Pedosphere 34(6): 993--1001, 2024
ISSN 1002-0160/CN 32-1315/P
©2024 Soil Science Society of China
Published by Elsevier B.V. and Science Press
| Biological nitrogen fixation in paddy soils is driven by multiple edaphic factors and available phosphorus is the greatest contributor |
Tianlong HU1,2, Yanhui ZHANG1,2, Hui WANG1,2, Haiyang JIN1,2, Benjuan LIU1,2, Zhibin LIN1,2, Jing MA1,2, Xiaojie WANG1,5, Qi LIU1,3, Hongtao LIU1,2, Zhe CHEN1,2, Rong ZHOU1,2, Penghui JIN1,2, Jianguo ZHU1, Gang LIU1, Qicheng BEI1,4, Xingwu LIN1, Zubin XIE1 |
1 State Key Laboratory of Soil and Sustainable Agriculture, Institute of Soil Science, Chinese Academy of Sciences, Nanjing 210008 (China)
2 University of Chinese Academy of Sciences, Beijing 100049 (China)
3 Co-Innovation Center for Sustainable Forestry in Southern China, Nanjing Forestry University, Nanjing 210037 (China)
4 Department of Soil Ecology, Helmholtz Centre for Environmental Research-UFZ, Halle (Saale) 06120 (Germany)
5 School of Environment and Safety Engineering, Nanjing Polytechnic Institute, Nanjing 210048 (China) |
| ABSTRACT |
| Biological nitrogen (N) fixation (BNF) is important for sustainable rice cultivation. Various edaphic factors have been individually evaluated for their effects on BNF in paddy soils. However, no single factor could fully explain the different soil outcomes. Paddy BNF is more likely to be simultaneously influenced to various degrees by combinations of several edaphic factors; however, the relative importance of the interaction of multiple edaphic factors on the regulation of BNF in paddy soils is still unclear. Twenty-seven paddy soil samples with different soil properties were collected from the major rice cropping areas in Southwest and Northeast China to determine the edaphic factors affecting paddy BNF amount. Rice was transplanted into pots filled with paddy soils and grown in a 15N2-enriched airtight chamber. Estimation of BNF was based on the measurements of 15N enrichment in the paddy soils and rice plants at the end of a 77-d incubation period. The BNF amounts ranged from 0.66 to 12.3 kg ha-1, with a significant positive relationship with available phosphorus (AP) and significant quadratic relationships with available molybdenum (AMo) and total N (TN). Available P explained 42% of the observed variation in BNF, TN explained 17%, and AMo explained 13%. The specific interaction between soil cation exchange capacity and available soil N (as determined by rice N uptake) accounted for 28% of the variation in BNF. The BNF amount was decreased when AP was < 14 mg kg-1, AMo < 0.09 mg kg-1, or TN was > 3.2 g kg-1. These results provide valuable benchmarks that could be used to guide farmers in managing paddy soils to improve the potential contribution of paddy BNF to soil fertility. |
| Key Words: available molybdenum,available soil nitrogen,influencing factors,multiplicative effect,rice field,soil fertility |
| Citation: Hu T L, Zhang Y H, Wang H, Jin H Y, Liu B J, Lin Z B, Ma J, Wang X J, Liu Q, Liu H T, Chen Z, Zhou R, Jin P H, Zhu J G, Liu G, Bei Q C, Lin X W, Xie Z B. 2024. Biological nitrogen fixation in paddy soils is driven by multiple edaphic factors and available phosphorus is the greatest contributor. Pedosphere. 34(6): 993-1001. |
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