豆麦轮作区麦秸长期还田对作物产量及土壤化学性质的影响

麦秆还田对作物产量影响以及秸秆还田如何施肥是农业生产者极为关注的问题,为了明确豆麦轮作麦秆长期还田对作物产量及对土壤化学性质的影响,该文依托黑河市长期定位实验站,采用裂区试验方法,主处理为秸秆还田与不还田处理,副处理为低、中、高不同施肥水平,试验于1980年开始,轮作模式先后为麦-豆-麦和麦-豆轮作模式,通过连续38 a(1980—2018年)调查,探明麦豆轮作条件下麦秸还田及不同施肥水平对作物产量影响。结果得出:麦秸还田后种植大豆、小麦,多年产量与不还田比差异不显著(P0.05);连续施肥效果,大豆中肥区比低肥区增产7.42%～10.81%,达到差异显著水平,小麦高肥区比低肥区增产14.52%～19.33%,差异极显著(P 0.01);麦秸还田大豆增产效果,还田前期(1～6季)大豆平均产量比不还田增产5.91%,后期(7～16季)平均增产7.52%,麦秸还田小麦增产效果,还田前期(1～5季)和后期(6～16季)平均增产0.31%、0.22%,后期增产频率高;麦秆隔年还田显著增加速效钾含量,施肥可以有效增加土壤碳、氮、磷含量,但长期高肥易导致土壤酸化。

Effects of long-term wheat straw returned to field on crop yield and soil chemical properties in soybean-wheat rotation areas

Abstract: Wheat straw returning is one of the main ways to improve soil fertility. Long-term straw returned to field combined with chemical fertilizer can maintain soil fertility. It should be combined with crop rotation system and fertilization management to maximize advantages and avoid disadvantages. The impact of straw returned to field on crop yield and how to fertilize when straw returning are the issues of great concern to agricultural producers. In order to clarify the effect of long-term straw returned to field in wheat-bean rotation on crop yield and soil nutrient, this paper conducted the experiments in the long-term positioning experimental station in Heihe district of Heilongjiang province, and adopted split-plot test method. The main treatment was straw returning to field and non-returning to field, secondary treatment was different fertilization for low, medium and high level. The experiment started in 1980 with wheat-soybean-wheat and wheat-soybean rotation models. The effects of wheat straw returning to field and different fertilization levels on crop yield under wheat-soybean rotation conditions were investigated for 38 consecutive years (1980-2018). The results showed that there was no significant difference in years of yield of wheat, soybean or wheat planted every other year after wheat straw returning. The medium-fertilizer was 7.42%-10.81% higher than that of low-fertilizer area on soybean with continuous fertilization, achieved significant difference level. The yield of wheat increased by 14.52%-19.33% in high-fertilizer area compared with low-fertilizer area. The effect of wheat straw returning on soybean yield was 5.91% higher than that of non-returning in the early stage (1-6 season) and 7.52% higher in the late stage (7-16 season). The yield of wheat increased by 0.31% and 0.22% in early stage (1-5 seasons) and late stage (6-16 seasons) compared with non-returning to field. Generally speaking, after wheat straw returning to the field, the frequency of crop yield reduction in the early stage is high, while the frequency of yield increase in the later stage is high. In Heihe area, the long-term application of wheat straw to field had no significant effect on soil organic matter, total nitrogen, alkali nitrogen, total phosphorus, available phosphorus and total potassium, while the content of available potassium increased significantly. Long-term fertilization had a significant impact on soil nutrients. High fertilizer level could significantly increase the contents of soil organic matter, total nitrogen, alkali nitrogen and total phosphorus. Long-term fertilization also reduces soil pH value, leading to acidification of soil.