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Plant biomass tends to increase under nutrient addition and decrease under drought. Biotic and abiotic factors influence responses to both, making the combined impact of nutrient addition and drought difficult to predict. Using a globally distributed network of manipulative field experiments, we assessed grassland aboveground biomass response to both drought and increased nutrient availability at 26 sites across nine countries. Overall, drought reduced [ver mas...]
dc.contributor.authorBondaruk, Viviana F.
dc.contributor.authorXu, C.
dc.contributor.authorWilfahrt, Peter A.
dc.contributor.authorYahdjian, Laura
dc.contributor.authorYu, Q.
dc.contributor.authorBorer, Elizabeth T.
dc.contributor.authorJentsch, Anke
dc.contributor.authorSeabloom, Eric William
dc.contributor.authorSmith, Melinda D.
dc.contributor.authorAlberti, Juan
dc.contributor.authorPeri, Pablo Luis
dc.contributor.authorHautier, Yann
dc.date.accessioned2025-06-19T10:03:39Z
dc.date.available2025-06-19T10:03:39Z
dc.date.issued2025-05-19
dc.identifier.citationBondaruk V.F.; Xu C.; Wilfahrt P.; Yahdjian L.; Yu Q.; Alberti J.; An H.; Auge H.; (…); Peri P.L.; et al. (2025) Aridity modulates grassland biomass responses to combined drought and nutrient addition. Nature Ecology and Evolution 9: 937-946. https://doi.org/10.1038/s41559-025-02705-8es_AR
dc.identifier.issn2397-334X (online)
dc.identifier.otherhttps://doi.org/10.1038/s41559-025-02705-8
dc.identifier.urihttp://hdl.handle.net/20.500.12123/22719
dc.identifier.urihttps://www.nature.com/articles/s41559-025-02705-8
dc.description.abstractPlant biomass tends to increase under nutrient addition and decrease under drought. Biotic and abiotic factors influence responses to both, making the combined impact of nutrient addition and drought difficult to predict. Using a globally distributed network of manipulative field experiments, we assessed grassland aboveground biomass response to both drought and increased nutrient availability at 26 sites across nine countries. Overall, drought reduced biomass by 19% and nutrient addition increased it by 24%, resulting in no net impact under combined drought and nutrient addition. Among the plant functional groups, only graminoids responded positively to nutrients during drought. However, these general responses depended on local conditions, especially aridity. Nutrient effects were stronger in arid grasslands and weaker in humid regions and nitrogen-rich soils, although nutrient addition alleviated drought effects the most in subhumid sites. Biomass responses were weaker with higher precipitation variability. Biomass increased more with increased nutrient availability and declined more with drought at high-diversity sites than at low-diversity sites. Our findings highlight the importance of local abiotic and biotic conditions in predicting grassland responses to anthropogenic nutrient and climate changes.eng
dc.formatapplication/pdfes_AR
dc.language.isoenges_AR
dc.publisherSpringer Naturees_AR
dc.rightsinfo:eu-repo/semantics/restrictedAccesses_AR
dc.rights.urihttp://creativecommons.org/licenses/by-nc-sa/4.0/es_AR
dc.sourceNature Ecology and Evolution 9 : 937-946. (May 2025)es_AR
dc.subjectPastureseng
dc.subjectPastizaleses_AR
dc.subjectDroughteng
dc.subjectSequíaes_AR
dc.subjectNutrientseng
dc.subjectNutrienteses_AR
dc.subjectBiomasseng
dc.subjectBiomasaes_AR
dc.subjectPrecipitationeng
dc.subjectPrecipitación Atmosféricaes_AR
dc.subjectClimate Changeeng
dc.subjectCambio Climáticoes_AR
dc.subject.otherNutrient Additioneng
dc.subject.otherAdición de Nutrienteses_AR
dc.subject.otherPEBANPA Networkeng
dc.subject.otherRed PEBANPAes_AR
dc.subject.otherFunctional Groupseng
dc.subject.otherGrupos Funcionaleses_AR
dc.subject.otherAnthropogenic Nutrienteng
dc.subject.otherNutriente Antropogénicoes_AR
