CN1084148C - 协同增效性除草混合物 - Google Patents
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Abstract
一种协同增效活性除草组合物,包含有效成分为1-(3-氯-4,5,6,7-四氢吡唑并[1,5-a]-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈[成分(A)]及一种除草剂[成份(B)]的混合物,该除草剂[成份(B)]选自灭草松、禾草敌、香草隆、禾草丹、丁草胺、丙草胺、哌草丹、噁唑禾草灵、氯甲酰草胺、环庚草醚、溴丁酰草胺、二氯喹啉酸、苯噻酰草胺、吡嘧磺隆、戊草丹、醚磺隆、噻吩草胺、枯密隆、MK 243、萘丙胺、莎稗磷、呋草黄、甲羧除草醚、CH-900、MCPA、除草醚、噁草酮、二甲戊灵、西草净、磺草酮(ICIA 0051)、氟乐灵、哌草磷、稗草畏、乙氧嘧磺隆、苄嘧磺隆、吡唑特、苄草唑、吡草酮、环丙嘧磺隆、氰氟草酯、NBA-061、四唑嘧磺隆、敌稗或唑吡嘧磺隆。该除草组合物适用于防治稻种植中的不良植物。
Description
本发明涉及新颖的混合物,其由1-(3-氯-4,5,6,7-四氢吡唑并[1,5-a]-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(1-(3-Chlor-4,5,6,7-tetrahydropyrazolo-[1,5-a]-pyridin-2-yl)-5-(methyl-propargylamino)-4-pyrazolylcarbonsur-enitril)及其它除草剂组成,及其用于防治农作物中的杂草的应用。
1-(3-氯-4,5,6,7-四氢吡唑并[1,5-a]-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈的除草作用已经被披露(DE OS 4315330)。而且,也明白使用有效成份的混合物可产生特别的好处,尤其是因为大多数情况下,使用个别有效成份并不理想。
现在已发现除草组合物,包含有效成分1-(3-氯-4,5,6,7-四氢吡唑并[1,5-a]-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈[成分(A)]及选自下述除草剂的任一种[成分(B)]的混合物,呈现出特别高的除草活性,且未失去对农作物如稻的选择性,而在某些情况下甚至增进作物的相容性。成分(B)可以是灭草松、禾草敌(molinate)、香草隆(daimuron)、禾草丹(thiobencarb)、丁草胺、丙草胺、哌草丹(dimepiperate)、噁唑禾草灵(fenoxaprop-ethyl)、氯甲酰草胺(clomeprop)、环庚草醚(cinmethylin)、溴丁酰草胺(bromobutide)、二氯喹啉酸(quinclorac)、苯噻酰草胺(mefenacet)、吡嘧磺隆(pyrazosulfuron-ethyl)、戊草丹(esprocarb)、醚磺隆(cinosulfuron)、噻吩草胺(thenylchlor)、枯密隆(cumyluron)、MK243、萘丙胺(naproanilide)、莎稗磷(anilofos)、呋草黄(benfuresate)、甲羧除草醚(Bifenox)、CH-900、MCPA、除草醚、噁草酮(oxadiazon)、二甲戊灵(pendimethalin)、西草净、磺草酮(sulcotrione(ICIA 0051))、氟乐灵、哌草磷(piperophos)、稗草畏(pyributicarb)、乙氧嘧磺隆、苄嘧磺隆(bensulfuronmethyl)、吡唑特(pyrazolate)、苄草唑(pyrazoxyfen)、吡草酮(benzofenap)、环丙嘧磺隆(cyclosulfamuron)、氰氟草酯(cyhalofop-butyl)、NBA-061、四唑嘧磺隆(azimsulfuron)、敌稗(propanil)或唑吡嘧磺隆(imazosulfuron)。
除了枯密隆及NBA-061以外,成分(B)里的有效成分见于,例如,ThePesticidal Manual,10tmEdition(1994),Brit.Crop Prot.Council,London,及The Royal Soc.of Chem.,Cambridge。枯密隆被叙述于Agrochem.Jpn.,63,18-19,1993(Konnai et al.)。NBA-061被叙述于DE 504059,EP 612735和EP 726259。
令人惊讶的是依据本发明的有效成分的混合物,其除草活性远超过个别成分及个别成分总合的活性。因此,协同增效的效应是存在的。
例如,依据本发明的有效成分的混合物可用于防治以下植物:
双子叶杂草有,母草属、水猪母乳属、含羞草属、Heteranthera属、白芥属、猪殃殃属、繁缕属、洋甘菊属、小旋菊属、藜属、芥属、荨麻属、黄菀属、苋属、马齿苋属、苍耳属、旋花属、蕃薯属、蓼属、田菁属、蓟属、飞廉属、苦苣菜属、茄属、下唇属、婆婆纳属、茼麻属、曼陀罗属及堇菜属,以及
单子叶杂草有,泽泻属,燕麦属、看麦娘属、稗属、狗尾草属,莞属、稷属、洋地黄属、早熟禾属、属、臂形草属、黑麦草属、雀麦属、莎草属、冰草属、兹菇属、鸭舌草属、飘拂草属、荸荠属、鸭嘴草属、眼子菜属、布袋莲属及阿披拉草属。
依据本发明的混合物于苗后直接施用植物上,例如将它喷洒到植物上,不然的话则在苗前直接加入或喷洒到田水中。选择性地使用于一系列的农作物是可行的,其中以稻较佳。施用量介于每公顷0.001到5公斤的混合物的成分总合。而且量依所欲的目的而定。
混合物中成分(A)与成分(B)的重量比例系介于1∶0.1到1∶100之间,而以1∶0.5到1∶50较佳。
如果需要的话,依据本发明的混合物可以与其它有效成分混合使用,如其它保护作物的药剂或杀虫剂等,依所欲的目的而定。
还有,其作用的强度与速度可以用像活性促进添加剂,如有机溶剂,润湿剂及油类等,增进。此类添加剂可使得有效成分的剂量更进一步减少。
使用依据本发明的混合物,为方便起见,其制备形式可以是粉末、撒播剂、颗粒、溶液、乳液或悬浮液,其中添加液体和/或固体载体或稀释剂,以及任选的粘着剂、润湿剂,乳化剂、和/或散解剂。
液体载体的范例为脂肪族及芳香族的碳氢化合物如甲苯、二甲苯、或环己酮、异佛尔酮、二甲亚砜、二甲基甲酰胺,还有矿油馏份及植物油。
适合的固体载体有矿石,如皂土、硅胶、滑石、高岭土、硅镁土、石灰石、以及植物来源产物,如麦粉。
要提及的表面活性剂的范例有木素磺酸钙、聚乙烯烷基苯醚、萘磺酸及其盐类、苯酚磺酸及其盐类、甲醛缩合物、脂醇磺酸盐及取代的苯磺酸及其盐类。
在不同制剂中,该有效成份含量可以有很大的变化。例如,该组合物含有重量百分比10至90%的有效成分,大约重量百分比90至10%的液体或固体载体及,如果适当的话,高达重量百分比20%表面活性剂。
该组合物可以以惯常的方式使用,例如使用水当载体,使用量为大约每公顷100至1000公升的喷洒混合物。以所谓低容积及超低容积法(ULV)来使用该混合物也是一样可以的,如使用颗粒或微颗粒形式。
这些制剂可以本身已知的方式制备,例如通过研磨或搅拌过程。如果需要的话,个别成分制剂也可以在其使用前才混合在一起,例如在实际状况下以桶混形式进行。
以下的实施例意在说明依据本发明的组合物的用途。
该协同增效作用的计算系根据S.R.Colby在“除草混合物的协同增效与拮抗反应的计算”中的叙述(Weeds 15/1(1967),20至22页)。
下面的公式用于此目的: 其中
X=当施加物质A为p克/公顷时的除草活性(%)
Y=当施加物质B为q克/公顷时的除草活性(%),以及
E=当施加物质A+B为p+q克/公顷量时的具加成效果的预期除草活性(%)。
如果观察值大于用Colby公式计算出来的E值,则该混合物具有协同增效性。方法叙述
在宽13.5厘米,高8.0厘米的正方形盘中填入900毫升混合土壤。以一固定例行方式将下列品种播种或移植于盘中:品种 种植率 BAYER代码Orysa sativa(稻) 4颗种子 ORYSWOryza sativa(3cm深) 3棵植株 ORYSAOryza sativa(1cm深) 2棵植株 ORYSPEchinocloa crus-galli(稗) 大约20颗种子 ECHCGEchinocloa crus-galli(E) 大约20颗种子 ECHCG(E=Europa)Echinocloa crus-galli(US) 大约20颗种子 ECHCG(US=U.S.A.)Cyperus serotinus 3个球根 CYPSEScirpus Juncoides(萤蔺) 大约30颗种子 SCPJUSagittaria pygmaea(矮慈姑) 3个球根 SAGPYMonochoria vaginalis 4个节 MOOVA(鸭舌草)Cyperus difformis 大约80颗种子 CYPDI(异型莎草)双穗雀稗 4个节 PASDS
