摘要
应用DSSAT模型中的CERES-Maize作物模型和Century土壤模型,分析了作物管理参数、施肥量、土壤初始氮含量和作物桔杆还田对吉林省黑土地区玉米生长、氮循环以及有机碳氮生态平衡的影响.结果表明:在玉米目标产量为12000~15000kg.hm-2条件下,最佳施氮肥量为200~240kgN.hm-2.在该氮肥用量下,玉米地上氮吸收量为250~290kgN.hm-2,其中,120~140kgN.hm-2来自土壤,130~150kgN.hm-2来自肥料;提高氮肥用量(250~420kgN.hm-2)将导致土壤残留氮明显增加(63~183kgN.hm-2);延迟追肥时间同样导致土壤残留氮增加;当玉米秸杆还田量超过6000kg.hm-2时,模拟的土壤活性有机碳、氮可以维持当年的供需平衡.建议在吉林省中部地区黑土玉米带,化肥施氮量控制在200~240kgN.hm-2,适时追肥,秸杆还田量在6000kg.hm-2以上,以确保高产和维持土壤养分生态平衡.
By using the CERES-Maize crop model and Century soil model in Decision Support System of Agrotechnology Transfer(DSSAT) model,this paper studied the effects of crop management parameters,fertilizer N application rate,soil initial N supply,and crop residue application on the maize growth,crop-soil N cycling,and soil organic C and N ecological balance in black soil(Mollisol) zone of Jilin Province,Northeast China.Taking 12000-15000 kg·hm-2 as the target yield of maize,the optimum N application rate was 200-240 kg N·hm-2.Under this fertilization,the aboveground part N uptake was 250-290 kg N·hm-2,among which,120-140 kg N·hm-2 came from soil,and 130-150 kg N·hm-2 came from fertilizer.Increasing the N application rate(250-420 kg N·hm-2) induced an obvious increase of soil residual N(63-183 kg·hm-2);delaying the N topdressing date also induced the increase of the residual N.When the crop residue application exceeded 6000 kg·hm-2,the soil active organic C and N could maintain the supply/demand balance during maize growth season.To achieve the target maize yield and maintain the ecological balance of soil organic C and N in black soil zone of Jilin Province,the chemical N application rate would be controlled in the range of 200-240 kg N·hm-2,topdressing N should be at proper date,and the application amount of crop residue would be up to 6000 kg·hm-2.
出处
《应用生态学报》
CAS
CSCD
北大核心
2011年第8期2075-2083,共9页
Chinese Journal of Applied Ecology
基金
国家基础研究发展计划重点项目(2011CB100503)
国家自然科学基金项目(40871107
40971141)
中国科学院知识创新工程项目(K2CX2-YW-Q1-07)资助
