Publicaciones en las que colabora con Fernando T. Maestre Gil (25)

2024

  1. Correction to: Hotspots of biogeochemical activity linked to aridity and plant traits across global drylands (Nature Plants, (2024), 10, 5, (760-770), 10.1038/s41477-024-01670-7)

    Nature Plants

  2. Drivers of woody dominance across global drylands

    Science Advances, Vol. 10, Núm. 41

  3. Hotspots of biogeochemical activity linked to aridity and plant traits across global drylands

    Nature Plants

  4. Unforeseen plant phenotypic diversity in a dry and grazed world

    Nature, Vol. 632, Núm. 8026, pp. 808-814

  5. Vulnerability of mineral-associated soil organic carbon to climate across global drylands

    Nature Climate Change, Vol. 14, Núm. 9, pp. 976-982

2023

  1. Continuous monitoring of chlorophyll a fluorescence and microclimatic conditions reveals warming-induced physiological damage in biocrust-forming lichens

    Plant and Soil, Vol. 482, Núm. 1-2, pp. 261-276

2022

  1. Biocrust-forming lichens increase soil available phosphorus under simulated climate change

    European Journal of Soil Science, Vol. 73, Núm. 4

  2. Decomposition of dryland biocrust-forming lichens and mosses contributes to soil nutrient cycling

    Plant and Soil, Vol. 481, Núm. 1-2, pp. 23-34

  3. Grazing and ecosystem service delivery in global drylands

    Science (New York, N.Y.), Vol. 378, Núm. 6622, pp. 915-920

2021

  1. Species-specific effects of biocrust-forming lichens on soil properties under simulated climate change are driven by functional traits

    New Phytologist, Vol. 230, Núm. 1, pp. 101-115

2018

  1. Cascading effects from plants to soil microorganisms explain how plant species richness and simulated climate change affect soil multifunctionality

    Global Change Biology, Vol. 24, Núm. 12, pp. 5642-5654

  2. Soil fungal abundance and plant functional traits drive fertile island formation in global drylands

    Journal of Ecology, Vol. 106, Núm. 1, pp. 242-253

2017

  1. Testing the environmental filtering concept in global drylands

    Journal of Ecology, Vol. 105, Núm. 4, pp. 1058-1069

2016

  1. Biological Soil Crusts as a Model System in Ecology

    Biological Soil Crusts: An Organizing Principle in Drylands (Springer), pp. 407-425

  2. Climate, topography and soil factors interact to drive community trait distributions in global drylands

    PeerJ Preprints

  3. Functional leaf and size traits determine the photosynthetic response of 10 dryland species to warming

    Journal of Plant Ecology, Vol. 9, Núm. 6, pp. 773-783

  4. Human impacts and aridity differentially alter soil N availability in drylands worldwide

    Global Ecology and Biogeography, Vol. 25, Núm. 1, pp. 36-45

  5. Plant size and leaf area influence phenological and reproductive responses to warming in semiarid Mediterranean species

    Perspectives in Plant Ecology, Evolution and Systematics, Vol. 21, pp. 31-40

2015

  1. Climate change may reduce litter decomposition while enhancing the contribution of photodegradation in dry perennial Mediterranean grasslands

    Soil Biology and Biochemistry, Vol. 90, pp. 214-223

  2. Functional diversity enhances the resistance of ecosystem multifunctionality to aridity in Mediterranean drylands

    New Phytologist, Vol. 206, Núm. 2, pp. 660-671