dc.titleAridity modulates grassland biomass responses to combined drought and nutrient additiones_AR
dc.typeinfo:ar-repo/semantics/artículoes_AR
dc.typeinfo:eu-repo/semantics/articlees_AR
dc.typeinfo:eu-repo/semantics/publishedVersiones_AR
dc.rights.licenseCreative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0)es_AR
dc.description.origenEEA Santa Cruz, INTAes_AR
dc.description.filFil: Bondaruk, V. F. Consejo Nacional de Investigaciones Científicas y Técnicas. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura (IFEVA); Argentina. Universidad de Buenos Aires. Facultad de Agronomía. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura (IFEVA); Argentinaes_AR
dc.description.filFil: Bondaruk, V. F. Universidad de Buenos Aires. Facultad de Agronomía. Departamento de Recursos Naturales y Ambiente. Cátedra de Ecología; Argentina.es_AR
dc.description.filFil: Bondaruk, V. F. University of Bayreuth. Bayreuth Center of Ecology and Environmental Research (BayCEER). Disturbance Ecology and Vegetation Dynamics; Alemaniaes_AR
dc.description.filFil: Xu, C. Chinese Academy of Agricultural Sciences. Institute of Agricultural Resources and Regional Planning. State Key Laboratory of Efficient Utilization of Arable Land in China; China.es_AR
dc.description.filFil: Xu, C. Chinese Academy of Agricultural Sciences. Institute of Agricultural Resources and Regional Planning. Key Laboratory of Arable Land Quality Monitoring and Evaluation, Ministry of Agriculture and Rural Affairs; China.es_AR
dc.description.filFil: Wilfahrt, Peter A. University of Minnesota. Department of Ecology, Evolution, and Behavior; Estados Unidoses_AR
dc.description.filFil: Yahdjian, Laura. Consejo Nacional de Investigaciones Científicas y Técnicas. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura (IFEVA); Argentina. Universidad de Buenos Aires. Facultad de Agronomía. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura (IFEVA); Argentinaes_AR
dc.description.filFil: Yahdjian, Laura. Universidad de Buenos Aires. Facultad de Agronomía; Argentina.es_AR
dc.description.filFil: Yu, Q. Beijing Forestry University. School of Grassland Science; China.es_AR
dc.description.filFil: Yu, Q. Beijing Forestry University. State Key Laboratory of Efficient Production of Forest Resources; China.es_AR
dc.description.filFil: Borer, Elizabeth T. University of Minnesota. Department of Ecology, Evolution, and Behavior; Estados Unidoses_AR
dc.description.filFil: Jentsch, Anke. University of Bayreuth. Disturbance Ecology, Bayreuth Center of Ecology and Environmental Research (BayCEER); Alemaniaes_AR
dc.description.filFil: Seabloom, Eric William. University of Minnesota. Department of Ecology, Evolution, and Behavior; Estados Unidoses_AR
dc.description.filFil: Smith, Melinda D. Colorado State University. Department of Biology; Estados Unidos.es_AR
dc.description.filFil: Smith, Melinda D. Colorado State University. Graduate Degree Program in Ecology; Estados Unidos.es_AR
dc.description.filFil: Alberti, Juan. Universidad Nacional de Mar del Plata. Instituto de Investigaciones Marinas y Costeras (IIMyC). Laboratorio de Ecología; Argentina.es_AR
dc.description.filFil: Alberti, Juan. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina.es_AR
dc.description.filFil: Peri, Pablo Luis. Instituto Nacional de Tecnología Agropecuaria (INTA). Estación Experimental Agropecuaria Santa Cruz; Argentina.es_AR
dc.description.filFil: Peri, Pablo Luis. Universidad Nacional de la Patagonia Austral; Argentina.es_AR
dc.description.filFil: Peri, Pablo Luis. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina.es_AR
dc.description.filFil: Hautier, Yann. Utrecht University. Department of Biology. Ecology and Biodiversity Group; Países Bajoses_AR
dc.subtypecientifico


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