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A test of the hierarchical model of litter decompositionQuantifying global soil carbon losses in response to warmingWhere, when and how plant-soil feedback matters in a changing worldFungal interactions reduce carbon use efficiencyCoarse woody debris accelerates the decomposition of deadwood inputs across temperate forestDiversity begets diversity in competition for spaceApplying the aboveground-belowground interaction concept in agricultureCarbon use efficiency and storage in terrestrial ecosystemsDecoupling direct and indirect effects of temperature on decompositionGreenhouse trace gases in deadwoodMapping tree density at a global scaleGrowing the urban forest: Tree performance in response to biotic and abiotic land managementBiotic interactions mediate soil microbial feedbacks to climate changePredicting the responsiveness of soil biodiversity to deforestation: A cross-biome studyCompetitive network determines the direction of the diversity–function relationshipModelling the multidimensional niche by linking functional traits to competitive performanceUntangling the fungal niche: The trait-based approachBelowground community turnover accelerates the decomposition of standing dead woodBiogeographic patterns in below-ground diversity in New York City’s Central Park are similar to those observed globallyClimate fails to predict wood decomposition at regional scalesEnvironmental stress response limits microbial necromass contributions to soil organic carbonErratum: Mapping tree density at a global scale(Nature (2015) 525 (201-205) DOI:10.1038/nature14967)Thermal acclimation in widespread heterotrophic soil microbesTemperate forest termites: Ecology, biogeography, and ecosystem impacts