在整个实验期间,该种植盘均置于温室中,温度白天为25℃,晚上为20℃。大气中的湿度介于60至80%。在14个小时光照时间,植物至少接受10,000勒克斯的照明度。
受测试物质系在三种不同浓度下接受测试,视其效率而定。
在苗前处理中,受测试物质依表中所列的每公顷用量以喷洒方式施用到播种植物。
在苗后处理中,ECHCG、SCPJU、MOOVA和SAGPY播种于第一个盘,CYPDI和CYPSE跟事先播种发芽的水稻种子则置于第二个盘。一天后,盘子用透明胶膜覆盖以防失去水份。
施用前三天,以三株长出2.5片叶子的水稻植株为一批,栽种于第二个盘中,深度分别为3及1公分。当稗长出1.0片叶子时,便施以活性物质或混合物。水位则提高至1-2公分。
受测试物质以吸量管加到面积约170平方公分的水面,使得每公顷用量与结果表中数值相符(已转换过)。
实施例1(A)与甲羧除草醚(B1)的混合物
本实验中,1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为12.5/25/50g/ha,(B1)的使用量为50/100/200g/ha。
如下列表1所示,协同增效效应在ECHCG(E)、CYPSE、MOOVA及SCPJU可被观察到。表1
实施例2(A)与CH-900(B2)的混合物
| 成份/品种 | ECHCG (E) | CYPSE | MOOVA | SCPJU | |||||
| A/B | 使用量(g/ha) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) |
| A | 12.5 | 60 | 35 | 90 | 20 | ||||
| 25 | 80 | 40 | 95 | 30 | |||||
| 50 | 95 | 80 | 100 | 65 | |||||
| B1 | 50 | 0 | 0 | 65 | 0 | ||||
| 100 | 0 | 0 | 70 | 0 | |||||
| 200 | 0 | 0 | 75 | 0 | |||||
| A+B1 | 12.5+50 | 60 | 60.0 | 35 | 35.0 | 95 | 96.5 | 25 | 20.0 |
| 25+50 | 75 | 80.0 | 60 | 40.0 | 100 | 98.3 | 40 | 30.0 | |
| 50+50 | 98 | 95.0 | 75 | 80.0 | 100 | 100.0 | 65 | 65.0 | |
| 12.5+100 | 65 | 60.0 | 40 | 35.0 | 98 | 97.0 | 30 | 20.0 | |
| 25+100 | 85 | 80.0 | 60 | 40.0 | 100 | 98.5 | 60 | 30.0 | |
| 50+100 | 98 | 95.0 | 80 | 80.0 | 100 | 100.0 | 70 | 65.0 | |
| 12.5+200 | 60 | 60.0 | 35 | 35.0 | 100 | 97.5 | 30 | 20.0 | |
| 25+200 | 90 | 80.0 | 40 | 40.0 | 100 | 98.8 | 70 | 30.0 | |
| 50+200 | 95 | 95.0 | 85 | 80.0 | 100 | 100.0 | 75 | 65.0 | |
该实验中,1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量12.5/25/50g/ha,(B2)的使用量为12.5/25/50g/ha。
如下列表2所示,协同增效效应在ECHCG(E)、SAGPY、SCPJU及CYPDI可被观察到。表2
实施例3(A)与MCPA(B3)的混合物
| 成份/品种 | ECHCG (E) | SAGPY | SCPJU | CYPDI | |||||
| A/B | 使用量(g/ha) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) |
| A | 12.5 | 10 | 10 | 20 | 0 | ||||
| 25 | 75 | 65 | 40 | 20 | |||||
| 50 | 90 | 70 | 60 | 30 | |||||
| B2 | 12.5 | 40 | 10 | 0 | 0 | ||||
| 25 | 70 | 20 | 25 | 95 | |||||
| 50 | 98 | 25 | 50 | 98 | |||||
| A+B2 | 12.5+12.5 | 20 | 46.0 | 10 | 19.0 | 20 | 20.0 | 40 | 0.0 |
| 25+12.5 | 40 | 85.0 | 60 | 68.5 | 65 | 40.0 | 60 | 20.0 | |
| 50+12.5 | 90 | 94.0 | 70 | 73.0 | 70 | 60.00 | 100 | 30.0 | |
| 12.5+25 | 60 | 73.0 | 30 | 28.0 | 60 | 40.0 | 40 | 95.0 | |
| 25+25 | 65 | 92.5 | 40 | 72.0 | 70 | 55.0 | 80 | 96.0 | |
| 50+25 | 98 | 97.0 | 100 | 76.0 | 75 | 70.00 | 95 | 96.5 | |
| 12.5+50 | 100 | 98.2 | 40 | 32.5 | 60 | 60.0 | 90 | 98.0 | |
| 25+50 | 100 | 99.5 | 50 | 73.8 | 65 | 70.0 | 100 | 98.4 | |
| 50+50 | 100 | 99.8 | 90 | 77.5 | 75 | 80.00 | 100 | 98.6 | |
该实验中,1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为12.5/25/50g/ha,(B3)的使用量为50/100/200g/ha。
如下列表3所示,协同增效效应在二个ECHCG品种、CYPSE、SCPJU及CYPDI可被观察到。表3
实施例4(A)与除草醚(B4)的混合物
| 成份/品种 | ECHCG (E) | ECHCG (US) | CYPSE | SCPJU | CYPDI | ||||||
| A/B | 使用量(g/ha) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) |
| A | 12.5 | 75 | 50 | 30 | 10 | 5 | |||||
| 25 | 95 | 90 | 35 | 40 | 20 | ||||||
| 50 | 100 | 100 | 85 | 75 | 25 | ||||||
| B3 | 50 | 0 | 0 | 30 | 0 | 0 | |||||
| 100 | 20 | 20 | 40 | 10 | 10 | ||||||
| 200 | 30 | 60 | 60 | 40 | 100 | ||||||
| A+B3 | 12.5+50 | 80 | 75.0 | 75 | 50.0 | 45 | 51.0 | 20 | 10.0 | 10 | 5.0 |
| 25+50 | 98 | 95.0 | 95 | 90.0 | 75 | 54.5 | 45 | 40.0 | 20 | 20.0 | |
| 50+50 | 100 | 100.0 | 100 | 100.0 | 90 | 89.5 | 80 | 75.0 | 30 | 25.0 | |
| 12.5+100 | 85 | 80.0 | 75 | 60.0 | 60 | 58.0 | 25 | 19.0 | 70 | 14.5 | |
| 25+100 | 95 | 96.0 | 95 | 92.0 | 65 | 61.0 | 60 | 46.0 | 80 | 28.0 | |
| 50+100 | 100 | 100.0 | 100 | 100.0 | 90 | 91.0 | 90 | 77.5 | 95 | 32.5 | |
| 12.5+200 | 85 | 82.5 | 75 | 80.0 | 75 | 72.0 | 75 | 46.0 | 90 | 100.0 | |
| 25+200 | 98 | 96.5 | 95 | 96.0 | 80 | 74.0 | 84 | 64.0 | 95 | 100.0 | |
