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The future of Weed Biology and Management 总被引:3,自引:0,他引:3
Kazuyuki ItohEditor-in-Chief 《Weed Biology and Management》2005,5(3):81-82
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硝草酮在玉米田的除草效果及安全性研究 总被引:2,自引:0,他引:2
2005年在北京市小汤山进行了田间试验,对硝草酮做茎叶处理的除草效果及对玉米的安全性进行了研究。结果表明:供试试验田反枝苋、苍耳、苘麻、苦蘵、龙葵、稗草、马唐对硝草酮敏感。铁苋菜、马齿苋对该药中度敏感。牛筋草、狗尾草、葎草、野西瓜苗、扁蓄、打碗花、刺儿菜、半夏对该药不敏感。该药对阔叶杂草防效好于对禾本科杂草的效果。供试剂量范围内,随施药量增加对敏感杂草防效提高。杂草3~4叶期施用10%硝草酮水悬浮剂70g/667m2的处理对稗草和马唐鲜重防效接近90%,对反枝苋、苍耳、苘麻鲜重防效在90%以上;100g/667m2及140g/667m2的处理对稗草和马唐鲜重防效为90%~95%,对反枝苋、苍耳、苘麻鲜重防效在95%~100%。杂草叶龄越小,硝草酮对其防效越高。禾本科杂草3~4叶期前用药防效理想,阔叶杂草反枝苋、苘麻等10叶期施药也能达到较好防效。10%硝草酮水悬浮剂施药剂量应为70~100g/667m2商品量。硝草酮100~140g/667m2的处理个别玉米植株叶片表现白化,叶片白化的植株占全小区植株数的3%~20%,但随作物生长药害症状消失。硝草酮水悬浮剂40~70g/667m2在玉米3~8叶期用药,对玉米中单44产量无影响。该剂量在玉米3~4叶期用药,对8个供试玉米品种生长及产量无影响。 相似文献
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为明确不同除草措施对辣椒地杂草防除效果,采用田间小区试验方法,研究单独施用除草剂、地膜覆盖、除草剂+地膜覆盖不同除草措施对辣椒地杂草防除效果。结果表明,单用除草剂960 g/L精异丙甲草胺乳油、330 g/L二甲戊灵乳油对辣椒地杂草30 d群体株防效分别为68.75%、65.07%,60 d杂草群体株防效、鲜重防效分别为76.50%、82.88%,82.99%、87.35%。白膜覆盖、黑膜覆盖、白膜覆盖+960 g/L精异丙甲草胺乳油、白膜覆盖+330 g/L二甲戊灵乳油、黑膜覆盖+960 g/L精异丙甲草胺乳油、黑膜覆盖+330 g/L二甲戊灵乳油对辣椒地杂草30 d群体株防效均达97.00%以上,60 d群体株防效均达96.00%以上,鲜重防效除白膜覆盖+960 g/L精异丙甲草胺乳油处理外,均达93.00%以上。综合试验结果表明,地膜覆盖、除草剂+地膜覆盖均能较好地防除辣椒地杂草,实际生产应用中为减少农药使用可直接覆盖地膜防除辣椒地杂草。 相似文献
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棉田及其邻作田地表节肢动物天敌的季节动态 总被引:6,自引:0,他引:6
运用陷阱法对小麦/玉米-棉花、苜蓿-棉花、棉花-棉花3种交错带的棉田及其邻作田共6种类型田块的地表节肢动物群落进行了抽样调查,研究地表天敌物种组成、数量及多样性的季节动态.结果表明:与不同作物邻作的棉田中,每个陷阱全年收集到的物种数差异显著,以与小麦/玉米邻作的棉田物种最丰富,为13.3种,与苜蓿邻作和棉棉邻作棉田的物种数分别为10.4和11.7种;每个陷阱全年收集的天敌个体数差异亦显著,以棉棉邻作棉田的最少,平均50.1头,与小麦/玉米和苜蓿邻作棉田分别为75.1和77.6头.3种邻作方式下,棉田地表天敌数量在4月中旬至8月中下旬均呈现明显的季节性波动,8月底至9月底则呈波动上升趋势.棉田及其邻作苜蓿田或小麦/玉米田天敌数量的季节性波动趋势基本一致,棉田与其邻作田之间地表节肢动物天敌存在迁移.综合6类型田块地表节肢天敌功能团的数量动态,蜘蛛类在各类型田块中长期是优势天敌功能团,尤以6、7、8月数量更大;隐翅甲是次优势天敌功能团.对6类型田块地表节肢天敌的群落特征分析表明,天敌功能团多样性指数H'与物种多样性指数H'显著相关,可用天敌功能团多样性指数H'代替物种多样性指数H'研究天敌群落特征;节肢动物天敌功能团优势度指数D、均匀度指数J与物种优势度指数和均匀度指数并不完全显著相关.对地表节肢动物天敌群落特征的系统聚类分析结果表明,与小麦/玉米邻作、棉棉邻作的两块棉田地表节肢动物天敌群落较为相似;与苜蓿邻作的棉田较为特殊,其多样性指数H'最低(1.425),优势度指数D最高(0.473),均匀度指数J最低(0.731). 相似文献
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不同施肥方式对稻麦轮作制稻田杂草群落的影响 总被引:1,自引:0,他引:1
为揭示不同施肥(纯施化肥、有机肥配施化肥、秸秆还田配施有机无机肥、有机无机复混肥)对稻—麦两熟制区稻田杂草的影响,以南京农业大学连续4年固定施肥金坛试验田为材料,于2014年水稻收获前进行了杂草群落调查,研究不同施肥、秸秆还田水稻田间杂草种类、密度、高度和杂草多样性指数的差异。结果表明:试验水稻田共记录杂草16种,分属7科、11属。稗草(Echinochloa crusgalli)、鸭舌草(Monochoria vaginalis)、多花水苋(Ammannia multiflora)、水苋菜(A.baccifera)、陌上菜(Lindernia procumbens)广泛分布于各试验田块。长期施肥可减少稻田杂草种类及发生密度。其中阔叶杂草和莎草科杂草在试验设定的各施肥措施下其种类和密度均显著下降,但株高显著增加;禾本科杂草种类、密度和株高几乎不受影响。秸秆还田配施化肥、有机肥配施化肥、有机无机复混肥+穗肥尿素和纯施化肥的田块中,杂草群落多样性指数低、均匀度指数相对较低,优势度指数较高,容易使单一优势杂草种类暴发,造成较严重危害;秸秆还田配施有机肥化肥、有机无机复混肥一次施用的稻田环境中,杂草群落多样性指数较高,均匀度指数较高,优势度指数较低,杂草群落结构较复杂,群落相对较稳定,且杂草密度较低,对水稻的生长危害较轻。 相似文献
