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Soil water and salinity dynamics under the improved drip-irrigation scheduling for ecological restoration in the saline area of Yellow River basin

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  • Dong, Shide
  • Wang, Guangmei
  • Kang, Yaohu
  • Ma, Qian
  • Wan, Shuqin

Abstract

The drip-irrigation scheduled by different soil matric potential (SMP) thresholds at different stages according to soil water and salt management purposes was usually adopted for revegetation in saline-alkali land. To reveal the desalinization mechanism of this multi-stage drip-irrigation scheduling, a 3-year field trial, adopting this method for revegetation, was conducted in an arid saline area. The trial consisted of 5 irrigation treatments marked S1-S5, with their SMP that monitored directly under drip emitter at 0.2 m depth correspondingly controlled higher than − 5, − 10, − 15, − 20 and − 25kPa. Results showed the SMP threshold of − 5kPa during the unified irrigation stage induced a leaching fraction (LF) of 42.6% and a minimum recharge amount (MRA) from groundwater of zero, thus resulting the relative desalinization rate (RDR) of 91.8% in 0–120 cm soil layer. When treatment applied, the average electrical conductivity of the saturated soil extracts (ECe) in 0–40 cm among three growing seasons in S1-S5 treatments linearly increased from 0.90 to 1.73dS/m as SMP threshold decreased from − 5 to − 25kPa, resulting from the LF correspondingly decreasing from 18.4% to 2.5% and the MRA increasing from 0 to 21.4 mm. The inter-annual salt dynamic indicated a salt equilibrium state was formed in 80–120 cm soil layer when the SMP threshold was set higher than − 10kPa and that was formed in 40–80 cm soil layer if the SMP threshold was set between − 20 and − 15kPa. This study found the SMP threshold controlled the LF and MRA, and eventually determined the dynamics of soil salinity, which explained the efficient desalinization mechanism under the multi-stage drip-irrigation scheduling. A key SMP threshold of − 5kPa for rapid soil leaching stage and that of − 20kPa for precise salt regulating stage were recommended for vegetation construction in the low-lying saline area.

Suggested Citation

  • Dong, Shide & Wang, Guangmei & Kang, Yaohu & Ma, Qian & Wan, Shuqin, 2022. "Soil water and salinity dynamics under the improved drip-irrigation scheduling for ecological restoration in the saline area of Yellow River basin," Agricultural Water Management, Elsevier, vol. 264(C).
    • Handle: RePEc:eee:agiwat:v:264:y:2022:i:c:s0378377421005321
    DOI: 10.1016/j.agwat.2021.107255
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    3. Feng, Di & Ning, Songrui & Sun, Xiaoan & Zhang, Jingmin & Zhu, Haiyan & Tang, Jingchun & Xu, Youxin, 2023. "Agricultural use of deserted saline land through an optimized drip irrigation system with mild salinized water," Agricultural Water Management, Elsevier, vol. 281(C).
    4. Konstantina Fotia & George Nanos & Pantelis Barouchas & Markos Giannelos & Aikaterini Linardi & Aikaterini Vallianatou & Paraskevi Mpeza & Ioannis Tsirogiannis, 2022. "Growth Development, Physiological Status and Water Footprint Assessment of Nursery Young Olive Trees ( Olea europaea L. ‘Konservolea’) Irrigated with Urban Treated Wastewater," Resources, MDPI, vol. 11(5), pages 1-14, April.

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