轮叶党参打破休眠技术及适宜化学除草剂筛选的研究
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摘要
为解决轮叶党参栽培过程中种子出苗率低及除草难的问题,对轮叶党参休眠的打破及适宜化学除草剂的筛选进行了探讨。试验结果表明:轮叶党参种子具有不完全休眠特性。用赤霉素处理可显著提高种子发芽率。在赤霉素处理浓度760mg/L处理时间125分钟条件下,种子第8天可获得最高发芽率80%左右。敌草胺与除芽通的混剂处理是轮叶党参实生苗幼苗期杂草防除的较佳除草剂处理组合。室内条件下,敌草胺在2.0kg/ha与除芽通在2.0kg/ha的混剂处理条件下对杂草的防效可达到90%。敌草胺与除芽通在低剂量处理条件下有累加效应,高剂量处理条件下有独立效应。该混剂药效发挥的适宜土壤湿度范围是70%左右。百草枯是一年生轮叶党参栽培地杂草防除的较佳除草剂,在轮叶党参株高达50-100cm时进行底部定向施用百草枯1.0 kg/ha,对杂草的综合防效可达到90%以上。
We studyed on breaking dormant and screening preferent chemical herbicides of Codonposis Lanceolata Bentn.et Hook.f. in order to solve the low rate of germination and difficulty of weed control during the cultivation of Codonposis Lanceolata Bentn.et Hook.f.. The result showed:the seeds of Codonposis Lanceolata Bentn.et Hook.f. have incomplete dormancy. Gibberellin can improve the germination percentage significantly. The seeds can acquire the highest germination percentage 80% or so if treated with 760mg/L gibberellin for 125 minutes. The herbicide mixtures of Napropamide and Pendimethalin is fairly good for the weed control of seedling Codonposis Lanceolata Bentn.et Hook.f.. The pot experiment showed that the herbicide effect can reach 90% if treated with the constitute of Napropamide 2.0kg/ha and Pendimethalin 2.0kg/ha. The two herbicides expressed additive effect in low dosage but independent effect in high dosage. The suitable soil relative humidity extent to the constitute is 70% or so. Paraquat is good herbicide for the weed control of annual Codonposis Lanceolata Bentn.et Hook.f.. We can sprayed Paraquat (1.0kg/ha) to them by bottom treatment when the height of annual Lance have Asiabell reached 50~100cm,and the integrated control effect can reach more than 90%.
We studyed on breaking dormant and screening preferent chemical herbicides of Codonposis Lanceolata Bentn.et Hook.f. in order to solve the low rate of germination and difficulty of weed control during the cultivation of Codonposis Lanceolata Bentn.et Hook.f.. The result showed:the seeds of Codonposis Lanceolata Bentn.et Hook.f. have incomplete dormancy. Gibberellin can improve the germination percentage significantly. The seeds can acquire the highest germination percentage 80% or so if treated with 760mg/L gibberellin for 125 minutes. The herbicide mixtures of Napropamide and Pendimethalin is fairly good for the weed control of seedling Codonposis Lanceolata Bentn.et Hook.f.. The pot experiment showed that the herbicide effect can reach 90% if treated with the constitute of Napropamide 2.0kg/ha and Pendimethalin 2.0kg/ha. The two herbicides expressed additive effect in low dosage but independent effect in high dosage. The suitable soil relative humidity extent to the constitute is 70% or so. Paraquat is good herbicide for the weed control of annual Codonposis Lanceolata Bentn.et Hook.f.. We can sprayed Paraquat (1.0kg/ha) to them by bottom treatment when the height of annual Lance have Asiabell reached 50~100cm,and the integrated control effect can reach more than 90%.
