Abstract

Water shortage and excessive chemical fertilizers application result in low soil water and nutrient availability and limit crop production in the Loess Plateau of Northwest China. Ammoniated straw incorporation with N fertilization may be an efficient strategy to maintain agricultural sustainability. However, the interactive effects of straw incorporation and N fertilizer on the biomass water use efficiency (WUE) in the winter wheat–summer maize rotation system remain unclear. A 3-year field experiment was conducted to evaluate the effects of combining ammoniated straw incorporation and N fertilizer on soil water, biomass yield and biomass water use efficiency (WUE) in an annual summer maize (Zea mays L.)—Winter wheat (Triticum aestivum L.) rotation system. There were three treatments: (i) long straw (5 cm) mulching with N fertilizer (CK), (ii) long straw with N fertilizer plowed into the soil (LP), and (iii) ammoniated long straw with N fertilizer plowed into the soil (ALP). Compared with the CK treatment, LP and ALP led to a similar soil water storage capacity. ALP improved summer maize biomass yield and winter wheat biomass yield at the jointing-maturity stage. ALP improved summer maize WUE at the ten-leaf collar-tasseling stage and winter wheat WUE from the tillering stage to the maturity stage. Also, the ALP treatment increased the total water use efficiency (TWUE) of winter wheat by 4.1–22.0%. Overall, ammoniated straw incorporation produced the most favorable biomass yield and WUE in the summer maize—Winter wheat rotation system in the Loess Plateau of China.

Highlights

  • Water shortage is one of the urgent global problems that threaten the development of sustainable agriculture and long-term food security [1]

  • At the ten-leaf collar stage, the LP and ALP treatment compared with the CK treatment decreased soil water storage by 7.2% and 5.5% in 2012, respectively

  • LP indicates long straw with N fertilizer plowed into the soil

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Summary

Introduction

Water shortage is one of the urgent global problems that threaten the development of sustainable agriculture and long-term food security [1]. Water shortage and excessive chemical fertilizers application have caused soil degradation, resulting in low soil water and nutrient availability and limiting the agricultural production in this region [2,3]. Straw incorporation can reduce the application of mineral fertilizers [9], improve soil biophysical properties [10] and soil water [11], reduce nutrient losses from run-off and leaching [12,13,14], and support sustainable crop production in cropping systems [15]. Straw incorporation has been widespread in the winter wheat–summer maize double-cropping system in northwest China

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