Vertical distribution and regulation of Olsen-phosphorus in 6-m soil profiles after farmland-to-apple orchard conversion on the Chinese Loess Plateau
文献类型: 外文期刊
第一作者: Liu, Zhanjun
作者: Liu, Zhanjun;Hou, Liyao;Liu, Zhanjun;Zhu, Yuanjun;Xu, Xinpeng
作者机构:
关键词: Olsen-P; Land use change; Phosphorus leaching; Soil profile; Loess Plateau
期刊名称:CATENA ( 影响因子:5.198; 五年影响因子:5.594 )
ISSN: 0341-8162
年卷期: 2021 年 202 卷
页码:
收录情况: SCI
摘要: Data on the dynamics of Olsen-P in deep soil profiles are crucial for improving P use efficiency but remain scarce worldwide. Hence, we sampled sixty 6-m-deep soil profiles from farmland and in 8-yr, 17-yr, and 25-yr-old apple orchards on China's Loess Plateau, and aimed to investigate the vertical distribution of soil Olsen-P following the farmland-to apple orchard conversion. Land-use change from farmland to apple orchard significantly affected Olsen-P at 0-40 cm soil, with the concentration generally increasing with age of apple orchard. By contrast, Olsen-P at 40-600 cm was not significantly different among the cropping systems. In both farmland and apple orchards, the concentration of Olsen-P decreased at 40-100 cm, compared with that in the 0-40 cm layer, increased with depth from 100 to 400 cm and then stabilized from 400 to 600 cm. The highest accumulation of residual soil Olsen-P in the 6-m profile (RSP0-600) was in the 25-yr orchard, followed by the 17-yr and 8-yr orchards, with the lowest accumulation in farmland. The differences in RSP0-600 cm were primarily associated with RSP0-100 cm, which was significantly positively related to the accumulative application of P fertilizer. The change point in soil Olsen-P against P leaching was 71.2 mg kg(-1), but in farmland and 8-yr, 17-yr, and 25-yr apple orchards, the averaged-depth contents of Olsen-P were all below the critical value, indicating no P leaching risk. Regression analysis revealed that the vertical distribution of soil Olsen-P was regulated by P fertilization at 0-100 cm and by crop roots at 100-600 cm, irrespective of cropping system. The insights gained on Olsen-P accumulation and migration within deep soil profiles after the farmland-to-apple orchard conversion can help to optimize land use and P fertilization management in major apple-producing countries with burgeoning growth in apple production.
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