvonne M.; Bugalho, Miguel N.; Caldeira, Maria C.; Catford, Jane A.; Chen, Qingqing; Cleland, Elsa E.; Collins, Scott L.; Daleo, Pedro; Dickman, Christopher R.; Donohue, Ian; Dupre, Mary E.; Eisenhauer, Nico; Eskelinen, Anu; Hagenah, Nicole; Hautier, Yann; Heckman, Robert W.; Jonsdottir, Ingibjoerg S.; Knops, Johannes M. H.; Laungani, Ramesh; Martina, Jason P.; Mcculley, Rebecca L.; Morgan, John W.; Venterink, Harry Olde; Peri, Pablo L.; Power, Sally A.; Raynaud, Xavier; Ren, Zhengwei; Roscher, Christiane; Smith, Melinda D.; Spohn, Marie; Stevens, Carly J.; Tedder, Michelle J.; Virtanen, Risto; Wardle, Glenda M.; Wheeler, George R.

doi:10.1073/pnas.2410748122

Research article2025Peer reviewedOpen access

Interactions among nutrients govern the global grassland biomass-precipitation relationship

Fay, Philip A.; Gherardi, Laureano A.; Yahdjian, Laura; Adler, Peter B.; Bakker, Jonathan D.; Bharath, Siddharth; Borer, Elizabeth T.; Harpole, W. Stanley; Green, Erika Hersch -; Huxman, Travis E.; Macdougall, Andrew S.; Risch, Anita C.; Seabloom, Eric W.; Bagchi, Sumanta; Barrio, Isabel C.; Biederman, Lori; Buckley, Yvonne M.; Bugalho, Miguel N.; Caldeira, Maria C.; Catford, Jane A.;
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Abstract

Ecosystems are experiencing changing global patterns of mean annual precipitation (MAP) and enrichment with multiple nutrients that potentially colimit plant biomass production. In grasslands, mean aboveground plant biomass is closely related to MAP, but how this relationship changes after enrichment with multiple nutrients remains unclear. We hypothesized the global biomass-MAP relationship becomes steeper with an increasing number of added nutrients, with increases in steepness corresponding to the form of interaction among added nutrients and with increased mediation by changes in plant community diversity. We measured aboveground plant biomass production and species diversity in 71 grasslands on six continents representing the global span of grassland MAP, diversity, management, and soils. We fertilized all sites with nitrogen, phosphorus, and potassium with micronutrients in all combinations to identify which nutrients limited biomass at each site. As hypothesized, fertilizing with one, two, or three nutrients progressively steepened the global biomass-MAP relationship. The magnitude of the increase in steepness corresponded to whether sites were not limited by nitrogen or phosphorus, were limited by either one, or were colimited by both in additive, or synergistic forms. Unexpectedly, we found only weak evidence for mediation of biomass-MAP relationships by plant community diversity because relationships of species richness, evenness, and beta diversity to MAP and to biomass were weak or opposing. Site-level properties including baseline biomass production, soils, and management explained little variation in biomass-MAP relationships. These findings reveal multiple nutrient colimitation as a defining feature of the global grassland biomass-MAP relationship.

Keywords

primary productivity; precipitation; diversity; grasslands

Published in

Proceedings of the National Academy of Sciences of the United States of America
2025, volume: 122, number: 15, article number: 2410748122
Publisher: NATL ACAD SCIENCES

SLU Authors

Spohn, Marie
- Department of Soil and Environment, Swedish University of Agricultural Sciences

UKÄ Subject classification

Ecology

Publication identifier

DOI: https://doi.org/10.1073/pnas.2410748122

Permanent link to this page (URI)

https://res.slu.se/id/publ/141800