旱地小麦休闲期深翻覆盖对土壤水分及其利用效率的影响

Effect of deep-plow and mulching during fallow period on soil water and wheat water use efficiency in dryland

  • 摘要: 为充分利用休闲期降水, 提高旱地麦田土壤蓄水保墒能力, 达到"伏雨春用"的目的, 本文将耕作蓄水技术与覆盖保水技术相结合, 采用大田试验研究了从前茬小麦收获后15 d或45 d进行深翻及深翻后采取渗水地膜、液态地膜覆盖对旱地小麦土壤水分及水分利用效率的影响。结果表明: 前茬小麦收获后45 d深翻较15 d深翻可显著提高小麦收获后65 d(休闲期)至316 d(孕穗期)土壤蓄水量、播前120~300 cm各土层土壤蓄水量和小麦水分利用效率。休闲期深翻覆盖可显著提高65 d(休闲期)至316 d(孕穗期)土壤蓄水量及播前0~ 300 cm各土层土壤蓄水量, 显著提高小麦水分利用效率, 且均以渗水地膜覆盖效果最好。此外, 前茬小麦收获后45 d深翻较15 d深翻可显著减小播种至拔节期60~300 cm, 拔节至开花期0~60 cm、120~240 cm, 开花至成熟期180~300 cm土壤水分减少率, 且深翻后采用渗水地膜覆盖对拔节至开花期土壤水分减少率调控效应较大。 总之, 旱地小麦休闲期等雨后深翻有利于提高土壤蓄水量与水分利用效率, 深翻后覆盖有较大的调控效应, 且采用渗水地膜覆盖效果更好。因此, 休闲期等雨后(约7月底或8月初)深翻并立即采用渗水地膜覆盖的技术是旱地麦田休闲期蓄水保墒的新途径, 且此技术可为旱地小麦高产、稳产、高效提供保障。

     

    Abstract: Dryland wheat is very critical in China's wheat production. But as water is a major limiting factor of dryland wheat production, high water use efficiency is an important issue in dryland wheat production. Currently, a significant progress has been made in rainwater harvesting and soil water retention in dryland wheat fields. The deep-plow, sub-soiling and mulching cultivation techniques have been vital water retention practices for increased dryland wheat production. However, precipitation during fallow season, which accounts for about 60% of the annual precipitation, has been largely ignored. Thus this study combined mulching and water retention cultivation technique to use fallow period rainfall, improve soil water retention capacity and ensure adequate soil water for spring wheat cultivation. A field experiment was carried out to study the effects of deep-plow at 15 d (15 DAH) or 45 d (45 DAH) after harvest and the applications of WPM (water permeability plastic film mulching) and LFM (liquid film mulching) immediately after deep-plow on soil water and wheat water use efficiency. The results showed that compared with 15 DAH, deep-plow at 45 DAH significantly improved soil water storage capacity during the 65 d (fallow period) and 316 d (booting stage of next crop of wheat) after harvest, 120 300 cm soil water storage before wheat sowing and also wheat water use efficiency. Deep-plow and mulching during fallow period also significantly improved soil water storage capacity at 65 d and 316 d after harvest, 0 300 cm soil storage capacity before sowing and wheat water use efficiency. Soil moisture condition was best under deep-plow with WPM. Also compared with 15 DAH, deep-plow at 45 DAH significantly reduced soil dry-up rate of 60 300 cm layer during sowing to jointing stage, 0 60 cm and 120 240 cm layer during jointing to anthesis stage, and 180 300 cm layer during anthesis to maturity stage. Soil moisture regulation effect of WPM after deep-plow was best during jointing to anthesis stage. Thus deep-plow after rain in fallow period improved soil water storage and wheat water use efficiency. Soil moisture regulation effect was best under WPM after deep-plow. The study therefore recommended deep-plow and WPM after rainfall during fallow period (about late July to early August), to ensure soil water conservation in dryland wheat fields and to preserve high, stable yields and water use efficiency of dryland wheat.

     

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