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Main Authors: Longwei Dong, Jinzhi Ran, Jiali Luo, Lin Bai, Ying Sun, Muhammad Aqeel, Yahui Zhang, Xiaoting Wang, Qiajun Du, Junlan Xiong, Haiyang Gong, Qingqing Hou, Yan Deng, Rui Xia, Liang Wang, Fan Li, Chuancong Dong, Weigang Hu, Jie Peng, Ekaterina Filimonenko, Sulaiman Almwarai Alharbi, Jianxiao Zhu, Xiaogang Li, Chunjie Li, Jin‐Sheng He, Karl J. Niklas, Yakov Kuzyakov, Jianming Deng
Format: Artículo Open Access
Published: Wiley 2024
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Online Access:https://onlinelibrary.wiley.com/doi/10.1111/gcb.17536
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author Longwei Dong
Jinzhi Ran
Jiali Luo
Lin Bai
Ying Sun
Muhammad Aqeel
Yahui Zhang
Xiaoting Wang
Qiajun Du
Junlan Xiong
Haiyang Gong
Qingqing Hou
Yan Deng
Rui Xia
Liang Wang
Fan Li
Chuancong Dong
Weigang Hu
Jie Peng
Ekaterina Filimonenko
Sulaiman Almwarai Alharbi
Jianxiao Zhu
Xiaogang Li
Chunjie Li
Jin‐Sheng He
Karl J. Niklas
Yakov Kuzyakov
Jianming Deng
author_facet Longwei Dong
Jinzhi Ran
Jiali Luo
Lin Bai
Ying Sun
Muhammad Aqeel
Yahui Zhang
Xiaoting Wang
Qiajun Du
Junlan Xiong
Haiyang Gong
Qingqing Hou
Yan Deng
Rui Xia
Liang Wang
Fan Li
Chuancong Dong
Weigang Hu
Jie Peng
Ekaterina Filimonenko
Sulaiman Almwarai Alharbi
Jianxiao Zhu
Xiaogang Li
Chunjie Li
Jin‐Sheng He
Karl J. Niklas
Yakov Kuzyakov
Jianming Deng
Longwei Dong
Jinzhi Ran
Jiali Luo
Lin Bai
Ying Sun
Muhammad Aqeel
Yahui Zhang
Xiaoting Wang
Qiajun Du
Junlan Xiong
Haiyang Gong
Qingqing Hou
Yan Deng
Rui Xia
Liang Wang
Fan Li
Chuancong Dong
Weigang Hu
Jie Peng
Ekaterina Filimonenko
Sulaiman Almwarai Alharbi
Jianxiao Zhu
Xiaogang Li
Chunjie Li
Jin‐Sheng He
Karl J. Niklas
Yakov Kuzyakov
Jianming Deng
collection Wiley Open Access
contents Inorganic Carbon Pools and Their Drivers in Grassland and Desert Soils Longwei Dong Jinzhi Ran Jiali Luo Lin Bai Ying Sun Muhammad Aqeel Yahui Zhang Xiaoting Wang Qiajun Du Junlan Xiong Haiyang Gong Qingqing Hou Yan Deng Rui Xia Liang Wang Fan Li Chuancong Dong Weigang Hu Jie Peng Ekaterina Filimonenko Sulaiman Almwarai Alharbi Jianxiao Zhu Xiaogang Li Chunjie Li Jin‐Sheng He Karl J. Niklas Yakov Kuzyakov Jianming Deng Global Change Biology ABSTRACTInorganic carbon is an important component of soil carbon stocks, exerting a profound influence on climate change and ecosystem functioning. Drylands account for approximately 80% of the global soil inorganic carbon (SIC) pool within the top 200 cm. Despite its paramount importance, the components of SIC and their contributions to CO2 fluxes have been largely overlooked, resulting in notable gaps in understanding its distribution, composition, and responses to environmental factors across ecosystems, especially in deserts and temperate grasslands. Utilizing a dataset of 6011 samples from 173 sites across 224 million hectares, the data revealed that deserts and grasslands in northwestern China contain 20 ± 2.5 and 5 ± 1.3 petagrams of SIC in the top 100 cm, representing 5.5 and 0.76 times the corresponding soil organic carbon stock, respectively. Pedogenic carbonates (PIC), formed by the dissolution and re‐precipitation of carbonates, dominated in grasslands, accounting for 60% of SIC with an area‐weighted density of 3.4 ± 0.4 kg C m−2 at 0–100 cm depth, while lithogenic carbonates (LIC), inherited from soil parent materials, prevailed in deserts, constituting 55% of SIC with an area‐weighted density of 7.1 ± 1.0 kg C m−2. Soil parent materials and elevation determined the SIC stocks by regulating the formation and loss of LIC in deserts, whereas natural acidification, mainly induced by rhizosphere processes including cation uptake and H+ release as well as precipitation, reduced SIC (mainly by PIC) in grasslands. Overall, the massive SIC pool underscores its irreplaceable role in maintaining the total carbon pool in drylands. This study sheds light on LIC and PIC and highlights the critical impact of natural acidification on SIC loss in grasslands. 10.1111/gcb.17536 http://onlinelibrary.wiley.com/termsAndConditions#vor
