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Phytolith-rich straw application and groundwater table management over 36 years affect the soil-plant silicon cycle of a paddy field

文献类型：外文期刊

第一作者： Yang, Xiaomin

作者： Yang, Xiaomin;Song, Zhaoliang;Wu, Lele;Qin, Zhilian;Yin, Lichu;Van Zwieten, Lukas;Song, Alin;Ran, Xiangbin;Yu, Changxun;Wang, Hailong;Wang, Hailong

作者机构：

关键词： Straw return; Hydragric Anthrosols; Rice; Phytolith; Silicon bioavailability; Subtropical China

期刊名称：PLANT AND SOIL （影响因子：4.192；五年影响因子：4.712 ）

ISSN： 0032-079X

年卷期： 2020 年 454 卷 1-2 期

页码：

收录情况： SCI

摘要： Background and aims Silicon (Si) deficiency is a major constraint on rice production. The objective of this study was to evaluate the long-term influence of phytolith-rich straw return and groundwater table management on labile Si fractions in paddy soil and subsequent plant Si uptake. Methods A field experiment was conducted over 36 years in subtropical China with different application doses of phytolith-rich straw and a groundwater table of either 20 or 80 cm. An optimized sequential chemical extraction procedure allowed us to determine labile Si fractions, represented by CaCl2-Si, Acetic-Si, H2O2-Si, Oxalate-Si, and Na2CO3-Si. Additional analyses included the determination of amorphous silica particles in soil, phytoliths in supplied straw, Si in planted rice straw, and the dissolution rate of phytoliths extracted from supplied straw. Results Long-term application of phytolith-rich straw significantly increased the H2O2-Si and Na2CO3-Si contents. The CaCl2-Si (5.21-7.91 mg kg(- 1)), H2O2-Si (50.0-72.4 mg kg(- 1)) and Na2CO3-Si (3.33-4.60 g kg(- 1)) contents were positively correlated with soil organic carbon. The Si content (13.6-28.9 g kg(-& x200d;1)) in planted rice straw significantly (p < 0.05) increased with the application dose of phytolith-rich straw under both groundwater tables. This effect was significantly (p < 0.05) greater under 80 cm groundwater table than under 20 cm groundwater table for matching straw amendments. Conclusions This study indicates that long-term application of phytolith-rich straw and groundwater management significantly increase soil Si bioavailability by promoting accumulation of organic matter and phytoliths, and enhancing the soil-plant Si cycle.

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