Effects of land use on soil microbial community structure and diversity in the Yellow River floodplain

doi:10.1093/jpe/rtac075

J Plant Ecol ›› 2023, Vol. 16 ›› Issue (1): rtac075.DOI: 10.1093/jpe/rtac075

• Research Articles •

Effects of land use on soil microbial community structure and diversity in the Yellow River floodplain

Xiongde Dong^1,2,†, Leyun Yang^3,†, Laura Sofie Harbo^4,5,6, Xinyu Yan^1,2, Ji Chen^5,6,7, Cancan Zhao¹, Yutong Xiao^1,2, Hao Liu^1,2, Shilin Wang^1,2, Yuan Miao^1,2,
*, Dong Wang^1,* and Shijie Han^1,2,*

¹International Joint Research Laboratory for Global Change Ecology, School of Life Sciences, Henan University, Kaifeng, Henan 475004, China,²Yellow River Floodplain Ecosystems Research Station, Henan University, Xingyang 450100, China, ³ College of Animal Science and Technology, Henan University of Science and Technology, Luoyang, Henan 471023, China, ⁴ Sino-Danish Center for Education and Research (SDC), University of Chinese Academy of Sciences, Beijing 101408, China, ⁵ Department of Agroecology, Aarhus University, Blichers Allé 20, 8830 Tjele, Denmark, ⁶iCLIMATE Interdisciplinary Centre for Climate Change, Aarhus University, 4000 Roskilde, Denmark, ⁷Aarhus University Centre for Circular Bioeconomy, Aarhus University, 8830 Tjele, Denmark

^*Corresponding author. E-mail: miaoyuan0921@126.com (Y.M.); wangdong19882005@163.com (D.W.); hansj@iae.ac.cn (S.H.)
^† These authors contributed equally to this work.

Received:2021-12-13 Revised:2022-02-13 Accepted:2022-06-30 Online:2022-07-26 Published:2023-02-01

Abstract

Abstract:

Soil microorganisms and their diversity are important bioindicators of soil carbon and nutrient cycling. Land use type is a major determining factor that influences soil microbial community composition in floodplain ecosystems. However, how the structure and diversity of soil microbial communities respond to specific changes in land use, as well as the main drivers of these changes, are still unclear. This study was conducted in the Yellow River floodplain to examine the effects of land use type on soil microbial communities. Four land use types (shrubland, farmland, grassland and forest) were selected, wherein shrubland served as the baseline. We measured soil microbial structure and diversity using phospholipid fatty acids (PLFAs). Land use type significantly affected total, bacterial and fungal PLFAs, and the gram-positive/negative bacterial PLFAs. Compared with shrubland, peanut farmland had higher total and bacterial PLFAs and forest had higher fungal PLFAs. Soil pH and phosphorus were the predominate drivers of microbial PLFAs, explaining 37% and 26% of the variability, respectively. Soil total nitrogen and nitrate nitrogen were the main factors increasing microbial community diversity. Peanut farmland had the highest soil carbon content, soil carbon stock, total PLFAs and microbial diversity, suggesting that farmland has great potential as a carbon sink. Our findings indicated that peanut farmland in the Yellow River floodplain is critical for maintaining soil microbial communities and soil carbon sequestration.

Key words: bacteria, fungi, Yellow River floodplain, microbial community diversity, soil carbon stock, land use type

摘要：
土地利用方式对黄河漫滩土壤微生物群落结构和多样性的影响
土壤微生物群落及其多样性是土壤碳和养分循环的重要生物指标。土地利用变化是影响漫滩生态系统土壤微生物群落组成的主要决定因素。然而，土壤微生物群落的结构和多样性如何响应土地利用变化，以及这些变化的主要驱动因素是什么，仍不清楚。本研究在黄河漫滩进行，以检验土地利用变化对土壤微生物群落的影响。选取了4种土地利用类型(灌丛、农田、草地和森林)，其中以灌木地为对照，用磷脂脂肪酸测量了土壤微生物组成和多样性。研究结果表明，土地利用变化显著影响了总细菌、真菌和革兰氏阳性/阴性细菌。与灌丛相比，农田的总磷脂脂肪酸和细菌较高，森林的真菌较高。土壤pH值和全磷是微生物组成的最佳预测因子，分别解释了37%和26%的变异性。土壤全氮和硝态氮是影响微生物多样性的主要因素。花生农田的土壤碳含量、土壤碳储量、磷脂脂肪酸总量和微生物多样性最高，表明漫滩具有巨大的碳汇潜力。这些研究结果表明，黄河漫滩的农田对于维持土壤微生物群落和土壤碳固存至关重要。

关键词: 细菌, 真菌, 黄河漫滩, 微生物多样性, 土壤碳储量, 土地利用类型

Xiongde Dong, Leyun Yang, Laura Sofie Harbo, Xinyu Yan, Ji Chen, Cancan Zhao, Yutong Xiao, Hao Liu, Shilin Wang, Yuan Miao, Dong Wang and Shijie Han. Effects of land use on soil microbial community structure and diversity in the Yellow River floodplain[J]. J Plant Ecol, 2023, 16(1): 0-.