doi_str_mv 10.1111/gcb.17536
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id wiley_oa_10_1111_gcb_17536
institution Wiley Open Access
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publisher Wiley
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spellingShingle Inorganic Carbon Pools and Their Drivers in Grassland and Desert Soils
Longwei Dong
Jinzhi Ran
Jiali Luo
Lin Bai
Ying Sun
Muhammad Aqeel
Yahui Zhang
Xiaoting Wang
Qiajun Du
Junlan Xiong
Haiyang Gong
Qingqing Hou
Yan Deng
Rui Xia
Liang Wang
Fan Li
Chuancong Dong
Weigang Hu
Jie Peng
Ekaterina Filimonenko
Sulaiman Almwarai Alharbi
Jianxiao Zhu
Xiaogang Li
Chunjie Li
Jin‐Sheng He
Karl J. Niklas
Yakov Kuzyakov
Jianming Deng
Global Change Biology
Inorganic Carbon Pools and Their Drivers in Grassland and Desert Soils Longwei Dong Jinzhi Ran Jiali Luo Lin Bai Ying Sun Muhammad Aqeel Yahui Zhang Xiaoting Wang Qiajun Du Junlan Xiong Haiyang Gong Qingqing Hou Yan Deng Rui Xia Liang Wang Fan Li Chuancong Dong Weigang Hu Jie Peng Ekaterina Filimonenko Sulaiman Almwarai Alharbi Jianxiao Zhu Xiaogang Li Chunjie Li Jin‐Sheng He Karl J. Niklas Yakov Kuzyakov Jianming Deng Global Change Biology ABSTRACTInorganic carbon is an important component of soil carbon stocks, exerting a profound influence on climate change and ecosystem functioning. Drylands account for approximately 80% of the global soil inorganic carbon (SIC) pool within the top 200 cm. Despite its paramount importance, the components of SIC and their contributions to CO2 fluxes have been largely overlooked, resulting in notable gaps in understanding its distribution, composition, and responses to environmental factors across ecosystems, especially in deserts and temperate grasslands. Utilizing a dataset of 6011 samples from 173 sites across 224 million hectares, the data revealed that deserts and grasslands in northwestern China contain 20 ± 2.5 and 5 ± 1.3 petagrams of SIC in the top 100 cm, representing 5.5 and 0.76 times the corresponding soil organic carbon stock, respectively. Pedogenic carbonates (PIC), formed by the dissolution and re‐precipitation of carbonates, dominated in grasslands, accounting for 60% of SIC with an area‐weighted density of 3.4 ± 0.4 kg C m−2 at 0–100 cm depth, while lithogenic carbonates (LIC), inherited from soil parent materials, prevailed in deserts, constituting 55% of SIC with an area‐weighted density of 7.1 ± 1.0 kg C m−2. Soil parent materials and elevation determined the SIC stocks by regulating the formation and loss of LIC in deserts, whereas natural acidification, mainly induced by rhizosphere processes including cation uptake and H+ release as well as precipitation, reduced SIC (mainly by PIC) in grasslands. Overall, the massive SIC pool underscores its irreplaceable role in maintaining the total carbon pool in drylands. This study sheds light on LIC and PIC and highlights the critical impact of natural acidification on SIC loss in grasslands. 10.1111/gcb.17536 http://onlinelibrary.wiley.com/termsAndConditions#vor
title Inorganic Carbon Pools and Their Drivers in Grassland and Desert Soils
topic Global Change Biology
url https://onlinelibrary.wiley.com/doi/10.1111/gcb.17536