Publications by the researcher in collaboration with JUAN PIÑEIRO NEVADO (17)

2024

  1. Microbial competition for phosphorus limits the CO2 response of a mature forest

    Nature, Vol. 630, Núm. 8017, pp. 660-665

  2. Plant Multi-element Coupling as an Indicator of Nutritional Mismatches Under Global Change

    Ecosystems, Vol. 27, Núm. 5, pp. 673-689

  3. Pre-existing global change legacies regulate the responses of multifunctionality to warming

    Applied Soil Ecology, Vol. 204

2023

  1. Bioavailability of Macro and Micronutrients Across Global Topsoils: Main Drivers and Global Change Impacts

    Global Biogeochemical Cycles, Vol. 37, Núm. 6

  2. Litter and soil biodiversity jointly drive ecosystem functions

    Global Change Biology, Vol. 29, Núm. 22, pp. 6276-6285

  3. Phosphorus and water supply independently control productivity and soil enzyme activity responses to elevated CO2 in an understorey community from a Eucalyptus woodland

    Plant and Soil, Vol. 483, Núm. 1-2, pp. 643-657

2022

  1. No CO2 fertilization effect on plant growth despite enhanced rhizosphere enzyme activity in a low phosphorus soil

    Plant and Soil, Vol. 471, Núm. 1-2, pp. 359-374

2021

  1. Spatial homogenization of understorey plant communities under eCO2 in a mature Eucalyptus woodland

    Journal of Ecology, Vol. 109, Núm. 3, pp. 1386-1395

  2. Understorey plant community assemblage of Australian Eucalyptus woodlands under elevated CO2 is modulated by water and phosphorus availability

    Journal of Plant Ecology, Vol. 14, Núm. 3, pp. 478-490

2020

  1. Links between soil microbial communities, functioning, and plant nutrition under altered rainfall in Australian grassland

    Ecological Monographs, Vol. 90, Núm. 4

  2. Spatial distribution of fine root biomass in a remnant Eucalyptus tereticornis woodland in Eastern Australia

    Plant Ecology, Vol. 221, Núm. 1, pp. 55-62

  3. The fate of carbon in a mature forest under carbon dioxide enrichment

    Nature, Vol. 580, Núm. 7802, pp. 227-231

  4. Water availability drives fine root dynamics in a Eucalyptus woodland under elevated atmospheric CO2 concentration

    Functional Ecology, Vol. 34, Núm. 11, pp. 2389-2402

2019

  1. Decoupling of nutrient cycles in a Eucalyptus woodland under elevated CO2

    Journal of Ecology, Vol. 107, Núm. 6, pp. 2532-2540

2018

  1. Elevated CO2 concentrations reduce C4 cover and decrease diversity of understorey plant community in a Eucalyptus woodland

    Journal of Ecology, Vol. 106, Núm. 4, pp. 1483-1494

2017

  1. Effects of elevated CO2 on fine root biomass are reduced by aridity but enhanced by soil nitrogen: A global assessment

    Scientific Reports, Vol. 7, Núm. 1

  2. Rhizosphere-driven increase in nitrogen and phosphorus availability under elevated atmospheric CO2 in a mature Eucalyptus woodland

    Plant and Soil, Vol. 416, Núm. 1-2, pp. 283-295