中国农学通报
中國農學通報
중국농학통보
CHINESE AGRICULTURAL SCIENCE BULLETIN
2013年
15期
173-176
,共4页
李秉华%王贵启%许贤%樊翠芹%梁双波
李秉華%王貴啟%許賢%樊翠芹%樑雙波
리병화%왕귀계%허현%번취근%량쌍파
免耕%夏玉米%杂草%生态经济阈值%模型
免耕%夏玉米%雜草%生態經濟閾值%模型
면경%하옥미%잡초%생태경제역치%모형
no-tillage%summer corn%weed%eco-economic threshold%model
为了明确免耕夏玉米田杂草的生态经济阈值,通过田间小区试验,采用添加法对田间杂草的种类和密度进行配置,田间小区完全随机区组排列,通过杂草密度与玉米产量损失率的关系计算杂草的生态经济阈值。结果表明,杂草密度(x)与玉米产量损失率(y)呈正相关,以拟合优度>0.90和残差平方和最小为条件对产量损失率曲线模型进行优选,其关系符合指数方程(y=46.4359-18.518e-x/21.9215-28.5039e-x/126.5527, R2=0.9609),免耕夏玉米田杂草的生态经济阈值平均为2.27株/m2。通过该模型可明确田间杂草所能允许的最低密度,从而指导对田间杂草的综合治理。
為瞭明確免耕夏玉米田雜草的生態經濟閾值,通過田間小區試驗,採用添加法對田間雜草的種類和密度進行配置,田間小區完全隨機區組排列,通過雜草密度與玉米產量損失率的關繫計算雜草的生態經濟閾值。結果錶明,雜草密度(x)與玉米產量損失率(y)呈正相關,以擬閤優度>0.90和殘差平方和最小為條件對產量損失率麯線模型進行優選,其關繫符閤指數方程(y=46.4359-18.518e-x/21.9215-28.5039e-x/126.5527, R2=0.9609),免耕夏玉米田雜草的生態經濟閾值平均為2.27株/m2。通過該模型可明確田間雜草所能允許的最低密度,從而指導對田間雜草的綜閤治理。
위료명학면경하옥미전잡초적생태경제역치,통과전간소구시험,채용첨가법대전간잡초적충류화밀도진행배치,전간소구완전수궤구조배렬,통과잡초밀도여옥미산량손실솔적관계계산잡초적생태경제역치。결과표명,잡초밀도(x)여옥미산량손실솔(y)정정상관,이의합우도>0.90화잔차평방화최소위조건대산량손실솔곡선모형진행우선,기관계부합지수방정(y=46.4359-18.518e-x/21.9215-28.5039e-x/126.5527, R2=0.9609),면경하옥미전잡초적생태경제역치평균위2.27주/m2。통과해모형가명학전간잡초소능윤허적최저밀도,종이지도대전간잡초적종합치리。
The experiment was conducted to determine the weed eco-economic threshold in no-tillage summer corn field. Field plots were random complete block design. Weed species and density were setup using additive method. Weed eco-economic threshold was calculated by the relationship between the weed density and yield loss rate. The results showed that, yield loss rate (y) correlated positively with weed density (x). The fitted curve models were optimized by goodness of fit >0.90 and minimal residual sum of squares. Exponential model (y=46.4359-18.518e-x/21.9215-28.5039e-x/126.5527, R2=0.9609) was the optimum equation to fit for the relationship. Average eco-economic threshold in the field was 2.27 plants per m2. Permitted minimum weed density of the no-tillage summer corn field could be calculated by the model and instructed the weed integrative management.