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On the importance of shrub encroachment by sprouters, climate, species richness and anthropic factors for ecosystem multifunctionality in semi-arid Mediterranean ecosystemsResponse of Soil Properties and Microbial Communities to Agriculture: Implications for Primary Productivity and Soil Health IndicatorsAridity modulates N availability in arid and semiarid Mediterranean grasslands.Changes in biocrust cover drive carbon cycle responses to climate change in drylands.Decoupling of soil nutrient cycles as a function of aridity in global drylands.Climate and soil attributes determine plant species turnover in global drylands.Biocrust-forming mosses mitigate the negative impacts of increasing aridity on ecosystem multifunctionality in drylands.Climate and soil properties limit the positive effects of land use reversion on carbon storage in Eastern Australia.Increasing aridity reduces soil microbial diversity and abundance in global drylands.Structure and functioning of dryland ecosystems in a changing world.Climate legacies drive global soil carbon stocks in terrestrial ecosystems.Experimental and observational studies find contrasting responses of soil nutrients to climate changePlant species richness and ecosystem multifunctionality in global drylandsPlant diversity and ecosystem multifunctionality peak at intermediate levels of woody cover in global drylandsIntransitive competition is widespread in plant communities and maintains their species richness.Microbial diversity drives multifunctionality in terrestrial ecosystems.It is elemental: soil nutrient stoichiometry drives bacterial diversity.Circular linkages between soil biodiversity, fertility and plant productivity are limited to topsoil at the continental scale.Microsite Differentiation Drives the Abundance of Soil Ammonia Oxidizing Bacteria along Aridity Gradients.Competition drives the response of soil microbial diversity to increased grazing by vertebrate herbivores.Functional traits determine plant co-occurrence more than environment or evolutionary relatedness in global drylands.Biogeographic bases for a shift in crop C : N : P stoichiometries during domestication.Microbial regulation of the soil carbon cycle: evidence from gene-enzyme relationshipsDetecting macroecological patterns in bacterial communities across independent studies of global soils.Effects of elevated CO2 on fine root biomass are reduced by aridity but enhanced by soil nitrogen: A global assessment.Soil microbial communities drive the resistance of ecosystem multifunctionality to global change in drylands across the globe.Soil aggregation and associated microbial communities modify the impact of agricultural management on carbon content.Mammalian engineers drive soil microbial communities and ecosystem functions across a disturbance gradient.Ecological drivers of soil microbial diversity and soil biological networks in the Southern Hemisphere.Intraspecies variation in a widely distributed tree species regulates the responses of soil microbiome to different temperature regimes.A global atlas of the dominant bacteria found in soil.Drought consistently alters the composition of soil fungal and bacterial communities in grasslands from two continents.Temperature and aridity regulate spatial variability of soil multifunctionality in drylands across the globe.Plant attributes explain the distribution of soil microbial communities in two contrasting regions of the globe.Biocrust-forming mosses mitigate the impact of aridity on soil microbial communities in drylands: observational evidence from three continents.Response to comment on "Climate legacies drive global soil carbon stocks in terrestrial ecosystem".Vascular plants mediate the effects of aridity and soil properties on ammonia-oxidizing bacteria and archaea.Identity of plant, lichen and moss species connects with microbial abundance and soil functioning in Maritime AntarcticaAridity Decouples C:N:P Stoichiometry Across Multiple Trophic Levels in Terrestrial EcosystemsIdentifying environmental drivers of greenhouse gas emissions under warming and reduced rainfall in boreal-temperate forests
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P50
description
researcher ORCID ID = 0000-0002-6499-576X
@en
wetenschapper
@nl
name
Manuel Delgado-Baquerizo
@ast
Manuel Delgado-Baquerizo
@en
Manuel Delgado-Baquerizo
@es
Manuel Delgado-Baquerizo
@nl
type
label
Manuel Delgado-Baquerizo
@ast
Manuel Delgado-Baquerizo
@en
Manuel Delgado-Baquerizo
@es
Manuel Delgado-Baquerizo
@nl
prefLabel
Manuel Delgado-Baquerizo
@ast
Manuel Delgado-Baquerizo
@en
Manuel Delgado-Baquerizo
@es
Manuel Delgado-Baquerizo
@nl
P106
P21
P31
P496
0000-0002-6499-576X