| 50+200 | 100 | 100.0 | 100 | 100.0 | 95 | 94.0 | 95 | 85.0 | 100 | 100.0 | |
1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为12.5/25/50g/ha,(B4)的使用量为25/50/200g/ha。
如下列表4所示,协同增效效应在ECHCG、SAGPY、SCPJU及CYPDI可被观察到。表4
实施例5(A)与噁草酮(B5)的混合物
| 成份/品种 | ECHCG | SAGPY | SCPJU | CYPDI | |||||
| A/B | 使用量(g/ha) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) |
| A | 12.5 | 10 | 10 | 15 | 0 | ||||
| 25 | 20 | 20 | 30 | 10 | |||||
| 50 | 90 | 60 | 60 | 30 | |||||
| B4 | 25 | 0 | 5 | 0 | 0 | ||||
| 50 | 25 | 10 | 20 | 20 | |||||
| 100 | 80 | 20 | 30 | 25 | |||||
| A+B4 | 12.5+25 | 40 | 10.0 | 10 | 14.5 | 20 | 15.0 | 20 | 0.0 |
| 25+25 | 80 | 20.0 | 25 | 24.0 | 25 | 30.0 | 30 | 10.0 | |
| 50+25 | 85 | 90.0 | 65 | 62.0 | 60 | 60.0 | 60 | 30.0 | |
| 12.5+50 | 70 | 32.5 | 20 | 19.0 | 30 | 32.0 | 20 | 20.0 | |
| 25+50 | 65 | 40.0 | 25 | 28.0 | 40 | 44.0 | 75 | 28.0 | |
| 50+50 | 98 | 92.5 | 70 | 64.0 | 70 | 68.0 | 80 | 44.0 | |
| 12.5+200 | 75 | 82.0 | 30 | 28.0 | 40 | 40.5 | 20 | 25.0 | |
| 25+200 | 80 | 84.0 | 50 | 36.0 | 65 | 51.0 | 80 | 32.5 | |
| 50+200 | 90 | 98.0 | 70 | 68.0 | 75 | 72.0 | 90 | 47.5 | |
1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为12.5/25/50g/ha,(B5)的使用量为125/250/500g/ha。
如下列表5所示,协同增效效应在ECHCG(E)、CYPSE、SAGPY及SCPJU可被观察到。表5
实施例6(A)与二甲戊灵(B6)的混合物
| 成份/品种 | ECHCG (E) | CYPSE | SAGPY | SCPJU | |||||
| A/B | 使用量(g/ha) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) |
| A | 12.5 | 60 | 30 | 10 | 10 | ||||
| 25 | 90 | 45 | 20 | 40 | |||||
| 50 | 100 | 80 | 85 | 60 | |||||
| B5 | 125 | 90 | 5 | 0 | 20 | ||||
| 250 | 100 | 10 | 10 | 30 | |||||
| 500 | 100 | 20 | 20 | 70 | |||||
| A+B5 | 12.5+125 | 98 | 96.0 | 35 | 33.5 | 10 | 10.0 | 30 | 28.0 |
| 25+125 | 100 | 99.0 | 40 | 47.8 | 20 | 20.0 | 50 | 52.0 | |
| 50+125 | 100 | 100.0 | 90 | 81.0 | 85 | 85.0 | 80 | 68.0 | |
| 12.5+250 | 100 | 100.0 | 75 | 37.0 | 30 | 19.0 | 35 | 37.0 | |
| 25+250 | 100 | 100.0 | 85 | 50.5 | 35 | 28.0 | 50 | 58.0 | |
| 50+250 | 100 | 100.0 | 95 | 82.0 | 85 | 86.5 | 80 | 72.0 | |
| 12.5+500 | 100 | 100.0 | 75 | 44.0 | 70 | 28.0 | 70 | 73.0 | |
| 25+500 | 100 | 100.0 | 90 | 56.0 | 80 | 36.0 | 80 | 82.0 | |
| 50+500 | 100 | 100.0 | 95 | 84.0 | 90 | 88.0 | 90 | 88.0 | |
1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为12.5/25/50g/ha,(B6)的使用量为50/100/200g/ha。
如下列表6所示,协同增效效应在ECHCG(US)、CYPSE、SAGPY及CYPDI可被观察到。表6
实施例7(A)与西草净(B7)的混合物
| 成份/品种 | ECHCG (US) | CYPSE | SAGPY | CYPDI | |||||
| A/B | 使用量(g/ha) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) |
| A | 12.5 | 35 | 30 | 50 | 0 | ||||
| 25 | 80 | 35 | 55 | 0 | |||||
| 50 | 97 | 80 | 70 | 90 | |||||
| B6 | 50 | 98 | 0 | 60 | 30 | ||||
| 100 | 99 | 0 | 25 | 35 | |||||
| 200 | 99 | 0 | 30 | 70 | |||||
| A+B6 | 12.5+50 | 97 | 98.7 | 30 | 30.0 | 25 | 80.0 | 30 | 30.0 |
| 25+50 | 98 | 99.6 | 50 | 35.0 | 50 | 82.0 | 45 | 30.0 | |
| 50+50 | 100 | 99.9 | 60 | 80.0 | 98 | 88.0 | 70 | 93.0 | |
| 12.5+100 | 100 | 99.4 | 45 | 30.0 | 25 | 62.5 | 50 | 35.0 | |
| 25+100 | 100 | 99.8 | 55 | 35.0 | 55 | 66.3 | 60 | 35.0 | |
| 50+100 | 100 | 100.0 | 75 | 80.0 | 90 | 77.5 | 75 | 93.5 | |
| 12.5+200 | 100 | 99.4 | 45 | 30.0 | 30 | 65.0 | 55 | 70.0 | |
| 25+200 | 100 | 99.8 | 70 | 35.0 | 55 | 68.5 | 65 | 70.0 | |
| 50+200 | 100 | 100.0 | 75 | 80.0 | 95 | 79.0 | 80 | 97.0 | |
1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为12.5/25/50g/ha,(B7)的使用量为50/100/200g/ha。
如下列表7所示,协同增效效应在CYPSE、SAGPY、SCPJU及CYPDI可被观察到。表7
实施例8(A)与磺草酮(B8)的混合物
| 成份/品种 | CYPSE | SAGPY | SCPJU | CYPDI | |||||
| A/B | 使用量(g/ha) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) |
| A | 12.5 | 20 | 30 | 20 | 0 | ||||
| 25 | 30 | 40 | 40 | 10 | |||||
| 50 | 70 | 70 | 60 | 75 | |||||
| B7 | 50 | 0 | 0 | 0 | 20 | ||||
| 100 | 10 | 0 | 0 | 95 | |||||
| 200 | 20 | 20 | 10 | 100 | |||||
| A+B7 | 12.5+50 | 30 | 20.0 | 65 | 30.0 | 20 | 20.0 | 90 | 20.0 |