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R. R. Panje 《国际虫害防治杂志》2013,59(4):590-595
Abstract Saccharum spontaneum L. is an innocuous grass species of the Old World, but one of its ecotypes behaves as a pernicious weed in Central India. The species is believed to have evolved in the ecological mosaic of the sub-Himalayan valleys into a wide range of polyploids (2n = 40 to 128), from where its higher polyploids may have migrated into South-east Asia and Africa while the lower ones spread over the Indian sub-continent. The species shows much morphological diversity, and a remarkable plasticity and adaptation to environment. Its ecotypes propagate themselves variously, and many clones possess rhizomes for tiding over long dry seasons. The weed ecotype is one of the latter. When a collection of S. spontaneum clones was grown in an experimental garden, most of the clones from the Himalayan river basins and the larger deltas showed no tendency to rhizome formation, while almost all occurring in the Central Indian plateau were highly rhizomic; the lower peninsular clones showed various degrees of predisposition. These differences were seen to be associated with the presence or absence of soil droughts and long dry seasons in the original habitat. Apparently, natural selection for the rhizome character has taken place largely on the basis of this factor of the environment. Genes for rhizomes may have arisen in the sub-Himalayan area and emerged into the Gangetic valley via areas felled indiscriminately and with inefficient agricultural follow-up. They may have accumulated under a high-selection pressure in the Central Indian plateau area and given rise to the pernicious weed ecotype here. S. spontaneum does not yield to ordinary weeding; mechanised deep ploughing produced good results, but later the infestation returned. The weed may yield to irrigation, as this would dislocate it ecologically. Irrigation would boost its hot weather growth, which could be blade-harrowed away. A summer crop of rice or sunn hemp (for green manure) would keep the weed down until it is too late for it to grow. Pilot studies would show whether in this way the rhizomes could be starved out. Under the altered agro-ecological conditions, re-infestation may not succeed. 相似文献