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- Title
Tillage practices improve rice yield and soil phosphorus fractions in two typical paddy soils.
- Authors
Ahmed, Waqas; Qaswar, Muhammad; Jing, Huang; Wenjun, Dong; Geng, Sun; Kailou, Liu; Ying, Meng; Ao, Tang; Mei, Sun; Chao, Li; Yongmei, Xu; Ali, Sehrish; Normatov, Yodgar; Mehmood, Sajid; Khan, Muhammad Numan; Huimin, Zhang
- Abstract
Purpose: This research was undertaken (I) to evaluate the status of phosphorus fractions in paddy soils in response to different tillage management practices under different rice-based cropping systems and environments in order to better understand phosphorus behavior in paddy soils and (II) to assess the effects of various tillage practices on crop yield in different soil types and climatic conditions. Materials and methods: We selected four tillage treatments, i.e., conventional tillage (T1), conventional tillage with straw return (T2), rotary tillage with straw return (T3), and no-tillage with straw return and autumn plowing with straw return (T4) at Ningxiang and Haerbin, respectively. Soil samples were collected from 20 cm depth, and we investigated soil pH, total P, Olsen P, SOM content, phosphatase activities, phosphorus fractions, and grain yield at the two experimental sites. Results and discussion: The results showed that the T4 tillage system led to significantly higher soil organic matter (SOM) content, total P, and Olsen P concentrations at both sites compared with T1. Regardless of the tillage system, the average rice grain yield at Haerbin was 50.3% greater than that at Ningxiang. Phosphomonoesterase (AcP) and phosphodiesterase (DP) enzyme activities were significantly higher, by 39.8% and 62.1% and by 40.3% and 54.6%, under T4 compared to under T1 at Haerbin and Ningxiang, respectively. The organic and inorganic fractions of P were significantly affected by the different tillage systems. Labile and moderately labile P pools were 29.3% and 19.2% higher in Ningxiang and 64.7% and 33.8% higher in Haerbin under T4 compared to T1, and the non-labile P pools were 10.6% and 18.5% lower, respectively. The labile and moderately labile organic P fractions and phosphatase activities showed a significant correlation with SOM and total P concentrations in RDA analysis. Variance partitioning analysis (VPA) showed that different soil properties, climate factors, phosphatase activities, and their interactions were responsible for 7.1%, 6.8%, 1.3%, and 53.7%, respectively, of the variation in grain yield. Conclusions: Different tillage management practices revealed varied effects at both sites for grain yield, P fractions, and phosphatase activities. Tillage management and climatic variations could be the driving factors that influence grain yield in northern and southern parts of China.
- Subjects
CHINA; PHOSPHORUS in soils; TILLAGE; HUMUS; RICE yields; SOILS; CLIMATE change
- Publication
Journal of Soils & Sediments: Protection, Risk Assessment, & Remediation, 2020, Vol 20, Issue 2, p850
- ISSN
1439-0108
- Publication type
Article
- DOI
10.1007/s11368-019-02468-3