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Responses of soil greenhouse gas emissions to land use conversion and reversion—A global meta‐analysis

Zhaohui Feng, Lingqing Wang, Xiaoming Wan, Jun Yang, Qin Peng, Tao Liang, Yazhu Wang, Buqing Zhong, Jörg Rinklebe

2022Global Change Biology45 citationsDOI

Abstract

Abstract Exploring the responses of greenhouse gas (GHG) emissions to land use conversion or reversion is significant for taking effective land use measures to alleviate global warming. A global meta‐analysis was conducted to analyze the responses of carbon dioxide (CO 2 ), methane (CH 4 ), and nitrous oxide (N 2 O) emissions to land use conversion or reversion, and determine their temporal evolution, driving factors, and potential mechanisms. Our results showed that CH 4 and N 2 O responded positively to land use conversion while CO 2 responded negatively to the changes from natural herb and secondary forest to plantation. By comparison, CH 4 responded negatively to land use reversion and N 2 O also showed negative response to the reversion from agricultural land to forest. The conversion of land use weakened the function of natural forest and grassland as CH 4 sink and the artificial nitrogen (N) addition for plantation increased N source for N 2 O release from soil, while the reversion of land use could alleviate them to some degree. Besides, soil carbon would impact CO 2 emission for a long time after land use conversion, and secondary forest reached the CH 4 uptake level similar to that of primary forest after over 40 years. N 2 O responses had negative relationships with time interval under the conversions from forest to plantation, secondary forest, and pasture. In addition, meta‐regression indicated that CH 4 had correlations with several environmental variables, and carbon–nitrogen ratio had contrary relationships with N 2 O emission responses to land use conversion and reversion. And the importance of driving factors displayed that CO 2 , CH 4 , and N 2 O response to land use conversion and reversion was easily affected by NH 4 + and soil moisture, mean annual temperature and NO 3 − , total nitrogen and mean annual temperature, respectively. This study would provide enlightenments for scientific land management and reduction of GHG emissions.

Topics & Concepts

Environmental scienceGreenhouse gasLand use, land-use change and forestryNitrous oxideLand useMethaneCarbon dioxideEcologyBiologyFire effects on ecosystemsSoil Carbon and Nitrogen DynamicsAtmospheric and Environmental Gas Dynamics
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