免耕夏玉米田杂草防治关键期研究

Critical period of weed control in no-tillage summer maize fields

  • 摘要: 杂草防治关键期是农田杂草综合治理的关键内容。2010年和2011年通过玉米不同时期共生杂草和免除杂草的田间小区试验, 对河北省石家庄市免耕夏玉米田的杂草消长动态与杂草防治关键期进行了研究。结果表明, 田间杂草以牛筋草、马唐等禾本科杂草为主, 相对多度94.93%以上。玉米播种后21 d时田间杂草密度最大, 之后杂草密度开始不断降低。玉米播种后相对时期0~20.41%内萌发的杂草对玉米的产量影响最大; 玉米播种后相对时期19.09%~42.73%内玉米与杂草的竞争强度最高, 是需要对田间杂草严格控制的时期。对玉米共生杂草或免除杂草的相对时期与玉米相对产量的关系进行拟合, 玉米与杂草共生的相对时期与玉米相对产量的关系(杂草防治关键期的始期)符合改进的Logistic模型, 玉米苗后免除杂草的相对时期(杂草防治关键期的终期)与玉米相对产量的关系符合Gompertz模型。当杂草对玉米产量造成可接受的产量损失率为3%时, 免耕夏玉米田的杂草防治关键期开始于玉米相对时期的14.15%, 结束于56.62%。

     

    Abstract: The critical period for weed control (CPWC) is a key consideration in integrated weed management programs. This study aimed to determinate CPWC in no-tillage summer maize fields and to discuss the internal mechanisms of weed control. The results were pivotal in designing management strategies to minimize weed infestation during critical periods of crop development. Field studies on the dynamics of weed community and CPWC were conducted in 2010 and 2011 near Shijiazhuang in Hebei Province. Weed densities were investigated in 1 m × 1 m quadrats within field plots. Two treatments of weed infestation and weed-free were adopted in no-tillage summer maize fields. The results showed that the main species of the weed community belonged to the grass family, with a relative density above 94.93%. Eleusine indica (L.) Gaertn. and Digitaria sanguinalis (L.) Scop. were the dominant species of the weed community. Weed density increased until 21 d after maize planting and continuously decreased thereafter. Weed germinating during 0~20.41% of the maize growth period heavily influenced maize yield, with an increasing yield loss of 28.54%~37.51%. Weed infestation was most intensive during the 19.09%~42.73% of the growth period, with an increasing yield loss of 27.00%~46.22%. The best-fit curve between relative time of weed infestation (start time of CPWC) and relative yield of maize was a modified Logistic model. Also the best-fit curve between relative time of weed-free (end time of CPWC) and relative yield of maize was a Gompterz model. The models had high coefficients of determination (R2 > 0.99). Based on the models, CPWC in no-tillage summer maize field was 14.15%~56.62% of the growth period; with an acceptable relative yield loss of 3%. However, CPWC was likely to be slightly affected by weed density.

     

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