Biological soil crusts play a key role in current and future global dust cycling

被引:0
|
作者
机构
来源
Nature Geoscience | 2022年 / 15卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
This study shows that by stabilizing the soil, biological soil crusts reduce global atmospheric dust emissions by 60%, corresponding to ~700 Tg of dust per year. According to models of biocrust cover loss, this effect will be reduced in the future, leading to increases in not only dust emissions but also global radiative cooling.
引用
收藏
页码:432 / 433
页数:1
相关论文
共 50 条
  • [41] Global change and biological soil crusts: effects of ultraviolet augmentation under altered precipitation regimes and nitrogen additions
    Belnap, Jayne
    Phillips, Susan L.
    Flint, Stephan
    Money, John
    Caldwell, Martyn
    GLOBAL CHANGE BIOLOGY, 2008, 14 (03) : 670 - 686
  • [42] Enhanced Adsorption and Biomineralization of Cadmium and Arsenic in Irrigation Water by Biological Soil Crusts: The Key Roles of Iron/Manganese and Urea
    Li, Anbang
    Fei, Caiyun
    Yang, Han
    Zhu, Mengmeng
    Wang, Chenlu
    Hu, Hongxiang
    Ye, Wenling
    SUSTAINABILITY, 2025, 17 (01)
  • [43] Diversity of free-living and lichenized fungal communities in biological soil crusts of the Sultanate of Oman and their role in improving soil properties
    Abed, Raeid M. M.
    Al-Sadi, Abdullah M.
    Al-Shehi, Muneera
    Al-Hinai, Sheikha
    Robinson, Michael D.
    SOIL BIOLOGY & BIOCHEMISTRY, 2013, 57 : 695 - 705
  • [44] Future of India-China Relations: A Key Role to the Global Economy
    Kumar, Nitin
    Shah, Sita
    PROCEEDINGS OF THE THIRTEENTH INTERNATIONAL CONFERENCE ON MANAGEMENT SCIENCE AND ENGINEERING MANAGEMENT, VOL 2, 2020, 1002 : 510 - 522
  • [45] THE ROLE OF WOOD IN MEETING CURRENT AND FUTURE GLOBAL ENERGY NEEDS
    FRASER, AI
    ENDEAVOUR, 1993, 17 (04) : 168 - 172
  • [46] A global assessment of the prevalence of current and potential future infrastructure in Key Biodiversity Areas
    Simkins, Ashley T.
    Beresford, Alison E.
    Buchanan, Graeme M.
    Crowe, Olivia
    Elliott, Wendy
    Izquierdo, Pablo
    Patterson, David J.
    Butchart, Stuart H. M.
    BIOLOGICAL CONSERVATION, 2023, 281
  • [47] Global NO and HONO emissions of biological soil crusts estimated by a process-based non-vascular vegetation model
    Porada, Philipp
    Tamm, Alexandra
    Raggio, Jose
    Cheng, Yafang
    Kleidon, Axel
    Poeschl, Ulrich
    Weber, Bettina
    BIOGEOSCIENCES, 2019, 16 (09) : 2003 - 2031
  • [48] Soil total organic carbon/total nitrogen ratio as a key driver deterministically shapes diazotrophic community assemblages during the succession of biological soil crusts
    Lin Xu
    Bingchang Zhang
    Entao Wang
    Bingjian Zhu
    Minjie Yao
    Chaonan Li
    Xiangzhen Li
    Soil Ecology Letters, 2021, 3 : 328 - 341
  • [49] Mosaic of biological soil crusts and vascular plants contributes to the spatial heterogeneity of key soil properties at different successional stages of restored inland sand dunes
    Chowaniec, Karolina
    Zubek, Szymon
    Zalewska-Galosz, Joanna
    Stanek, Malgorzata
    Skubala, Kaja
    PLANT AND SOIL, 2024,
  • [50] Soil total organic carbon/total nitrogen ratio as a key driver deterministically shapes diazotrophic community assemblages during the succession of biological soil crusts
    Xu, Lin
    Zhang, Bingchang
    Wang, Entao
    Zhu, Bingjian
    Yao, Minjie
    Li, Chaonan
    Li, Xiangzhen
    SOIL ECOLOGY LETTERS, 2021, 3 (04) : 328 - 341
12345