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

被引:1
|
作者
Raúl Ochoa-Hueso
John Hughes
Manuel Delgado-Baquerizo
John E. Drake
Mark G. Tjoelker
Juan Piñeiro
Sally A. Power
机构
[1] Western Sydney University,Hawkesbury Institute for the Environment
[2] Autonomous University of Madrid,Department of Ecology
[3] University of Leeds,School of Geography
[4] University of Colorado,Cooperative Institute for Research in Environmental Sciences
来源
Plant and Soil | 2017年 / 416卷
关键词
Climate change; Elevated CO; Free-air CO; enrichment; Fine roots; Forests; Nutrient limitation; Phosphorus; Rhizosphere;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
页码:283 / 295
页数:12
相关论文
共 50 条
  • [1] Rhizosphere-driven increase in nitrogen and phosphorus availability under elevated atmospheric CO2 in a mature Eucalyptus woodland
    Ochoa-Hueso, Raul
    Hughes, John
    Delgado-Baquerizo, Manuel
    Drake, John E.
    Tjoelker, Mark G.
    Pineiro, Juan
    Power, Sally A.
    PLANT AND SOIL, 2017, 416 (1-2) : 283 - 295
  • [2] The influence of elevated CO2 and soil depth on rhizosphere activity and nutrient availability in a mature Eucalyptus woodland
    Pihlblad, Johanna
    Andresen, Louise C.
    Macdonald, Catriona A.
    Ellsworth, David S.
    Carrillo, Yolima
    BIOGEOSCIENCES, 2023, 20 (03) : 505 - 521
  • [3] Canopy leaf area of a mature evergreen Eucalyptus woodland does not respond to elevated atmospheric [CO2] but tracks water availability
    Duursma, Remko A.
    Gimeno, Teresa E.
    Boer, Matthias M.
    Crous, Kristine Y.
    Tjoelker, Mark G.
    Ellsworth, David S.
    GLOBAL CHANGE BIOLOGY, 2016, 22 (04) : 1666 - 1676
  • [4] Nitrogen dynamics after two years of elevated CO2 in phosphorus limited Eucalyptus woodland
    Louise C. Andresen
    Yolima Carrillo
    Catriona A. Macdonald
    Laura Castañeda-Gómez
    Samuel Bodé
    Tobias Rütting
    Biogeochemistry, 2020, 150 : 297 - 312
  • [5] Conserved stomatal behaviour under elevated CO2 and varying water availability in a mature woodland
    Gimeno, Teresa E.
    Crous, Kristine Y.
    Cooke, Julia
    O'Grady, Anthony P.
    Osvaldsson, Anna
    Medlyn, Belinda E.
    Ellsworth, David S.
    FUNCTIONAL ECOLOGY, 2016, 30 (05) : 700 - 709
  • [6] The role of rhizosphere in enhancing N availability in a mature temperate forest under elevated CO2
    Rumeau, Manon
    Sgouridis, Fotis
    Mackenzie, Rob
    Carrillo, Yolima
    Reay, Michaela K.
    Hartley, Ian P.
    Ullah, Sami
    SOIL BIOLOGY & BIOCHEMISTRY, 2024, 197
  • [7] Decoupling of nutrient cycles in a Eucalyptus woodland under elevated CO2
    Ochoa-Hueso, Raul
    Pineiro, Juan
    Power, Sally A.
    JOURNAL OF ECOLOGY, 2019, 107 (06) : 2532 - 2540
  • [8] Elevated CO2 did not affect the hydrological balance of a mature native Eucalyptus woodland
    Gimeno, Teresa E.
    McVicar, Tim R.
    O'Grady, Anthony P.
    Tissue, David T.
    Ellsworth, David S.
    GLOBAL CHANGE BIOLOGY, 2018, 24 (07) : 3010 - 3024
  • [9] Elevated carbon dioxide increases soil nitrogen and phosphorus availability in a phosphorus-limited Eucalyptus woodland
    Hasegawa, Shun
    Macdonald, Catriona A.
    Power, Sally A.
    GLOBAL CHANGE BIOLOGY, 2016, 22 (04) : 1628 - 1643
  • [10] Availability of soil nitrogen and phosphorus in a typical rice-wheat rotation system under elevated atmospheric [CO2]
    Ma, Hong-Liang
    Zhu, Han-Guo
    Liu, Gang
    Xie, Zu-Bin
    Wang, Yu-Long
    Yang, Lian-Xin
    Zeng, Qing
    FIELD CROPS RESEARCH, 2007, 100 (01) : 44 - 51
12345