| 25+50 | 40 | 30.0 | 70 | 40.0 | 40 | 40.0 | 95 | 28.0 | |
| 50+50 | 75 | 70.0 | 75 | 70.0 | 65 | 60.0 | 100 | 80.0 | |
| 12.5+100 | 30 | 28.0 | 60 | 30.0 | 20 | 20.0 | 100 | 95.0 | |
| 25+100 | 85 | 37.0 | 75 | 40.0 | 45 | 40.0 | 100 | 95.5 | |
| 50+100 | 90 | 73.0 | 80 | 70.0 | 65 | 60.0 | 100 | 98.9 | |
| 12.5+200 | 65 | 36.0 | 75 | 44.0 | 30 | 28.0 | 100 | 100.0 | |
| 25+200 | 70 | 44.0 | 80 | 52.0 | 50 | 46.0 | 100 | 100.0 | |
| 50+200 | 75 | 76.0 | 100 | 76.0 | 70 | 64.00 | 100 | 100.0 | |
1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为12.5/25/50g/ha,(B8)的使用量为25/50/100g/ha。
如下列表8所示,协同增效效应在二个ECHCG品种、SAGPY、SCPJU及CYPDI可被观察到。表8
实施例9(A)与氟乐灵(B9)的混合物
| 成份/品种 | ECHCG(E) | ECHCG(US) | SAGPY | SCPJU | CYPDI | ||||||
| A/B | 使用量(g/ha) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) |
| A | 12.5 | 95 | 45 | 10 | 10 | 0 | |||||
| 25 | 98 | 85 | 25 | 35 | 10 | ||||||
| 50 | 99 | 100 | 98 | 60 | 20 | ||||||
| B8 | 25 | 90 | 25 | 55 | 30 | 20 | |||||
| 50 | 100 | 70 | 85 | 40 | 75 | ||||||
| 10 | 100 | 96 | 98 | 60 | 80 | ||||||
| A+B8 | 12.5+25 | 100 | 99.5 | 75 | 58.8 | 85 | 59.5 | 70 | 37.0 | 80 | 20.0 |
| 25+25 | 100 | 99.8 | 98 | 88.8 | 90 | 66.3 | 80 | 54.5 | 85 | 28.0 | |
| 50+25 | 100 | 99.9 | 100 | 100 | 95 | 99.1 | 85 | 72.0 | 75 | 36.0 | |
| 12.5+50 | 100 | 100 | 90 | 83.5 | 90 | 86.5 | 80 | 46.0 | 75 | 75.0 | |
| 25+50 | 100 | 100 | 100 | 95.5 | 95 | 88.8 | 85 | 61.0 | 100 | 77.5 | |
| 50+50 | 100 | 100 | 100 | 100 | 97 | 99.7 | 90 | 76.0 | 80 | 80.0 | |
| 12.5+100 | 100 | 100 | 100 | 97.8 | 98 | 98.2 | 80 | 64.0 | 85 | 80.0 | |
| 25+100 | 100 | 100 | 100 | 99.4 | 99 | 98.5 | 85 | 74.0 | 90 | 82.0 | |
| 50+100 | 100 | 100 | 100 | 100 | 100 | 100 | 90 | 84.0 | 95 | 84.0 | |
1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为12.5/25/50g/ha,(B9)的使用量为250/500/1000g/ha。
如下列表9所示,协同增效效应在ECHCG(E)、CYPSE、SAGPY及CYPDI可被观察到。表9
实施例10(A)与灭草松(B10)的混合物
| 成份/品种 | ECECG (E) | CYPSE | SAGPY | CYPDI | |||||
| A/B | 使用量(g/ha) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) | 活性(%) | Colby(%) |
| A | 12.5 | 75 | 30 | 30 | 0 | ||||
| 25 | 90 | 45 | 35 | 20 | |||||
| 50 | 100 | 80 | 60 | 30 | |||||
| B9 | 250 | 95 | 0 | 10 | 60 | ||||
| 500 | 95 | 0 | 10 | 75 | |||||
| 1000 | 100 | 10 | 20 | 80 | |||||
| A+B9 | 12.5+250 | 95 | 98.8 | 30 | 30.0 | 30 | 37.0 | 75 | 60.0 |
| 25+250 | 100 | 95.5 | 40 | 45.0 | 35 | 41.5 | 85 | 68.0 | |
| 50+250 | 100 | 100.0 | 80 | 80.0 | 70 | 64.0 | 90 | 72.0 | |
| 12.5+500 | 100 | 98.8 | 30 | 30.0 | 30 | 37.0 | 80 | 75.0 | |
| 25+500 | 100 | 99.5 | 60 | 45.0 | 40 | 41.5 | 85 | 80.0 | |
| 50+500 | 100 | 100.0 | 80 | 80.0 | 75 | 64.0 | 90 | 82.5 | |
| 12.5+1000 | 100 | 100.0 | 30 | 37.0 | 30 | 44.0 | 70 | 80.0 | |
| 25+1000 | 100 | 100.0 | 70 | 50.5 | 50 | 48.0 | 85 | 84.0 | |
| 50+1000 | 100 | 100.0 | 85 | 82.0 | 75 | 68.0 | 95 | 86.0 | |
该实验中,灭草松的使用量为250/500/1000g/ha,而(A)的使用量为25/50/100g/ha。
如下列表10所示,协同增效效应在25g/ha(A)+250/500/1000g/ha灭草松混合比例下可被观察到。表10
| 剂量1(A)[g/ha] | 剂量2来草松[g/ha] | CYPDI活性[%] | Colby′s公式计算值[%] | 协同增效性 |
| 25.050.0100.0 | 10.0100.0100.0 | |||
| 250.0500.01000.0 | 0.010.020.0 | |||
| 25.050.0100.0 | 250.0250.0250.0 | 100.0100.0100.0 | 10.0100.0100.0 | + |
| 25.050.0100.0 | 500.0500.0500.0 | 100.0100.0100.0 | 19.0100.0100.0 | + |
| 25.050.0100.0 | 1000.01000.01000.0 | 100.0100.0100.0 | 28.0100.0100.0 | + |
实施例11(A)与禾草敌(B11)的混合物
该实验中,禾草敌的使用量为250/500/1000g/ha,而(A)的使用量为25/50/100g/ha。
在所使用的混合比例下,当(A)比例低于成份(B11)时,发现在欧洲及美洲稗,及Cyperus品种CYPSE和CYPDI上有协同增效效应。参见下列表11A及11B。表11A
表11B
| 剂量1(A)[g/ha] | 剂量2禾草敌[g/ha] | ECHCG/European(欧洲) | 协同增效性 | ECHCG/American(美洲) | 协同增效性 | ||
| 活性[%] | Colby's公式计算值[%] | 活性[%] | Colby′s公式计算值[%] | ||||
| 25.050.0100.0 | 80.099.0100.0 | 60.0100.0100.0 | |||||
| 250.0500.01000.0 | 10.065.080.0 | 20.065.080.0 | |||||