引文
[1].中国科学院中国植物志编辑委员会.中国植物志.科学出版社.1984,37~38
[2].王玉方等.轮叶党参氨基酸及淀粉含量测定.特产研究.1997,3:21~23
[3].杜韧强等.轮叶党参栽培技术.北京农业.2002,8:17
[4].王岳峰等.桔梗种子发芽率的研究.中国野生植物资源.1995,2:61-63
[5] 张为凯等.菜药兼用的轮叶党参.农村科学试验.2001,8:14
[6].周传山.山胡萝卜有待开发.吉林蔬菜.2002,5:44
[7].鲍业青等.轮叶党参的栽培及利用价值.特种经济动植物.2002,4:24
[8] Fryer J D and Evans S A. Weed control handbook.Vol.Ⅰ:Principles.British Crop Protection Council,Blackwell Scientific Publications.London.1989
[9].徐惠波等.轮叶党参提取物对中枢神经系统的影响.特产研究.1991,1:49-51
[10].朴奎善等.轮叶党参中维生素的分析.特产研究.1998,4:11-12
[11].钱淑文等.轮叶党参及其栽培技术.特产研究.1992,1:52-53
[12].朴奎善等.轮叶党参根皮中微量元素溶出率的研究.中国野生植物资源.1999,13(1):43-44
[13].胡启山.现代饮食的趋势.湖南农业.2000,6:27
[14].谢凤勋等.中药原色图谱及栽培技术.金盾出版社.1994
[15].马以桂等.中药材出口的现状及前景分析.世界农业.2001,9:27-28
[16].苏少泉.除草剂开发面临的发展问题及发展趋势.2002,1:5-7
[17].屠予钦等.农药和化学防治法前景广阔.农药.1996,35(5):6-8
[18].张玉聚等.除草剂极其混用与农田杂草化学防治.中国农业科技出版社.2000,4-5
[19].姜德锋.我国除草剂混用的发展现状.莱阳农学院学报.2001,18(1):19-21
[20].姚湘江等.除草混剂药效评估.农药.1995,34(4):31-33
[21].曹坳程.乙酰乳酸合成酶抑制剂开发中的问题及对策.植物保护.1997,23(5):38-40
[22]. Toshio Akagi. A new binding model for structurally diverse ALS inhibitors. Pesticide Science,1996,47:309-318
[23].张朝贤等.国外除草剂应用趋势及我国杂草科学研究现状和发展方向.植物保护学报.1997,24(3):278-282
[24].唐洪元等.中国农田杂草的分布和危害.杂草学报.1987,1(1):3-8
[25]. Zoschke A. Toward reduced herbicide rates and adapted weed management.Weed Technology,1994,8:376-386
[26] Hamill A S et al. Herbicide reduction in North America: In Canada, an opportunity for motivation and growth in weed management. Weed Technology, 1994,8:366-371
[27]. Bellinder R R et al. Percentage-driven government mandates for pesticide reduction: The Swedish model. Weed Technology,1994,8:350-359
[28]. Lawson H M. Changes in pesticide usage in the United Kingdom: Policies, results and long-term implications. Weed Technology,1994,8:360-365
[29]. Jensen P K Need and economics of weed control in agricultural crops. Supplement to methods in plant protection. Landskontoret for Planteavl,1991, Skejby:14-16
[30].杨义群等.回归设计及多元分析—在农业中的应用.1990,62-91
[31].杨汝康等.生物数学讲义(专业应用部分).1988,542-619.
[32].BASIC程序设计及其在农业中的应用.科学出版社.260-272
[33].刘长令等.世界农药大全(除草剂卷).化学工业出版社.2002,234-276
[34].赵笃乐.光对种子休眠与萌发的影响(上).生物学通报.1995,30(7):24-25
[35].赵笃乐.光对种子休眠与萌发的影响(下).生物学通报.1995,30(8):27-28
[36].王心春等.野生经济植物——轮叶党参优质高产栽培技术.吉林林业科技.2000,29(3):9-12
[37].王岳峰等.轮叶党参种子发芽率的研究.中国野生植物资源.1996,1:41-43
[38].许泳峰.农田杂草化学防除原理与方法.辽宁科学技术出版社.1992,1-242
[39].苏少泉等.除草剂概论.科学出版社,1986
[40].钟吉萍等.克无踪棉花行间除草效果及安全性试验.1999,2:38-39
[41].李明光等.克无踪防除农田杂草试验示范总结.杂草科学.1997,3:22-23
[42].朱安兰等.克无踪行间除草技术.湖南农业科学.1998,6:39-40
[43].陈传权等.敌草胺对作物选择性程度的测定.植物保护.1989,15(5):3
[44] Gummesson G.Can the amount of herbicides be reduced 26th Swedish Weed Conference,Uppsala,Sweden,1985,1:314-318
[45].张付斗等.土壤湿度对不同水溶液除草剂药效的影响.华中农业大学学报.2000,19(5):437-441
[46].黄河等.除草剂在土—植物系统中的环境行为与毒性效应.湖北农学院学报.2002,22(3):282-284
