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Rainwater collection and infiltration (RWCI) systems promote deep soil water and organic carbon restoration in water-limited sloping orchards

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  • Song, Xiaolin
  • Wu, Pute
  • Gao, Xiaodong
  • Yao, Jie
  • Zou, Yufeng
  • Zhao, Xining
  • Siddique, Kadambot H.M.
  • Hu, Wei

Abstract

Measures that maximize in situ infiltration and utilization of rainfall are urgently needed on the Loess Plateau to minimize problems associated with drought and soil erosion, and to improve the sustainability of arid and semi-arid agricultural production in this region. Here, we present a two-year field assessment of two rainfall control systems—a rainwater collection and infiltration (RWCI) system and a semi-circular basin (fish-scale pit, FSP)—that could improve soil water storage (SWS) and deep soil organic carbon (SOC) levels in apple (Malus pumila Mill.) orchards on a slope. The RWCI system performed better than the FSP system at conserving and utilizing rainwater resources and conserving rhizosphere soil water to meet the water demand of commercial apple orchards. The RWCI system decreased the soil water storage deficit (WD) and enhanced the SOC content of the root zone due to precipitation, whereas the FSP had little effect. The RWCI system (RWCI60 and RWCI80) significantly increased soil water and SOC contents by 73 % and 81 %, respectively, relative to the control. The design depth of the RWCI system should match the root distribution of adjacent crops to make RWCI a recommended sustainable approach for maximizing the utilization of rainwater resources and the conservation of rhizosphere soil water in standing orchards. This system should help to mitigate the effect of climate change on water scarcity in arid and semi-arid regions, with potential for application in other orchard crops and regions.

Suggested Citation

  • Song, Xiaolin & Wu, Pute & Gao, Xiaodong & Yao, Jie & Zou, Yufeng & Zhao, Xining & Siddique, Kadambot H.M. & Hu, Wei, 2020. "Rainwater collection and infiltration (RWCI) systems promote deep soil water and organic carbon restoration in water-limited sloping orchards," Agricultural Water Management, Elsevier, vol. 242(C).
    • Handle: RePEc:eee:agiwat:v:242:y:2020:i:c:s0378377420314530
    DOI: 10.1016/j.agwat.2020.106400
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    1. Consoli, S. & Stagno, F. & Roccuzzo, G. & Cirelli, G.L. & Intrigliolo, F., 2014. "Sustainable management of limited water resources in a young orange orchard," Agricultural Water Management, Elsevier, vol. 132(C), pages 60-68.
    2. Xining Zhao & Pute Wu, 2013. "Meteorological drought over the Chinese Loess Plateau: 1971–2010," Natural Hazards: Journal of the International Society for the Prevention and Mitigation of Natural Hazards, Springer;International Society for the Prevention and Mitigation of Natural Hazards, vol. 67(2), pages 951-961, June.
    3. Hoanh, Chu Thai & Johnston, Robyn & Smakhtin, Vladimir, 2015. "Climate change and agricultural development: a challenge for water management," Book Chapters,, International Water Management Institute.
    4. Song, Xiaolin & Gao, Xiaodong & Zhao, Xining & Wu, Pute & Dyck, Miles, 2017. "Spatial distribution of soil moisture and fine roots in rain-fed apple orchards employing a Rainwater Collection and Infiltration (RWCI) system on the Loess Plateau of China," Agricultural Water Management, Elsevier, vol. 184(C), pages 170-177.
    5. Gao, Xiaodong & Wu, Pute & Zhao, Xining & Shi, Yinguang & Wang, Jiawen, 2011. "Estimating spatial mean soil water contents of sloping jujube orchards using temporal stability," Agricultural Water Management, Elsevier, vol. 102(1), pages 66-73.
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    Cited by:

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    2. Zhang, Binbin & Hu, Yajin & Hill, Robert Lee & Wu, Shufang & Song, Xiaolin, 2021. "Combined effects of biomaterial amendments and rainwater harvesting on soil moisture, structure and apple roots in a rainfed apple orchard on the Loess Plateau, China," Agricultural Water Management, Elsevier, vol. 248(C).
    3. Zhang, Xiaoyuan & Wang, Ke & Duan, Cuihua & Li, Gaoliang & Zhen, Qing & Zheng, Jiyong, 2023. "Evaporation effect of infiltration hole and its comparison with mulching," Agricultural Water Management, Elsevier, vol. 275(C).
    4. Liao, Yang & Cao, Hong-Xia & Liu, Xing & Li, Huang-Tao & Hu, Qing-Yang & Xue, Wen-Kai, 2021. "By increasing infiltration and reducing evaporation, mulching can improve the soil water environment and apple yield of orchards in semiarid areas," Agricultural Water Management, Elsevier, vol. 253(C).
    5. Zhang, Binbin & Su, Shunshun & Duan, Chenxiao & Feng, Hao & Chau, Henry Wai & He, Jianqiang & Li, Yi & Hill, Robert Lee & Wu, Shufang & Zou, Yufeng, 2022. "Effects of partial organic fertilizer replacement combined with rainwater collection system on soil water, nitrate-nitrogen and apple yield of rainfed apple orchard in the Loess Plateau of China: A 3-," Agricultural Water Management, Elsevier, vol. 260(C).
    6. Sun, Liquan & Zhang, Biao & Yin, Ziming & Guo, Huili & Siddique, Kadambot H.M. & Wu, Shufang & Yang, Jiangtao, 2022. "Assessing the performance of conservation measures for controlling slope runoff and erosion using field scouring experiments," Agricultural Water Management, Elsevier, vol. 259(C).

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