| 25.050.0100.0 | 250.0250.0250.0 | 100.0100.0100.0 | 82.099.1100.0 | ++ | 100.0100.0100.0 | 68.0100.0100.0 | + |
| 25.050.0100.0 | 500.0500.0500.0 | 100.0100.0100.0 | 93.099.7100.0 | ++ | 100.0100.0100.0 | 86.0100.0100.0 | + |
| 25.050.0100.0 | 1000.01000.01000.0 | 100.0100.0100.0 | 96.099.8100.0 | ++ | 100.0100.0100.0 | 92.0100.0100.0 | + |
| 剂量1(A)[g/ha] | 剂量2禾草敌[g/ha] | CYPSE活性[%] | Colby′s公式计算值[%] | 协同增效性 | CYPDI活性[%] | Colby′s公式计算值[%] | 协同增效性 |
| 25.050.0100.0g/ha | 20.0100.0 | 50.098.0100.0 | |||||
| 250.0500.01000.0 | 50.060.070.0 | 85.090.092.0 | |||||
| 25.050.0100.0g/ha | 250.0250.0250.0 | 95.097.098.0 | 50.060.0100.0 | ++ | 85.092.0100.0 | 92.599.7100.0 | |
| 25.050.0100.0g/ha | 500.0500.0500.0 | 30.050.0100.0 | 60.068.0100.0 | 100.0100.0100.0 | 95.099.8100.0 | ++ | |
| 25.050.0100.0g/ha | 1000.01000.01000.0 | 98.0100.0100.0 | 70.076.0100.0 | ++ | 100.0100.0100.0 | 96.099.8100.0 | ++ |
实施例12(A)与香草隆(B12)的混合物
该实验中,香草隆的使用量为200/400/800g/ha,而(A)的使用量为25/50/100g/ha。
对不同的混合比例而言,如下列表12A,12B及12C所示,协同增效效应在ECHCG(E),Cyperus品种CYPSE及CYPDI,以及SAGPY可被观察到。表12A
表12B
表12C
| 剂量1(A)[g/ha] | 剂量2香草隆[g/ha] | ECHCH(European) | 协同增效性 | |
| 活性[%] | Colby′s计算值[%] | |||
| 25.050.0100.0 | 75.098.0100.0 | |||
| 200.0400.0800.0 | 25.025.065.0 | |||
| 25.050.0100.0 | 200.0200.0200.0 | 70.099.0100.0 | 81.398.5100.0 | + |
| 25.050.0100.0 | 400.0400.0400.0 | 90.0100.0100.0 | 81.398.5100.0 | ++ |
| 25.050.0100.0 | 800.0800.0800.0 | 80.0100.0100.0 | 91.399.3100.0 | + |
| 剂量1( A )[g/ha] | 剂量2香草隆[g/ha] | CYPSE | 协同增效性 | CYPDI | 协同增效性 | ||
| 活性[%] | Colby′s公式计算值[%] | 活性[%] | Colby′s公式计算值[%] | ||||
| 25.050.0100.0 | 70.0100.0 | 60.080.0100.0 | |||||
| 200.0400.0800.0 | 10.030.065.0 | 0.020.090.0 | |||||
| 25.050.0100.0 | 200.0200.0200.0 | 70.080.090.0 | 10.073.0100.0 | ++ | 60.070.080.0 | 60.080.0100.0 | |
| 25.050.0100.0 | 400.0400.0400.0 | 60.075.080.0 | 30.079.0100.0 | + | 98.099.0100.0 | 68.084.0100.0 | ++ |
| 25.050.0100.0 | 800.0800.0800.0 | 85.0100.0100.0 | 65.089.5100.0 | ++ | 99.0100.0100.0 | 96.098.0100.0 | ++ |
| 剂量1(A)[g/ha] | 剂量2香草隆[g/ha] | SAGPY | 协同增效性 | |
| 活性[%] | Colby′s公式计算值[%] | |||
| 25.050.0100.0g/ha | 200.0400.0800.0 | 40.080.090.0 | ||
| 25.050.0100.0g/ha | 200.0200.0200.0 | 50.080.095.0 | 40.080.090.0 | ++ |
| 25.050.0100.0g/ha | 400.0400.0400.0 | 55.085.095.0 | 40.080.090.0 | +++ |
| 25.050.0100.0g/ha | 800.0800.0800.0 | 60.070.095.0 | 40.080.090.0 | ++ |
实施例13(A)与禾草丹(B13)的混合物
该实验中,禾草丹的使用量为250/500/1000g/ha,而(A)的使用量为25/50/100g/ha。
对某些混合比例而言,协同增效效应在ECHCG(E)及SAGPY可被观察到。参见下列表13。表13
| 剂量1(A)[g/ha] | 剂量2禾草丹[g/ha] | ECHCG(European) | 协同增效性 | SAGPY | 协同增效性 | ||
| 活性[%] | Colby′s公式计算值[%] | 活性[%] | Colby′s公式计算值[%] | ||||
| 25.050.0100.0 | 85.098.0100.0 | 10.085.095.0 | |||||
| 250.0500.01000.0 | 65.090.0100.0 | ||||||
| 25.050.0100.0 | 250.0250.0250.0 | 98.099.0100.0 | 94.899.3100.0 | + | 50.060.070.0 | 10.085.095.0 | + |
| 25.050.0100.0 | 500.0500.0500.0 | 98.0100.0100.0 | 98.599.8100.0 | + | 50.070.082.0 | 10.085.095.0 | + |
| 25.050.0100.0 | 1000.01000.01000.0 | 100.0100.0100.0 | 100.0100.0100.0 | 55.075.085.0 | 10.085.095.0 | + | |
实施例14(A)与丁草胺(B14)的混合物
该实验中,丁草胺的使用量为250/500/1000g/ha,而(A)的使用量为25/50/100g/ha。
对大多数的混合比例而言,协同增效效应在SAGPY可被观察到。参见下列表14。
表14
| 剂量1(A)[g/ha] | 剂量2丁草胺[g/ha] | SAGPY | 协同增效性 | |
| 活性[%] | Colby′s公式计算值[%] | |||
| 25.050.0100.0 | 50.070.090.0 | |||
| 250.0500.01000.0 | 20.030.035.0 | |||
| 25.050.0100.0 | 250.0250.0250.0 | 80.090.0100.0 | 60.076.092.0 | +++ |
| 25.050.0100.0 | 500.0500.0500.0 | 40.090.094.0 | 65.079.093.0 | ++ |
| 25.050.0100.0 | 1000.01000.01000.0 | 60.090.095.0 | 67.580.593.5 | ++ |
实施例15(A)与丙草胺(B15)的混合物
该实验中,丙草胺的使用量为200/400/600g/ha,而(A)的使用量为25/50/100g/ha。
对某些混合比例而言,协同增效效应在SCPJU及CYPDI可被观察到。参见下列表15。表15
| 剂量1(A)[g/ha] | 剂量2丙草胺[g/ha] | SCPJU | 协同增效性 | CYPDI | 协同增效性 | ||