[47]. Tu C M.Influence of some herbicides on activities of microor 赤霉素 nisms and enzymes in soil[J].Bull Environ Contarn Toxicol,1993,51(1):30-39
[48].张人君等.敌草胺防除油菜田杂草的效果试验.浙江农业科学.1991,1:28-31
[49].阎玉霞.大惠利除蔬菜田杂草试验总结.吉林农业科学.1993,3:50-51
[50].张朝贤等.百草枯生产工艺改进及其应用前景.植物保护.1999,25(5):41-44
[51].翁元凯等.研究百草枯除草机理的化学发光法.植物生理学通讯.1990,5:55-58
[52].强盛等.杂草学.中国农业出版社.2001,1-211
[53].许长成等.水稻对百草枯(Paraquat)和一些环境胁迫的交叉抗性.作物学报.1996,22(3):358-361
[54].张玉聚等.除草剂药害诊断原色图谱.河南科学技术出版社.2002
[55].苏少泉等.二硝基苯胺除草剂对大豆生育影响.的研究.植物保护学报.1986,13(1):65-70
[56].陈爱东等.50%敌草胺可湿性粉剂防除烟田杂草应用技术及药效评价.中国烟草科学.2000,1:46-47
[57].程慕如等.酰胺类除草剂除草活性研究.天津农业科学.2000,6(2):17.1-9
[58]. D.Bala Narsaish, R. G. Harvey. Alachlor placement in the soil as related to phytotoxicity to maize seedlings[J].Weed Research, 1977,17:163-168
[59].周焰西等.新型安全高效除草剂——精稳杀得.吉林林业科技.1996,5:27
[60].乔永刚等.药用植物种子生物学特性与种子处理技术.中国种业.2002,1:37-38
[2].王玉方等.轮叶党参氨基酸及淀粉含量测定.特产研究.1997,3:21~23
[3].杜韧强等.轮叶党参栽培技术.北京农业.2002,8:17
[4].王岳峰等.桔梗种子发芽率的研究.中国野生植物资源.1995,2:61-63
[5] 张为凯等.菜药兼用的轮叶党参.农村科学试验.2001,8:14
[6].周传山.山胡萝卜有待开发.吉林蔬菜.2002,5:44
[7].鲍业青等.轮叶党参的栽培及利用价值.特种经济动植物.2002,4:24
[8] Fryer J D and Evans S A. Weed control handbook.Vol.Ⅰ:Principles.British Crop Protection Council,Blackwell Scientific Publications.London.1989
[9].徐惠波等.轮叶党参提取物对中枢神经系统的影响.特产研究.1991,1:49-51
[10].朴奎善等.轮叶党参中维生素的分析.特产研究.1998,4:11-12
[11].钱淑文等.轮叶党参及其栽培技术.特产研究.1992,1:52-53
[12].朴奎善等.轮叶党参根皮中微量元素溶出率的研究.中国野生植物资源.1999,13(1):43-44
[13].胡启山.现代饮食的趋势.湖南农业.2000,6:27
[14].谢凤勋等.中药原色图谱及栽培技术.金盾出版社.1994
[15].马以桂等.中药材出口的现状及前景分析.世界农业.2001,9:27-28
[16].苏少泉.除草剂开发面临的发展问题及发展趋势.2002,1:5-7
[17].屠予钦等.农药和化学防治法前景广阔.农药.1996,35(5):6-8
[18].张玉聚等.除草剂极其混用与农田杂草化学防治.中国农业科技出版社.2000,4-5
[19].姜德锋.我国除草剂混用的发展现状.莱阳农学院学报.2001,18(1):19-21
[20].姚湘江等.除草混剂药效评估.农药.1995,34(4):31-33
[21].曹坳程.乙酰乳酸合成酶抑制剂开发中的问题及对策.植物保护.1997,23(5):38-40
[22]. Toshio Akagi. A new binding model for structurally diverse ALS inhibitors. Pesticide Science,1996,47:309-318
[23].张朝贤等.国外除草剂应用趋势及我国杂草科学研究现状和发展方向.植物保护学报.1997,24(3):278-282
[24].唐洪元等.中国农田杂草的分布和危害.杂草学报.1987,1(1):3-8
[25]. Zoschke A. Toward reduced herbicide rates and adapted weed management.Weed Technology,1994,8:376-386
[26] Hamill A S et al. Herbicide reduction in North America: In Canada, an opportunity for motivation and growth in weed management. Weed Technology, 1994,8:366-371
[27]. Bellinder R R et al. Percentage-driven government mandates for pesticide reduction: The Swedish model. Weed Technology,1994,8:350-359
[28]. Lawson H M. Changes in pesticide usage in the United Kingdom: Policies, results and long-term implications. Weed Technology,1994,8:360-365
[29]. Jensen P K Need and economics of weed control in agricultural crops. Supplement to methods in plant protection. Landskontoret for Planteavl,1991, Skejby:14-16
[30].杨义群等.回归设计及多元分析—在农业中的应用.1990,62-91
[31].杨汝康等.生物数学讲义(专业应用部分).1988,542-619.
