Stimulation of methane production potential and alteration in community composition of methanogens following conversion of China’s coastal marshes to paddy fields

IF 5.4 1区 农林科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Catena Pub Date : 2024-09-28 DOI:10.1016/j.catena.2024.108428
Xiaochen Yao , Weiqi Wang , Yuling Yang , Wangting Yang , Qinan Hu , Jinghao Jin , Jiaqi Liu , Yuchao Wang , Lidong Shen
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Abstract

Conversion of coastal marshes to paddy fields can significantly affect methane (CH4) emissions. However, how such land conversion impacts methanogenesis, a key microbial process regulating CH4 emissions, is poorly known. This investigation adopted a space-for-time substitution method to compare soil methane production potential (MPP), abundance and community composition of methanogenic archaea between marsh land (covered by Kandelia candek, Phragmites australis, or Bruguiera sexangula) and nearby paddy fields in six different regions along the coast of China. Linear mixed-effects models showed that the conversion of salt marshes to paddy fields resulted in significant increases in overall MPP and abundance of methanogenic archaea by 343 % and 346 % in average, respectively. A significant variation in the community composition of methanogenic archaea was observed between marsh land and paddy fields, with the dominant genera shifting from Methanolobus (32.1 %) and Methanosarcina (27.3 %) to Methanobacterium (49.0 %). Partial least squares path model showed that the change of MPP was primarily driven by abundance of methanogenic archaea, and the abundance was affected by alterations in soil physicochemical properties (e.g., organic carbon content, NH4+ content, and salinity) and community composition of methanogenic archaea caused by land conversion. Moreover, both MPP and abundance of methanogenic archaea were significantly correlated with the conversion years. Collectively, this study was the first to show the dynamic response of MPP and community of methanogenic archaea to the conversion of coastal marshes to paddy fields, thereby enhancing our understanding of land conversion’s impact on CH4 cycling and the underlying mechanism.

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中国沿海沼泽地转为水田后甲烷生产潜力的激发和甲烷菌群落组成的改变
将沿海沼泽地改造成水田会极大地影响甲烷(CH4)的排放。然而,人们对这种土地转换如何影响甲烷生成这一调节 CH4 排放的关键微生物过程知之甚少。本研究采用空间-时间替代法,比较了中国沿海六个不同地区的沼泽地(由 Kandelia candek、Phragmites australis 或 Bruguiera sexangula 覆盖)和附近水田的土壤甲烷生产潜力(MPP)、产甲烷古菌的丰度和群落组成。线性混合效应模型显示,盐碱地转为水田后,总体甲烷发生率和甲烷古菌丰度分别显著增加了 343% 和 346%。在沼泽地和水田之间观察到的甲烷古菌群落组成存在明显差异,优势菌属从甲醇杆菌(32.1%)和甲烷弧菌(27.3%)转变为甲烷杆菌(49.0%)。偏最小二乘法路径模型表明,MPP 的变化主要受产甲烷古菌丰度的驱动,而产甲烷古菌丰度受土地转换引起的土壤理化性质(如有机碳含量、NH4+ 含量和盐度)和产甲烷古菌群落组成变化的影响。此外,MPP 和产甲烷古菌的丰度都与土地转换年份有显著相关性。总之,该研究首次显示了MPP和甲烷古菌群落对沿海沼泽地向水田转化的动态响应,从而加深了我们对土地转化对CH4循环的影响及其内在机制的理解。
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来源期刊
Catena
Catena 环境科学-地球科学综合
CiteScore
10.50
自引率
9.70%
发文量
816
审稿时长
54 days
期刊介绍: Catena publishes papers describing original field and laboratory investigations and reviews on geoecology and landscape evolution with emphasis on interdisciplinary aspects of soil science, hydrology and geomorphology. It aims to disseminate new knowledge and foster better understanding of the physical environment, of evolutionary sequences that have resulted in past and current landscapes, and of the natural processes that are likely to determine the fate of our terrestrial environment. Papers within any one of the above topics are welcome provided they are of sufficiently wide interest and relevance.
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