| 活性[%] | Colby's公式计算值[%] | 活性[%] | Colby′s公式计算值[%] | ||||
| 25.050.0100.0 | 85.090.095.0 | 60.080.095.0 | |||||
| 200.0400.0600.0 | 80.080.080.0 | 90.090.095.0 | |||||
| 25.050.0100.0 | 200.0200.0200.0 | 98.098.099.0 | 97.098.099.0 | + | 95.0100.0100.0 | 96.098.099.5 | ++ |
| 25.050.0100.0 | 400.0400.0400.0 | 100.0100.098.0 | 97.098.099.0 | ++ | 100.0100.098.0 | 96.098.099.5 | ++ |
| 25.050.0100.0 | 600.0600.0600.0 | 98.099.098.0 | 97.098.099.0 | ++ | 95.098.099.0 | 98.099.099.8 | |
实施例16(A)与哌草丹(B16)的混合物
该实验中,哌草丹的使用量为250/500/1000g/ha,而(A)的使用量为25/50/100g/ha。
对某些混合比例而言,协同增效效应在SAGPY及CYPDI可被观察到。参见下列表16。表16
| 剂量1(A)[g/ha] | 剂量2哌草丹[g/ha] | CYPDI | 协同增效性 | SAGPY | 协同增效性 | ||
| 活性[%] | Colby's公式计算值[%] | 活性[%] | Colby′s公式计算值[%] | ||||
| 25.050.0100.0 | 70.080.090.0 | 0.050.080.0 | |||||
| 250.0500.01000.0 | 0.030.060.0 | ||||||
| 25.050.0100.0 | 250.0250.0250.0 | 100.0100.0100.0 | 70.080.090.0 | +++ | 20.050.075.0 | 0.050.080.0 | + |
| 25.050.0100.0 | 500.0500.0500.0 | 100.0100.0100.0 | 79.086.093.0 | +++ | 20.050.075.0 | 0.050.080.0 | + |
| 25.050.0100.0 | 1000.01000.01000.0 | 100.0100.0100.0 | 88.092.096.0 | +++ | 25.070.090.0 | 0.050.080.0 | +++ |
实施例17(A)与噁唑禾草灵(B17)的混合物
该实验中,噁唑禾草灵的使用量为5/10/20g/ha,而(A)的使用量为25/50/100g/ha。
对某些混合比例而言,协同增效效应在ECHCG(US)及CYPDI可被观察到。参见下列表17。表17
| 剂量1(A)[g/ha] | 剂量2噁唑禾草灵[g/ha] | ECHCG(American) | 协同增效性 | CYPDI | 协同增效性 | ||
| 活性[%] | Colby′s公式计算值[%] | 活性[%] | Colby′s公式计算值[%] | ||||
| 25.050.0100.0 | 98.099.0100.0 | 90.092.095.0 | |||||
| 5.010.020.0 | 10.020.00.0 | 0.00.080.0 | |||||
| 25.050.0100.0 | 5.05.05.0 | 25.0100.0100.0 | 98.299.1100.0 | + | 80.090.0100.0 | 90.092.095.0 | + |
| 25.050.0100.0 | 10.010.010.0 | 25.098.0100.0 | 98.499.2100.0 | 95.0100.0100.0 | 90.092.095.0 | +++ | |
| 25.050.0100.0 | 20.020.020.0 | 10.0100.0100.0 | 98.099.0100.0 | + | 40.0100.0100.0 | 98.098.499.0 | ++ |
实施例18(A)与氯甲酰草胺(B18)的混合物
该实验中,氯甲酰草胺的使用量为200/400/800g/ha,而(A)的使用量为25/50/100g/ha。
对某些混合比例而言,协同增效效应在CYPDI可被观察到。参见下列表18。表18
| 剂量1(A)[g/ha] | 剂量2氯甲酰草胺[g/ha] | CYPDI 计算值 | 协同增效性 | |
| 活性[%] | Colby′s公式计算值[%] | |||
| 25.050.0100.0 | 70.075.090.0 | |||
| 25.050.0100.0 | 200.0400.0800. | 95.0100.0100.0 | ||
| 25.050.0100.0 | 200.0200.0200.0 | 100.0100.0100.0 | 98.598.899.5 | +++ |
| 25.050.0100.0 | 400.0400.0400.0 | 100.0100.0100.0 | 100.0100.0100.0 | |
| 25.050.0100.0 | 800.0800.0800.0 | 100.0100.0100.0 | 100.0100.0100.0 | |
实施例19(A)与环庚草醚(B19)的混合物
该实验中,环庚草醚的使用量为10/20/40g/ha,而(A)的使用量为25/50/100g/ha。
对某些混合比例而言,协同增效效应在ECHCG(E)及CYPDI可被观察到。参见下列表19。表19
| 剂量1(A)[g/ha] | 剂量2环庚草醚[g/ha] | ECHCG(European) | 协同增效性 | CYPDI | 协同增效性 | ||
| 活性[%] | Colby′s公式计算值[%] | 活性[%] | Colby′s公式计算值[%] | ||||
| 25.050.0100.0 | 95.099.0100.0 | 30.080.090.0 | |||||
| 10.020.040.0 | 60.0100.0100.0 | 60.060.060.0 | |||||
| 25.050.0100.0 | 10.010.010.0 | 99.0100.0100.0 | 98.099.6100.0 | ++ | 30.098.098.0 | 72.092.096.0 | ++ |
| 25.050.0100.0 | 20.020.020.0 | 100.0100.0100.0 | 100.0100.0100.0 | 90.0100.0100.0 | 72.092.096.0 | +++ | |
| 25.050.0100.0 | 40.040.040.0 | 100.0100.0100.0 | 100.0100.0100.0 | 100.0100.0100.0 | 72.092.096.0 | +++ | |
实施例20(A)与溴丁酰草胺(B20)的混合物
该实验中,溴丁酰草胺的使用量为100/200/400g/ha,而(A)的使用量为25/50/100g/ha。
对某些混合比例而言,协同增效效应在ECHCG(European)及ECHCG(American)可被观察到。参见下列表20。表20
| 剂量1(A)[g/ha] | 剂量2溴丁酰草胺[g/ha] | ECHCG(European) | 协同增效性 | ECHCG(American) | 协同增效性 | ||
| 活性[%] | Colby′s公式计算值[%] | 活性[%] | Colby′s公式计算值[%] | ||||
| 25.050.0100.0 | 50.098.0100.0 | 65.099.0100.0 | |||||
| 200.0400.0800.0 | 10.025.030.0 | 5.010.040.0 | |||||
| 25.050.0100.0 | 200.0200.0200.0 | 90.0100.0100.0 | 55.098.2100.0 | ++ | 80.0100.0100.0 | 66.899.1100.0 | ++ |
| 25.050.0100.0 | 400.0400.0400.0 | 95.0100.0100.0 | 62.598.5100.0 | ++ | 98.0100.0100.0 | 68.599.1100.0 | ++ |
| 25.050.0100.0 | 800.0800.0800.0 | 100.0100.0100.0 | 65.098.6100.0 | ++ | 100.0100.0100.0 | 79.099.4100.0 | ++ |