[32].BASIC程序设计及其在农业中的应用.科学出版社.260-272
[33].刘长令等.世界农药大全(除草剂卷).化学工业出版社.2002,234-276
[34].赵笃乐.光对种子休眠与萌发的影响(上).生物学通报.1995,30(7):24-25
[35].赵笃乐.光对种子休眠与萌发的影响(下).生物学通报.1995,30(8):27-28
[36].王心春等.野生经济植物——轮叶党参优质高产栽培技术.吉林林业科技.2000,29(3):9-12
[37].王岳峰等.轮叶党参种子发芽率的研究.中国野生植物资源.1996,1:41-43
[38].许泳峰.农田杂草化学防除原理与方法.辽宁科学技术出版社.1992,1-242
[39].苏少泉等.除草剂概论.科学出版社,1986
[40].钟吉萍等.克无踪棉花行间除草效果及安全性试验.1999,2:38-39
[41].李明光等.克无踪防除农田杂草试验示范总结.杂草科学.1997,3:22-23
[42].朱安兰等.克无踪行间除草技术.湖南农业科学.1998,6:39-40
[43].陈传权等.敌草胺对作物选择性程度的测定.植物保护.1989,15(5):3
[44] Gummesson G.Can the amount of herbicides be reduced 26th Swedish Weed Conference,Uppsala,Sweden,1985,1:314-318
[45].张付斗等.土壤湿度对不同水溶液除草剂药效的影响.华中农业大学学报.2000,19(5):437-441
[46].黄河等.除草剂在土—植物系统中的环境行为与毒性效应.湖北农学院学报.2002,22(3):282-284
[47]. Tu C M.Influence of some herbicides on activities of microor 赤霉素 nisms and enzymes in soil[J].Bull Environ Contarn Toxicol,1993,51(1):30-39
[48].张人君等.敌草胺防除油菜田杂草的效果试验.浙江农业科学.1991,1:28-31
[49].阎玉霞.大惠利除蔬菜田杂草试验总结.吉林农业科学.1993,3:50-51
[50].张朝贤等.百草枯生产工艺改进及其应用前景.植物保护.1999,25(5):41-44
[51].翁元凯等.研究百草枯除草机理的化学发光法.植物生理学通讯.1990,5:55-58
[52].强盛等.杂草学.中国农业出版社.2001,1-211
[53].许长成等.水稻对百草枯(Paraquat)和一些环境胁迫的交叉抗性.作物学报.1996,22(3):358-361
[54].张玉聚等.除草剂药害诊断原色图谱.河南科学技术出版社.2002
[55].苏少泉等.二硝基苯胺除草剂对大豆生育影响.的研究.植物保护学报.1986,13(1):65-70
[56].陈爱东等.50%敌草胺可湿性粉剂防除烟田杂草应用技术及药效评价.中国烟草科学.2000,1:46-47
[57].程慕如等.酰胺类除草剂除草活性研究.天津农业科学.2000,6(2):17.1-9
[58]. D.Bala Narsaish, R. G. Harvey. Alachlor placement in the soil as related to phytotoxicity to maize seedlings[J].Weed Research, 1977,17:163-168
[59].周焰西等.新型安全高效除草剂——精稳杀得.吉林林业科技.1996,5:27
[60].乔永刚等.药用植物种子生物学特性与种子处理技术.中国种业.2002,1:37-38