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Biancari, Lucio ; Aguiar, Martín R. ; Eldridge, David J. ; Oñatibia, Gastón R. ; Le Bagousse-Pinguet, Yoann ; Saiz, Hugo ; Gross, Nicolas ; Austin, Amy T. ; Ochoa, Victoria ; Gozalo, Beatriz ; Asensio, Sergio ; Guirado, Emilio ; Valencia, Enrique ; Berdugo, Miguel ; Plaza, César ; Martínez-Valderrama, Jaime ; Mendoza, Betty J. ; García-Gómez, Miguel ; Abedi, Mehdi ; Ahumada, Rodrigo J. ; Alcántara, Julio M. ; Amghar, Fateh ; Anadón, José D. ; Aramayo, Valeria ; Arredondo, Tulio ; Bader, Maaike Y. ; Bahalkeh, Khadijeh ; Salem, Farah Ben ; Blaum, Niels ; Boldgiv, Bazartseren ; Bowker, Matthew ; Branquinho, Cristina ; Bu, Chongfeng ; Byambatsogt, Batbold ; Calvo, Dianela A. ; Castillo Monroy, Andrea P. ; Castro, Helena ; Castro-Quezada, Patricio ; Chibani, Roukaya ; Conceição, Abel A. ; Currier, Courtney M. ; Donoso, David A. ; Dougill, Andrew ; Ejtehadi, Hamid ; Espinosa, Carlos I. ; Fajardo, Alex ; Farzam, Mohammad ; Ferrante, Daniela ; Fraser, Lauchlan H. ; Gaitán, Juan J. ; Gherardi, Laureano A. ; Gusmán-Montalván, Elizabeth ; Hernández-Hernández, Rosa M. ; Hölzel, Norbert ; Huber-Sannwald, Elisabeth ; Hughes, Frederic M. ; Jadán, Oswaldo ; Jeltsch, Florian ; Jentsch, Anke ; Ju, Mengchen ; Kaseke, Kudzai F. ; Kindermann, Liana ; Köbel, Melanie ; le Roux, Peter C. ; Liancourt, Pierre ; Linstädter, Anja ; Liu, Jushan ; Louw, Michelle A. ; Maggs-Kölling, Gillian ; Issa, Oumarou Malam ; Marais, Eugene ; Margerie, Pierre ; Messeder, João Vitor S. ; Mora, Juan P. ; Moreno, Gerardo ; Munson, Seth M. ; Oliva, Gabriel ; Pueyo, Yolanda ; Quiroga, R. Emiliano ; Reed, Sasha C. ; Rey, Pedro J. ; Rodríguez, Alexandra ; Rodríguez, Laura B. ; Rolo, Víctor ; Ruppert, Jan C. ; Sala, Osvaldo ; Salah, Ayman ; Stavi, Ilan ; Stephens, Colton R. A. ; Swemmer, Anthony M. ; Teixido, Alberto L. ; Thomas, Andrew D. ; Throop, Heather L. ; Tielbörger, Katja ; Travers, Samantha K. ; van den Brink, Liesbeth ; Wagner, Viktoria ; Wamiti, Wanyoike ; Wang, Deli ; Wang, Lixin ; Wolff, Peter ; Yahdjian, Laura ; Zaady, Eli ; Maestre, Fernando T.:
Drivers of woody dominance across global drylands.
In: Science Advances.
Bd. 10
(2024)
Heft 41
.
- eadn6007.
ISSN 2375-2548
DOI: https://doi.org/10.1126/sciadv.adn6007
Volltext
Abstract
Increases in the abundance of woody species have been reported to affect the provisioning of ecosystem services in drylands worldwide. However, it is virtually unknown how multiple biotic and abiotic drivers, such as climate, grazing, and fire, interact to determine woody dominance across global drylands. We conducted a standardized field survey in 304 plots across 25 countries to assess how climatic features, soil properties, grazing, and fire affect woody dominance in dryland rangelands. Precipitation, temperature, and grazing were key determinants of tree and shrub dominance. The effects of grazing were determined not solely by grazing pressure but also by the dominant livestock species. Interactions between soil, climate, and grazing and differences in responses to these factors between trees and shrubs were key to understanding changes in woody dominance. Our findings suggest that projected changes in climate and grazing pressure may increase woody dominance in drylands, altering their structure and functioning. Livestock species, grazing pressure, and climate are linked to woody dominance across global drylands.Increases in the abundance of woody species have been reported to affect the provisioning of ecosystem services in drylands worldwide. However, it is virtually unknown how multiple biotic and abiotic drivers, such as climate, grazing, and fire, interact to determine woody dominance across global drylands. We conducted a standardized field survey in 304 plots across 25 countries to assess how climatic features, soil properties, grazing, and fire affect woody dominance in dryland rangelands. Precipitation, temperature, and grazing were key determinants of tree and shrub dominance. The effects of grazing were determined not solely by grazing pressure but also by the dominant livestock species. Interactions between soil, climate, and grazing and differences in responses to these factors between trees and shrubs were key to understanding changes in woody dominance. Our findings suggest that projected changes in climate and grazing pressure may increase woody dominance in drylands, altering their structure and functioning. Livestock species, grazing pressure, and climate are linked to woody dominance across global drylands.