实施例21(A)与二氯喹啉酸(B21)的混合物
该实验中,二氯喹啉酸的使用量为250/500/1000g/ha,而(A)的使用量为25/50/100g/ha。
对某些混合比例而言,协同增效效应在CYPSE及SCPJU可被观察到。参见下列表21。表21
| 剂量1(A)[g/ha] | 剂量2二氯喹啉酸[g/ha] | CYPSE | 协同增效性 | SCPJU | 协同增效性 | ||
| 活性[%] | Colby′s公式计算值[%] | 活性[%] | Colby′s公式计算值[%] | ||||
| 25.050.0100.0 | 0.010.095.0 | 98.0100.0100.0 | |||||
| 250.0500.01000.0 | 0.00.00.0 | 0.010.050.0 | |||||
| 25.050.0100.0 | 250.0250.0250.0 | 0.050.095.0 | 10.095.0 | + | 99.0100.0100.0 | 98.0100.0100.0 | + |
| 25.050.0100.0 | 500.0500.0500.0 | 0.050.0100.0 | 0.010.095.0 | ++ | 100.0100.0100.0 | 98.2100.0100.0 | + |
| 25.050.0100.0 | 1000.01000.01000.0 | 10.050.0100.0 | 0.010.095.0 | +++ | 100.0100.0100.0 | 99.0100.0100.0 | + |
实施例22(A)与苯噻酰草胺(B22)的混合物
该实验中,苯噻酰草胺的使用量为250/500/1000g/ha,而(A)的使用量为25/50/100g/ha。
对某些混合比例而言,协同增效效应在SAGPY可被观察到。参见下列表22。
表22
| 剂量1(A)[g/ha] | 剂量2苯噻酰草胺[g/ha] | SAGPY | 协同增效性 | |
| 活性[%] | Colby′s公式计算值[%] | |||
| 25.050.0100.0 | 30.040.0 | |||
| 250.0500.01000.0 | 0.020.040.0 | |||
| 25.050.0100.0 | 250.0250.0250.0 | 30.050.080.0 | 0.030.040.0 | +++ |
| 25.050.0100.0 | 500.0500.0500.0 | 30.050.080.0 | 20.044.052.0 | +++ |
| 25.050.0100.0 | 1000.01000.01000.0 | 30.075.090.0 | 40.058.064.0 | ++ |
实施例23(A)与吡嘧磺隆(B23)的混合物
该实验中,吡嘧磺隆的使用量为10/40g/ha,而(A)的使用量为25/50/100g/ha。
对某些混合比例而言,协同增效效应在CYPDI可被观察到。参见下列表23。
表23
| 剂量1 | 剂量2 | CYPDI | ||
| (A)[g/ha] | 吡嘧磺隆[g/ha] | 活性[%] | Colby′s公式计算值[%] | 协同增效性 |
| 25.050.0100.0 | 90.090.070.0 | |||
| 10.040.0 | 95.070.0 | |||
| 25.050.0100.0 | 10.010.010.0 | 95.090.0100.0 | 99.599.598.5 | + |
| 25.050.0100.0 | 40.040.040.0 | 75.0100.0100.0 | 97.097.091.0 | ++ |
实施例24(A)与戊草丹(B24)的混合物
该实验中,戊草丹的使用量为200/400/800g/ha,而(A)的使用量为25/50/100g/ha。
对某些混合比例而言,协同增效效应在ECHCG(European)及SCPJU可被观察到。参见下列表24。表24
| 剂量1(A)[g/ha] | 剂量2戊草丹[g/ha] | ECHCH(European) | 协同增效性 | SCPJU | 协同增效性 | ||
| 活性[%] | Colby′s公式计算值[%] | 活性[%] | Colby′s公式计算值[%] | ||||
| 25.050.0100.0 | 95.099.0100.0 | 95.097.099.0 | |||||
| 200.0400.0800.0 | 20.080.080.0 | 45.080.085.0 | |||||
| 25.050.0100.0 | 200.0200.0200.0 | 99.0100.0100.0 | 96.099.2100.0 | ++ | 100.0100.0100.0 | 97.398.499.5 | +++ |
| 25.050.0100.0 | 400.0400.0400.0 | 92.0100.0100.0 | 99.099.8100.0 | + | 99.099.0100.0 | 99.099.499.8 | + |
| 25.050.0100.0 | 800.0800.0800.0 | 99.0100.0100.0 | 99.099.8100.0 | + | 99.099.0100.0 | 99.399.699.9 | + |
实施例25(A)与醚磺隆(B25)的混合物
该实验中,醚磺隆的使用量为25/75g/ha,而(A)的使用量为25/50/100g/ha。
对某些混合比例而言,协同增效效应在CYPSE可被观察到。参见下列表25。
表25
| 剂量1(A)[g/ha] | 剂量2醚磺隆[g/ha] | CYPSE | 协同增效性 | |
| 活性[%] | Colby’s公式计算值[%] | |||
| 25.050.0100.0 | 0.010.020.0 | |||
| 25.075.0 | 0.045.0 | |||
| 25.050.0100.0 | 25.025.025.0 | 0.020.020.0 | 0.010.020.0 | + |
| 25.050.0100.0 | 75.075.075.0 | 60.070.085.0 | 45.050.556.0 | +++ |
实施例26(A)与噻吩草胺(B26)的混合物
该实验中,噻吩草胺的使用量为25/50/75g/ha,而(A)的使用量为25/50/100g/ha。
对某些混合比例而言,协同增效效应在ECHCG(European)、CYPSE及SAGPY可被观察到。参见下列表26A及26B。表26A
表26B
| 剂量1(A)[g/ha] | 剂量2噻吩草胺[g/ha] | ECHCG (European) | 协同增效性 | |
| 活性[%] | Colby′s公式计算值[%] | |||
| 25.050.0100.0 | 55.097.099.0 | |||
| 25.050.075.0 | 10.096.098.0 | |||
| 25.050.0100.0 | 25.025.025.0 | 80.098.099.0 | 59.597.399.1 | ++ |
| 25.050.0100.0 | 50.050.050.0 | 100.0100.0100.0 | 98.299.9100.0 | +++ |
| 25.050.0100.0 | 75.075.075.0 | 100.0100.0100.0 | 99.199.9100.0 | +++ |
| 剂量1(A)[g/ha] | 剂量2噻吩草胺[g/ha] | CYPSE | 协同增效性 | SAGPY | 协同增效性 | ||
| 活性[%] | Colby′s公式计算值[%] | 活性[%] | Colby′s公式计算值[%] | ||||
| 25.050.0100.0 | 0.010.095.0 | 55.070.085.0 | |||||
| 25.050.075.0 | 10.030.080.0 | 0.00.010.0 | |||||
| 25.050.0100.0 | 25.025.025.0 | 0.090.095.0 | 10.019.095.5 | 50.070.090.0 | 55.070.085.0 | + | |
| 25.050.0100.0 | 50.050.050.0 | 0.00.00.0 | 30.037.096.5 | 70.080.090.0 | 55.070.085.0 | +++ | |
| 25.050.0100.0 | 75.075.075.0 | 95.097.098.0 | 80.082.099.0 | ++ | 30.090.090.0 | 59.573.086.5 | ++ |