[1]	Wei Wang, Xiaodan Sun, Wenhao Huang, Xiaoting Men, Shijie Yi, Fengrong Zheng, Zhaohui Zhang, Zongling Wang. Soil P solubilization and plant growth promotion by a saline-alkali-tolerant P-solubilizing bacterium, Bacillus sp. DYS211 [J]. J Plant Ecol, 2023, 16(6): 0-rtad028.
[2]	Zuodong Zhu, Yue He, Jiahui Xu, Zhenghu Zhou, Amit Kumar, Zhichao Xia. Effects of pesticide application and plant sexual identity on leaf physiological traits and phyllosphere bacterial communities [J]. J Plant Ecol, 2023, 16(2): 0-rtac084.
[3]	Ling-Ling Wang, Qing-Qiu Zhou, Wen-Hua Su, Yun-Jian Xu, Qin-Dong Qian, Xiong Yang, De-Yun Chen, Zhe Chen and Jian-Ping Wu. Responses of fungal community to forest fire are species-specific in Yunnan Plateau, southwest China [J]. J Plant Ecol, 2023, 16(1): 0-.
[4]	Muhammad Ahsan Asghar, Bushra Ahmad, Ali Raza, Bilal Adil, Hafz Hassan Javed, Muhammad Umer Farooq, Abuzar Ghafoor, Muhammad Iftikhar Hussain, Iram Shafq, Hassan Karim, Xin Sun, Wenyu Yang, Gábor Kocsy and Junbo Du. Shade and microbes enhance drought stress tolerance in plants by inducing phytohormones at molecular levels: a review [J]. J Plant Ecol, 2022, 15(6): 1107-1117.
[5]	Qiang Guo, Ruo-Hui Zhang, Xue-Li Li, Xiao-Wei Liu, Ya-Nan Li and Fu Xing. Nitrogen addition overrides the effects of Stellera chamaejasme litter on the growth of Leymus chinensis and its associated mycorrhizal fungi [J]. J Plant Ecol, 2022, 15(5): 1007-1020.
[6]	Qiushi Ning, Liangchao Jiang, Ruzhen Wang, Jing Wang, Xingguo Han and Junjie Yang. Greater soil microbial biomass loss at low frequency of N addition in an Inner Mongolia grassland [J]. J Plant Ecol, 2022, 15(4): 721-732.
[7]	Lingjie Kong, Xue Chen, Ellen Heininger Yerger, Qiao Li, Fengxin Chen, Haiyun Xu and Fengjuan Zhang. Arbuscular mycorrhizal fungi enhance the growth of the exotic species Ambrosia artemisiifolia [J]. J Plant Ecol, 2022, 15(3): 581-595.
[8]	Wei-Tao Li, Yu-Long Zheng, Rui-Fang Wang, Zheng-Ying Wang, Yan-Mei Liu, Xiong Shi, Zhi-Yong Liao, Yang-Ping Li and Yu-Long Feng. Shifts in chemical and microbiological properties belowground of invader Ageratina adenophora along an altitudinal gradient [J]. J Plant Ecol, 2022, 15(3): 561-570.
[9]	Yun Guo, Yuejun He, Pan Wu, Bangli Wu, Yan Lin, Minhong He, Xu Han, Tingting Xia, Kaiping Shen, Liling Kang, Qiyu Tan, Wenda Ren, Yan Sun and Qing Li. The interspecific competition presents greater nutrient facilitation compared with intraspecific competition through AM fungi interacting with litter for two host plants in karst soil [J]. J Plant Ecol, 2022, 15(2): 399-412.
[10]	Yumei Pan, Zhongyuan Yao, Naili Zhang and G. F. (Ciska) Veen. The role of soil-borne fungi in driving the coexistence of Pinus massoniana and Lithocarpus glaber in a subtropical forest via plant–soil feedback [J]. J Plant Ecol, 2021, 14(6): 1189-1203.
[11]	Xi Luo, Loralee Larios, Carla D’Antonio, Xiaohong Xu and Hui Guo. An invading annual plant benefits less from soil biota and has reduced competitive power with a resident grass [J]. J Plant Ecol, 2021, 14(5): 945-958.
[12]	Yang Yu, Lang Zheng, Yijun Zhou, Weiguo Sang, Jianing Zhao, Lu Liu, Chao Li and Chunwang Xiao. Changes in soil microbial community structure and function following degradation in a temperate grassland [J]. J Plant Ecol, 2021, 14(3): 384-397.
[13]	Nannan Wang, Lei Li, Bingwei Zhang, Shiping Chen, Wei Sun, Yukun Luo, Kuanhu Dong, Xingguo Han, Jianhui Huang, Xiaofeng Xu and Changhui Wang. Population turnover promotes fungal stability in a semi-arid grassland under precipitation shifts [J]. J Plant Ecol, 2020, 13(4): 499-509.
[14]	Wei He and Wanqin Yang. Loss of total phenols from leaf litter of two shrub species: dual responses to alpine forest gap disturbance during winter and the growing season [J]. J Plant Ecol, 2020, 13(3): 369-377.
[15]	Marcia González-Teuber, Alejandro Urzúa, Andrea Morales, Cristian Ibá?ez and Luisa Bascu?án-Godoy. Benefits of a root fungal endophyte on physiological processes and growth of the vulnerable legume tree Prosopis chilensis (Fabaceae) [J]. J Plant Ecol, 2019, 12(2): 264-271.

Effects of land use on soil microbial community structure and diversity in the Yellow River floodplain

HTML

PDF

Knowledge

Cited

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments