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Long-term straw rather than manure additions improved least limiting water range in a Vertisol

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  • Ruan, Renjie
  • Zhang, Zhongbin
  • Wang, Yuekai
  • Guo, Zichun
  • Zhou, Hu
  • Tu, Renfeng
  • Hua, Keke
  • Wang, Daozhong
  • Peng, Xinhua

Abstract

Least limiting water range (LLWR) is a range in soil water content not limiting root growth, which integrates the effect of soil water retention, aeration, and penetration resistance. This study aimed to assess the effect of different long-term fertilization treatments on LLWR in the surface layer of a Vertisol. Soil samples were taken from six long-term fertilization treatments including no fertilization (Control), inorganic fertilization (NPK), inorganic fertilization plus low amount of straw (NPKLS), inorganic fertilization plus high amount of straw (NPKHS), inorganic fertilization plus pig manure (NPKPM) and inorganic fertilization plus cow manure (NPKCM) for measuring LLWR. Results showed that in comparison with the Control, the manure treatments (NPKPM and NPKCM) increased soil organic carbon content (SOC) more pronounced than the straw treatments (NPKLS and NPKHS). However, the water stable aggregates (WSA0.25) in the manure treatments was much smaller than the straw treatments. Soil water content at field capacity (θFC) was significantly higher in the manure treatments (NPKPM and NPKCM) than the other treatments. However, soil water content at soil penetration resistance of 3 MPa (θPR) was significantly lower in the straw treatments than in the manure treatments. The LLWR in the manure treatments had sharper decline with bulk density than the other treatments. In comparison with the Control and NPK treatments, the straw treatments significantly increased the LLWR, but manure treatments did not, probably resulting from positive relation between SOC and penetration resistance at a given soil water content and less favorable effect of the manures on soil aggregation than the straw. The S index was significantly increased by the NPKCM treatment relative to the Control, and positively correlated with the SOC. The variation of WSA0.25 instead of SOC could explain the change of LLWR under different fertilization treatments effectively. These observations imply that the LLWR could assess the effect of organic fertilizations on soil physical quality more comprehensively.

Suggested Citation

  • Ruan, Renjie & Zhang, Zhongbin & Wang, Yuekai & Guo, Zichun & Zhou, Hu & Tu, Renfeng & Hua, Keke & Wang, Daozhong & Peng, Xinhua, 2022. "Long-term straw rather than manure additions improved least limiting water range in a Vertisol," Agricultural Water Management, Elsevier, vol. 261(C).
  • Handle: RePEc:eee:agiwat:v:261:y:2022:i:c:s0378377421006338
    DOI: 10.1016/j.agwat.2021.107356
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    References listed on IDEAS

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    1. de Moura, Maíse Soares & Silva, Bruno Montoani & Mota, Paula Karen & Borghi, Emerson & Resende, Alvaro Vilela de & Acuña-Guzman, Salvador Francisco & Araújo, Gabriela Soares Santos & da Silva, Lucas d, 2021. "Soil management and diverse crop rotation can mitigate early-stage no-till compaction and improve least limiting water range in a Ferralsol," Agricultural Water Management, Elsevier, vol. 243(C).
    2. Ferreira, Camila Jorge Bernabé & Zotarelli, Lincoln & Tormena, Cássio Antonio & Rens, Libby R. & Rowland, Diane L., 2017. "Effects of water table management on least limiting water range and potato root growth," Agricultural Water Management, Elsevier, vol. 186(C), pages 1-11.
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    4. de Oliveira, Ingrid Nehmi & de Souza, Zigomar Menezes & Lovera, Lenon Henrique & Vieira Farhate, Camila Viana & De Souza Lima, Elizeu & Aguilera Esteban, Diego Alexander & Fracarolli, Juliana Aparecid, 2019. "Least limiting water range as influenced by tillage and cover crop," Agricultural Water Management, Elsevier, vol. 225(C).
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