秸秆覆盖时间和覆盖量对冬小麦田温度效应及地上地下生长的影响

Effects of amount and time of straw mulching on soil temperature, root growth and yield of winter wheat

  • 摘要: 为探明华北平原灌溉条件下秸秆覆盖的土壤温度效应对冬小麦根系和籽粒产量的影响,利用大田试验研究了不同秸秆覆盖时间和覆盖量处理对冬小麦土壤温度、根系和籽粒产量的影响。试验设冬小麦播种后覆盖和三叶期覆盖,覆盖量设上茬作物(夏玉米)秸秆全量覆盖(HM)、1/2量覆盖(MM)、1/3量覆盖(LM)和不覆盖(CK)。结果表明:1)与不覆盖(CK)相比,播种后覆盖和三叶期覆盖冬小麦产量分别降低8.6%和2.0%,播种后覆盖减产幅度大于三叶期覆盖;播种后减产是由于小麦千粒重比CK降低4.1%、穗粒数降低6.6%和收获指数降低2.4%,三叶期覆盖减产的原因是收获时有效穗数比CK降低5.8%造成。播种后覆盖处理中随着覆盖量的增加千粒重、有效穗数、收获指数显著降低,三叶期覆盖处理的产量构成没有显著差异。2)秸秆覆盖对小麦分蘖期和越冬期(冬季)土壤温度具有提升作用。覆盖处理日均温平均比CK提高0.56℃;小麦返青期后随着气温的升高,秸秆覆盖具有降温作用。冬季秸秆覆盖提升土壤温度的贡献主要是提升了夜间土壤温度,返青后降温的作用是降低白天的土壤温度;冬季随覆盖量增加增温效应增大,返青后随着覆盖量的增加降温效应增加,各覆盖处理间的土壤温度差异不显著。3)秸秆覆盖促进了冬季冬小麦根系生长,秸秆覆盖处理的根长密度大于CK;返青后秸秆覆盖减弱了根系生长,至扬花期随小麦冠层覆盖度增加,秸秆覆盖与CK的根长密度差异减小。由于小麦分蘖期和越冬期土壤温度高于CK,根系生长快于CK,消耗了更多的土壤氮,造成返青-拔节期土壤全氮含量低于CK。因此,华北平原冬小麦-夏玉米一年两熟灌溉区,为了降低秸秆覆盖对冬小麦产量的不利作用,秸秆覆盖应在三叶期后实施,覆盖量采用上茬玉米秸秆产量的1/3~1/2,其余秸秆可以用于畜牧业饲料。

     

    Abstract: In order to take full advantages of straw mulching and improve straw mulching benefits, the effects of different straw mulching practices on soil temperature, root growth and yield of winter wheat under irrigation condition in a typical site was explored through a field experiment with different straw mulching times and amounts in the North China Plain. Times of straw mulching included immediately after planting and after three leaves of winter wheat. The amounts of straw included total straw yield, 1/2 straw yield and 1/3 straw yield of preceding summer maize, and no mulching as the control (CK). The results showed that:1) compared with CK, the winter wheat yield of mulching after planting and after three leaves was reduced by 8.6% and 2.0%, respectively. The yield decrease for the treatment of mulching after planting was more than that of mulching after three leaves for winter wheat. The reason for yield reduction of mulching after planting was decreases in 1000-seed weight, kernel numbers per spike and harvest index, which were 4.1%, 6.6% and 2.4%, respectively. The reason for yield reduction of mulching after three leaves was the decrease in spike numbers per area, which was 5.8%. 2) Straw mulching significantly affected soil temperature at the earlier growth stages of winter wheat. The straw mulching increased mean daily soil temperature averagely by 0.56℃ at tillering and overwintering stages. Straw mulching decreased soil temperature, compared with CK, after regreening stage of winter wheat. The contribution of straw mulching to soil temperature increase in winter was mainly due to the increase in night soil temperature, while the cooling effects after regreening stage was due to reduction in daytime soil temperature. The temperature increasing/decreasing effects of straw mulching were enhanced with straw amount increase though no significant differences among different straw amounts treatments were observed. 3) Root growth of winter wheat was improved under straw mulching due to the higher soil temperature. The root length density (RLD) under straw mulching treatment was higher than that under CK before regreening stage, after that RLD was reduced due to lower soil temperature under straw mulching as compared with CK. At flowering stage, with the increase of canopy coverage, the effects of straw mulching on soil temperature was weakened or disappeared, resulting in similar RLD among treatments. Higher soil temperature at tillering and wintering stages and larger root system under straw mulching induced higher consumption of soil nitrogen of winter wheat, which lead to lower soil nitrogen content at regreening to jointing stages under straw mulch treatments. In conclusion, straw mulching at three leaves stage of winter wheat had less negative effect on grain production of winter wheat. One third or half straw yield of preceding summer maize was appropriate amount for maintaining yield of winter wheat.

     

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