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A meta-analysis of 1,119 manipulative experiments on terrestrial carbon-cycling responses to global change

A synthesis of global change experiments that manipulated temperature, precipitation, carbon dioxide or nitrogen identifies a need to consider site-specific factors and interactions in Earth system models.

Jian Song
Shiqiang Wan
Mengmei Zheng
Research19 Aug 2019
Nature Ecology & Evolution

Volume: 3, P: 1309-1320
The links between ecosystem multifunctionality and above- and belowground biodiversity are mediated by climate

Plant biodiversity often has a positive influence on ecosystem functioning. Here Jinget al. show that belowground diversity can also significantly impact ecosystem multifunctionality, but its relative effect varies by regional-scale climate variation.

Xin Jing
Nathan J. Sanders
Jin-Sheng He
ResearchOpen Access02 Sept 2015
Nature Communications

Volume: 6, P: 1-8
Patchy field sampling biases understanding of climate change impacts across the Arctic

Analysing a database of >1,800 field studies in the terrestrial Arctic, the authors identify large spatial biases in sampling, with nearly one-third of all citations derived from sites located within 50 km of two research stations.

Daniel B. Metcalfe
Thirze D. G. Hermans
Abdulhakim M. Abdi
Research16 Jul 2018
Nature Ecology & Evolution

Volume: 2, P: 1443-1448
Globally consistent influences of seasonal precipitation limit grassland biomass response to elevated CO₂

Rising CO₂ levels have been thought to potentially increase plant growth due to improved fertilization, but such a general effect is spatially and temporally affected by precipitation. Grassland experiments show constraints and increases in the fertilization effect due to seasonal-based precipitation, inferring that any potential plant growth could be mitigated by natural rainfall changes.

Mark J. Hovenden
Sebastian Leuzinger
J. Adam Langley
Research08 Feb 2019
Nature Plants

Volume: 5, P: 167-173
Elevation alters ecosystem properties across temperate treelines globally

Examination of the ecosystem properties of treeline ecotones in seven temperate regions of the world shows that the reduction in temperature with increasing elevation does not affect tree leaf nutrient concentrations, but does reduce ground-layer community-weighted plant nitrogen levels, leading to a strong stoichiometric convergence of ground-layer plant community nitrogen to phosphorus ratios across all regions.

Jordan R. Mayor
Nathan J. Sanders
David A. Wardle
Research25 Jan 2017
Nature

Volume: 542, P: 91-95
Scientists’ warning to humanity: microorganisms and climate change

The microbial majority with which we share Earth often goes unnoticed despite underlying major biogeochemical cycles and food webs, thereby taking a key role in climate change. This Consensus Statement highlights the importance of climate change microbiology and issues a call to action for all microbiologists.

Ricardo Cavicchioli
William J. Ripple
Nicole S. Webster
ReviewsOpen Access18 Jun 2019
Nature Reviews Microbiology

Volume: 17, P: 569-586
Soil microbial legacies differ following drying-rewetting and freezing-thawing cycles

Annelein Meisner
Basten L. Snoek
Anders Priemé
ResearchOpen Access06 Jan 2021
The ISME Journal

Volume: 15, P: 1207-1221

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A meta-analysis of 1,119 manipulative experiments on terrestrial carbon-cycling responses to global change

The links between ecosystem multifunctionality and above- and belowground biodiversity are mediated by climate

Patchy field sampling biases understanding of climate change impacts across the Arctic

Globally consistent influences of seasonal precipitation limit grassland biomass response to elevated CO2

Elevation alters ecosystem properties across temperate treelines globally

Scientists’ warning to humanity: microorganisms and climate change

Soil microbial legacies differ following drying-rewetting and freezing-thawing cycles

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Globally consistent influences of seasonal precipitation limit grassland biomass response to elevated CO₂