Plastic shed production intensified secondary soil salinization in perennial fruit production systems

Secondary soil salinization is a common problem in intense agroecosystems such as the plastic shed production (PSP) systems. Understanding the dynamic changes of soil salinity and its negative impacts on crop nutrition is essential for management of PSP systems. In this study, 96 plastic shed orchar...

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Bibliographic Details
Published in:Agriculture, ecosystems & environment ecosystems & environment, 2021-08, Vol.316, p.107469, Article 107469
Main Authors: Fan, Ya’nan, Zhang, Yanxia, Wan, Mengxue, Hu, Wenyou, Chen, Zhikun, Huang, Biao
Format: Article
Language:English
Subjects:
Agricultural management
Fertilization
Leaf nutrients
Plastic shed orchard
Secondary soil salinization
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Summary:Secondary soil salinization is a common problem in intense agroecosystems such as the plastic shed production (PSP) systems. Understanding the dynamic changes of soil salinity and its negative impacts on crop nutrition is essential for management of PSP systems. In this study, 96 plastic shed orchards were chosen to investigate the impact of long-term PSP on soil salinization in a perennial fruit production county in Shaanxi Province, West China. The following results were obtained by comprehensively analyzing the profile distribution, spatiotemporal distribution, and the composition of soil salinity in PSP systems. Compared with the cereal and natural soil, PSP soil had significantly higher soil nutrients in addition to lower soil pH and greater soil electrical conductivity (EC) values. Soil EC had significant positive correlations with the total soluble salt (TSS) and sodium adsorption ratio in PSP soil profiles (p < 0.01). Thus, the high EC value (1082.2 ± 1200μScm−1) of PSP soil indicated high soil salinity content and Na+ concentration in the soil solution in the study area. The average content of TSSs in the topsoil of the soil profiles in PSP systems reached 2.23 g kg−1, indicating moderate salinization (2 g kg−1 ≤TSS
ISSN:0167-8809
1873-2305
DOI:10.1016/j.agee.2021.107469