耕作方式与施氮量对小麦-玉米复种系统玉米季土壤氮素转化及产量的影响

Effects of tillage and nitrogen application rate on soil nitrogen transformation and yield in a winter wheat/summer maize multiple cropping system

在黄淮砂姜黑土区冬小麦-夏玉米复种两熟种植体系中,研究了小麦季3种耕作方式(常规翻耕、旋耕和深松)结合夏玉米播前3个施氮量(120、225和330 kg·hm^(-2))对玉米季主要生育时期根际土壤氮素转化微生物怍用强度及酶活性、无机氮含量和产量的影响.结果表明:旋耕方式下氨化作用强度最高,且随着施氮量的增加,土壤氮素转化微生物作用强度及酶活性增强.深松方式下根际土壤硝化、反硝化作用强度与脲酶活性明显高于常规与旋耕方式.增施氮肥可加强深松方式对土壤氮素转化的促进作用,而过量施氮虽然提高了土壤无机氮含量及玉米产量,但会对土壤氮素转化微生物作用强度及酶活性产生抑制.深松方式结合225 kg·hm^(-2)施氮量更有利于砂姜黑土区夏玉米土壤氮素转化,而深松方式结合330kg·hm^(-2)施氮处理下产量最高.

In the win soil of Huanghuaihai subsoiling tillage ） kg · hm-2, 330 kg in winter-wheat and summer-maize multiple cropping system in lime concretion black Plain, the effects of three tilling methods （conventional tillage, rotary tillage, wheat season coupling with three nitrogen treatments （120 kg · hm-2, 225 · hm-2） before maize sowing on the activities of microorganisms and enzymes related nitrogen transformation, and inorganic nitrogen content in the rhizosphere soil during the main growth stages of maize, as well as the yield were investigated. The results showed that the rotary tillage had the highest ammonification intensity, and the more nitrogen was put in, the higher were the activities of microorganisms and enzymes related to soil nitrogen transformation. The activities of nitrification, denitrification and urease of subsoiling tillage was significantlv higher than than of con-ventional and rotary tillage. Furthermore, in subsoiling tillage treatment, increasing nitrogen fertili-zer could promote soil nitrogen transformation while excessive nitrogen input inhibited soil nitrogen transformation, though the latter had higher yield and soil inorganic nitrogen content. The treatment of subsoiling tillage coupling with 225 kg · hm-2 nitrogen, was best for soil nitrogen transformation while the treatment of subsoiling tillage coupling with 330 kg · hm-2 nitrogen, had the highest corn yield.