Limited carbon inputs from plants into soils in arid ecosystems: a study of changes in the δ13C in the soil-root interface

被引:0
|
作者
Pere Rovira
Iker Aranjuelo
Robert S. Nowak
Salvador Nogués
机构
[1] CEMFOR,Instituto de Agrobiotecnología (IdAB)
[2] Forest Science Centre of Catalonia (CTFC),Department of Natural Resources and Environmental Science
[3] CSIC-Universidad Pública de Navarra-Gobierno de Navarra,Department of Evolutionary Biology, Ecology and Environmental Sciences, Plant Physiology Section, Faculty of Biology
[4] University of Nevada,undefined
[5] University of Barcelona,undefined
来源
Plant and Soil | 2019年 / 443卷
关键词
Climate change; Carbon cycle; FACE experiments; Soil organic matter turnover; Carbonates; Desert plants; Carbon isotopes; Root exudates;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
页码:307 / 322
页数:15
相关论文
共 50 条
  • [21] Reduced Lignin Decomposition and Enhanced Soil Organic Carbon Stability by Acid Rain: Evidence from 13C Isotope and 13C NMR Analyses
    Wu, Jianping
    Deng, Qi
    Hui, Dafeng
    Xiong, Xin
    Zhang, Huiling
    Zhao, Mengdi
    Wang, Xuan
    Hu, Minghui
    Su, Yongxian
    Zhang, Hongou
    Chu, Guowei
    Zhang, Deqiang
    FORESTS, 2020, 11 (11): : 1 - 14
  • [22] Characterization of soil organic matter fractions from grassland and cultivated soils via C content and δ13C signature
    Accoe, F
    Boeckx, P
    Van Cleemput, O
    Hofman, G
    Hui, X
    Bin, H
    Chen, GX
    RAPID COMMUNICATIONS IN MASS SPECTROMETRY, 2002, 16 (23) : 2157 - 2164
  • [23] 13C NMR spectroscopy characterization of particle-size fractionated soil organic carbon in subalpine forest and grassland ecosystems
    Yo-Jin Shiau
    Jenn-Shing Chen
    Tay-Lung Chung
    Guanglong Tian
    Chih-Yu Chiu
    Botanical Studies, 58
  • [24] 13C NMR spectroscopy characterization of particle-size fractionated soil organic carbon in subalpine forest and grassland ecosystems
    Shiau, Yo-Jin
    Chen, Jenn-Shing
    Chung, Tay-Lung
    Tian, Guanglong
    Chiu, Chih-Yu
    BOTANICAL STUDIES, 2017, 58
  • [25] How grasses stabilize soil organic carbon in aggregates of semi-arid ecologically restored land: Evidence from 13C natural abundance
    Singhal, Vikas Kumar
    Ghosh, Avijit
    Singh, Amit K.
    Singh, Yogeshwar
    Biswas, Siddhartha Sankar
    Ojha, Deepak
    Bhattacharyya, Ranjan
    CATENA, 2025, 249
  • [26] Processing of 13C glucose in mineral soil from aspen, spruce and novel ecosystems in the Athabasca Oil Sands Region
    Norris, Charlotte E.
    Quideau, Sylvie A.
    Macey, Donna E.
    APPLIED SOIL ECOLOGY, 2013, 71 : 24 - 32
  • [27] Carbon cycle models based on extreme changes in δ13C:: an example from the lower Mississippian
    Saltzman, MR
    Groessens, E
    Zhuravlev, AV
    PALAEOGEOGRAPHY PALAEOCLIMATOLOGY PALAEOECOLOGY, 2004, 213 (3-4) : 359 - 377
  • [28] Leaf wax n-alkane patterns and compound-specific δ13C of plants and topsoils from semi-arid and arid Mongolia
    Struck, Julian
    Bliedtner, Marcel
    Strobel, Paul
    Schumacher, Jens
    Bazarradnaa, Enkhtuya
    Zech, Roland
    BIOGEOSCIENCES, 2020, 17 (03) : 567 - 580
  • [29] How Much Soil Carbon is Derived from Woody Detritus? A Ten-Year Study of 13C Incorporation into Soil Organic Matter
    Fahey, Timothy J.
    Heinz, Alexis K.
    Mathisson, Rachel
    Fahey, Catherine
    Yavitt, Joseph B.
    ECOSYSTEMS, 2024, 27 (07) : 867 - 878
  • [30] δ13C as a tool to determine the origin of soil organic carbon: Case study of a restored sloping orchard
    Mursec, Mateja
    Leveque, Jean
    SOIL AND WATER RESEARCH, 2023, 18 (02) : 81 - 88
12345