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3种牧草不同搭配方式对胜红蓟的替代控制 总被引:1,自引:0,他引:1
研究3种牧草不同搭配方式对胜红蓟的替代控制效果,为入侵杂草胜红蓟的防控提供植物种和替代控制方法.在田间条件下,通过将白三叶、杂交甜高粱、杂交狼尾草3种牧草两两等比例搭配后与胜红蓟按2∶1混种,建立3种不同的替代控制方式,动态监测各群落(种群)植物、土壤微生物指标,评价3种牧草两两等比例搭配对胜红蓟的替代控制效果.结果表明:白三叶、杂交甜高梁等比例搭配对胜红蓟进行替代控制时,2种牧草株高严重受阻,牧草相对盖度占优,Simpson指数和Shannon-wiener指数均变大,胜红蓟重要值变小,土壤真菌增多,细菌、放线菌减少;白三叶、杂交狼尾草等比例搭配对胜红蓟进行替代控制时,2种牧草株高不受阻,牧草相对盖度占优,Simpson指数变大,Shannon-wiener指数变小,胜红蓟重要值变小,土壤真菌增多,细菌、放线菌减少;杂交狼尾草和杂交甜高粱等比例搭配对胜红蓟进行替代控制时,杂交狼尾草株高不受阻,但杂交甜高梁株高严重受阻,牧草相对盖度占优,Simpson指数变小,Shannon-wiener指数变大,胜红蓟重要值变小,土壤细菌增多,真菌、放线菌减少.总体来看,白三叶和杂交狼尾草可以等比例搭配作为胜红蓟替代控制材料,且替代控制效果较好;白三叶和杂交甜高粱、杂交甜高粱和杂交狼尾草不宜等比例搭配作为胜红蓟的替代控制材料. 相似文献
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不同埋藏深度对白花鬼针草、假臭草和胜红蓟种子出苗及生长的影响 总被引:1,自引:0,他引:1
为了解菊科入侵植物种子出苗和幼苗生长对埋藏深度的适应机制,通过砂培法研究菊科种子出苗和幼苗生长,比较分析不同埋藏深度下(0、0.5、1.0、2.0、3.0 cm)3种入侵植物种子白花鬼针草(Bidens alba)、假臭草(Praxelis clematidea)和胜红蓟(Ageratum conyzoides)的出苗率、出苗速率和出土时间等参数的差异,探究菊科入侵植物种子出苗和幼苗生长对埋藏深度的响应。结果表明:随着埋藏深度的增加,3种入侵植物种子出苗率和出苗速率均极显著降低(p0.01),出土时间则随着埋藏深度的增加均有不同程度增长,埋藏深度0~1.0 cm、0~0.5 cm和0分别为白花鬼针草、假臭草和胜红蓟种子较适出苗环境;在幼苗生长实验中,随着埋藏深度的增加,白花鬼针草和假臭草幼苗的根长、鲜重呈先上升后下降的趋势,茎长呈下降趋势,较适宜白花鬼针草和假臭草幼苗生长的埋藏深度为0~1.0 cm;胜红蓟幼苗随着埋藏深度的增加,其幼苗的根长、茎长、鲜重均呈下降趋势,较适宜胜红蓟幼苗生长的埋藏深度为0~0.5 cm。3种入侵植物对埋藏深度的耐受能力依次为:白花鬼针草假臭草胜红蓟。结果表明,农耕深度分别为:白花鬼针草2.0 cm,假臭草1.0 cm,胜红蓟0.5 cm。 相似文献
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茶园土壤中三氯杀螨醇残留及胜红蓟杂草对其富集作用 总被引:1,自引:0,他引:1
采用气相色谱法测定了福建省武夷山、福州、宁德等地6个茶园土壤及覆盖植物胜红蓟(Ageratum conyzoides)中的三氯杀螨醇含量,结果表明:在所研究茶园土壤中,WYSXC3点三氯杀螨醇残留最高,为0.277mg·kg^-1外,其余均低于0.010mg·kg^-1;而胜红蓟所有样品都检出了三氯杀螨醇残留,地上组织和根中的平均残留量分别为2.831mg·kg^-1、0.753mg·kg^-1。以5个点土壤中三氯杀螨醇浓度为参照,胜红蓟茎叶与根BCFs平均值分别为236.359、65.284。采用盆栽试验方法,研究了胜红蓟根、茎叶对三氯杀螨醇的富集,结果表明,施药量为500mg·kg^-1时,土壤和胜红蓟茎叶中三氯杀螨醇的残留量均随时间延长而降低,分别由10d时的3.301mg·kg^-1和2.965mg·kg^-1降到30d时的1.313mg·kg^-1和1.477mg·kg^-1;而胜红蓟根中三氯杀螨醇残留随着时间延长而增加,由10d时的4.541mg·kg^-1增加到30d时的12.734mg·kg^-1。研究结果表明,胜红蓟对三氯杀螨醇具有富集作用。 相似文献
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H. P. Singh D. R. Batish S. Kaur R. K. Kohli 《Journal of Agronomy and Crop Science》2003,189(5):341-346
A study was conducted to assess the phytotoxicity of Ageratum conyzoides, a weed of cultivated areas, to the growth and establishment of wheat (Triticum aestivum). The lengths of the radicle and coleoptile and the seedling dry weight of wheat were significantly reduced when wheat was grown in field soil previously infested with A. conyzoides, compared to control soil collected from an area devoid of this weed. Even extracts prepared from A. conyzoides soil were inhibitory, indicating the presence of some water‐soluble phytotoxins in the soil. To determine the possible contribution of the weed in releasing these phytotoxins, growth studies involving leaf residues and their extracts and amended soils (prepared by incorporating leaf residues and residue extracts) were also performed on wheat. With all treatments, an inhibitory effect of A. conyzoides was found, compared to respective controls. A significant amount of water‐soluble phytotoxins (the phenolics) was found to be present in the soil infested with A. conyzoides, leaf residues and the amended soils. The amount of phenolics correlated well with growth performance in the respective treatments. This study establishes the phytotoxicity of leaf residues of A. conyzoides to wheat through the release of phenolics into the soil, which may serve as possible tools in establishing its allelopathy. 相似文献