紫云英配施化肥对水稻氮素吸收利用和紫云英氮在水稻-土壤体系分配、残留的影响

明确紫云英配施化肥条件下水稻对氮素吸收利用和紫云英氮在水稻-土壤体系的吸收利用、分配及残留规律,能够为豫南稻区合理施肥提供依据。本研究利用原状土柱模拟和¹⁵N示踪技术,研究等氮条件下不施肥(CK)、化肥+22500 kg·hm^-2紫云英(FM1)、化肥+30000 kg·hm^-2紫云英(FM2)、化肥+37500 kg·hm^-2紫云英(FM3)、化肥+22500 kg·hm^-2紫云英+石灰(FM1+CaO)、化肥+30000 kg·hm^-2紫云英+石灰(FM2+CaO)、化肥+37500 kg·hm^-2紫云英+石灰(FM3+CaO)对水稻氮素吸收利用、水稻-土壤体系氮素养分平衡和紫云英矿化分解的氮在水稻各部位吸收利用、分配及残留的影响。结果表明: 与CK相比,施肥显著提高了稻谷氮吸收量、稻秆氮吸收量和氮素表观损失量、氮素盈余量。稻谷氮吸收量、稻秆氮吸收量和水稻氮利用率随紫云英翻压量增加呈先升高后降低趋势,氮素表观损失量和氮素盈余量随紫云英翻压量增加呈先降低后上升趋势,均以翻压30000 kg·hm^-2紫云英配施化肥处理效果较好。增施石灰可提高水稻稻谷氮吸收量、稻秆氮吸收量和水稻氮利用率,降低氮素表观损失量和氮素盈余量,以FM2+CaO处理效果最好。各施肥处理水稻吸收的氮来源于紫云英的比例为6.3%～13.2%,来源于土壤和肥料的比例为86.8%～93.7%;水稻对紫云英氮的当季利用率为23.8%～33.6%,水稻各部位对紫云英氮的利用率表现为籽粒>茎叶>根;紫云英氮在土壤中的残留率为37.6%～62.4%,损失率为7.8%～38.6%。综合考虑水稻氮素吸收利用、水稻-土壤体系氮素养分平衡和紫云英氮在水稻中的分配状况,该研究区以FM2+CaO处理为最优。

Effects of Astragalus sinicus combined with chemical fertilizer on nitrogen absorption and utilization of rice and nitrogen distribution and residue of Astragalus sinicus in rice-soil system.

Clarifying the pattern of nitrogen absorption and utilization of rice under the treatments of Astragalus sinicus combined with chemical fertilizer application and the pattern of absorption, utilization, distribution and residue of A. sinicus nitrogen in rice-soil system could provide basis to rational fertilization for rice planting area in southern Henan. In this study, undisturbed soil column simulation and isotope tracer technology of ¹⁵N were used to examine the differences of nitrogen uptake and utilization of rice, nitrogen nutrient balance of rice-soil system and nitrogen uptake, utilization, distribution and residue of A. sinicus nitrogen after mineralization and decomposition among seven treatments. The treatments involved 1) no fertilization (CK); 2) chemical fertilizer+22500 kg·hm^-2 A. sinicus (FM1); 3) chemical fertilizer+30000 kg·hm^-2 A. sinicus (FM2); 4) chemical fertilizer+37500 kg·hm^-2 A. sinicus (FM3); 5) chemical fertilizer+22500 kg·hm^-2 A. sinicus +lime (FM1+CaO); 6) chemical fertilizer+30000 kg·hm^-2 A. sinicus lime (FM2+CaO); 7) chemical fertilizer+37500 kg·hm^-2 A. sinicus +lime (FM3+CaO). Results showed that compared with CK, fertilization significantly increased nitrogen uptake of grain and rice stalks, apparent nitrogen loss, and nitrogen surplus. The grain nitrogen uptake, rice straw nitrogen uptake and nitrogen use efficiency of rice increased firstly and then decreased with the increasing A. sinicus application rates, while the apparent nitrogen loss and nitrogen surplus showed the opposite trend. The best performance was presented under the treatment of chemical fertilizer combined with 30000 kg·hm^-2 of A. sinicus. Lime addition could increase grain nitrogen uptake, rice straw nitrogen uptake, and nitrogen use efficiency of rice, while reducing apparent nitrogen loss and nitrogen surplus, with the best performance of FM2+CaO. For all the treatments, the proportion of nitrogen absorbed by rice from A. sinicus was 6.3%-13.2%, while that from soil and chemical fertilizer was 86.8%-93.7%. The utilization ratio of A. sinicus nitrogen by rice was 23.8%-33.6%. The utilization ratio of A. sinicus nitrogen in different parts of rice was grain > stem and leaf > root. The residue rate of A. sinicus nitrogen in soil was 37.6%-62.4%. The loss rate of A. sinicus nitrogen was 7.8%-38.6%. Comprehensively considering nitrogen absorption and utilization of rice, nitrogen nutrient balance of rice-soil system, and the distribution situation of nitrogen from A. sinicus in rice, FM2+CaO was the optimum fertilization pattern in the study area.