实施例27(A)与枯密隆(B27)的混合物
该实验中,枯密隆的使用量为25/50/75g/ha,而(A)的使用量为25/50/100g/ha。
对某些混合比例而言,协同增效效应在ECHCG(European)及ECHCG(American)可被观察到。参见下列表27。表27
| 剂量1(A)[g/ha] | 剂量2枯密隆[g/ha] | ECHCG(Europoean) | 协同增效性 | ECHCG(American) | 协同增效性 | ||
| 活性[%] | Colby′s公式计算值[%] | 活性[%] | Colby′s公式计算值[%] | ||||
| 25.050.0100.0 | 90.0100.0100.0 | 93.0100.0100.0 | |||||
| 25.050.075.0 | 0.020.030.0 | 0.010.020.0 | |||||
| 25.050.0100.0 | 25.025.025.0 | 95.0100.0100.0 | 90.0100.0100.0 | + | 95.0100.0100.0 | 93.0100.0100.0 | + |
| 25.050.0100.0 | 50.050.050.0 | 95.0100.0100.0 | 92.0100.0100.0 | + | 95.0100.0100.0 | 93.7100.0100.0 | + |
| 25.050.0100.0 | 75.075.075.0 | 70.0100.0100.0 | 93.0100.0100.0 | 95.0100.0100.0 | 94.4100.0100.0 | + | |
实施例28(A)与MK243(B28)的混合物
该实验中,MK243的使用量为25/50/75g/ha,而(A)的使用量为25/50/100g/ha。
MK243系以WP20配方,而(A)以WP5配方的形式存在。
对某些混合比例而言,协同增效效应在CYPSE及CYDPI可被观察到。参见下列表28。表28
| 剂量1(A)[g/ha] | 剂量2MK 243[g/ha] | CYPSE | 协同增效性 | CYPDI | 协同增效性 | ||
| 活性[%] | Colby′s公式计算值[%] | 活性[%] | Colby′s公式计算值[%] | ||||
| 25.050.0100.0 | 0.040.0100.0 | 98.099.0100.0 | |||||
| 25.050.075.0 | 0.00.010.0 | 0.00.030.0 | |||||
| 25.050.0100.0 | 25.025.025.0 | 0.040.090.0 | 0.040.0100.0 | 100.0100.0100.0 | 98.099.0100.0 | ++ | |
| 25.050.0100.0 | 50.050.050.0 | 30.050.096.0 | 0.040.0100.0 | ++ | 95.098.0100.0 | 98.099.0100.0 | |
| 25.050.0 | 75.075.0 | 100.0100.0 | 10.046.0 | ++ | 100.0100.0 | 98.699.3 | ++ |
实施例29(A)与萘丙胺(B29)的混合物
该实验中,萘丙胺的使用量为500/625/750g/ha,而(A)的使用量为100/125/150g/ha。
对某些混合比例而言,协同增效效应在CYPSE可被观察到。参见下列表29。表29
| 剂量1(A)[g/ha] | 剂量2萘丙胺[g/ha] | CYPSE | 协同增效性 | |
| 活性[%] | Colby′s公式计算值[%] | |||
| 100.0125.0150.0 | 95.085.080.0 | |||
| 500.0625.0750.0 | 0.00.00.0 | |||
| 100.0125.0150.0 | 500.0500.0500.0 | 88.090.085.0 | 95.085.080.0 | ++ |
| 100.0125.0150.0 | 625.0625.0625.0 | 90.090.070.0 | 95.085.080.0 | + |
| 100.0125.0150.0 | 750.0750.0750.0 | 90.095.070.0 | 95.085.080.0 | + |
实施例30(A)与莎稗磷(B30)的混合物
该实验中,莎稗磷的使用量为62.5/93.8/125g/ha,而(A)的使用量为50/75/100g/ha。
对所有混合比例而言,协同增效效应在CYPSE可被观察到。参见下列表30。表30
| 剂量1(A)[g/ha] | 剂量2莎稗磷[g/ha] | CYPSE | 协同增效性 | |
| 活性[%] | Colby′s公式计算值[%] | |||
| 50.075.0100.0 | 80.080.080.0 | |||
| 62.593.8125.0 | 0.00.00.0 | |||
| 50.075.0100.0 | 62.562.562.5 | 90.095.095.0 | 80.080.080.0 | +++ |
| 50.075.0100.0 | 93.893.893.8 | 90.085.095.0 | 80.080.080.0 | +++ |
| 50.075.0100.0 | 125.0125.0125.0 | 90.085.090.0 | 80.080.080.0 | +++ |
实施例31(A)与呋草黄(B31)的混合物
该实验中,呋草黄的使用量为150/200/250g/ha,而(A)的使用量为50/75/100g/ha。
对某些混合比例而言,协同增效效应在CYPDI可被观察到。参见下列表31。表31
| 剂量1(A)[g/ha] | 剂量2呋草黄[g/ha] | CYPDI | 协同增效性 | |
| 活性[%] | Colby′s公式计算值[%] | |||
| 50.075.0100.0 | 90.0100.0100.0 | |||
| 150.0200.0250.0 | 0.00.060.0 | |||
| 50.075.0100.0 | 150.0150.0150.0 | 100.0100.0100.0 | 90.0100.0100.0 | + |
| 50.075.0100.0 | 200.0200.0200.0 | 100.0100.0100.0 | 90.0100.0100.0 | + |
| 50.075.0100.0 | 250.0250.0250.0 | 100.0100.0100.0 | 96.0100.0100.0 | + |
实施例32(A)与哌草磷(B32)的混合物
本实验中,1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为25及100g/ha,而哌草磷的使用量为400及800g/ha。
对某些混合比例而言,协同增效效应在SCPJU可被观察到。参见下列表32。表32
| 剂量1(A) | 剂量2哌草磷 | SCPJU活性 (%) | Colby′s公式计算值 | 协同增效性 |
| 25 | 65 | |||
| 100 | 95 | |||
| 400 | 92 | |||
| 800 | 94 | |||
| 25 | 800 | 99 | 98 | + |
| 100 | 800 | 100 | 99.7 | + |
实施例33(A)与稗草畏(B33)的混合物
本实验中,1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为25及50g/ha,而稗草丹的使用量为200及400g/ha。
对某些混合比例而言,协同增效效应在ECHCG可被观察到。参见下列表33。
表33
实施例34(A)与乙氧嘧磺隆(B34)的混合物
| 剂量1(A) | 剂量2稗草畏 | ECHCG活性(%) | Colby′s公式计算值 | 协同增效性 |
| 25 | 87 | |||
| 50 | 99 | |||
| 200 | 80 | |||
| 400 | 99 | |||
| 25 | 200 | 98 | 97.4 | + |
| 25 | 400 | 100 | 99.9 | + |
本实验中,1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为12.5/25/50g/ha,而乙氧嘧磺隆的使用量为5,10及20g/ha。
对某些混合比例而言,协同增效效应在ECHCG(2.5片叶子阶段)可被观察到。参见下列表34。
表34
| 剂量1(A) | 剂量2乙氧嘧磺隆 | ECHCG活性(%) | Colby′s公式计算值 | 协同增效性 |
| 12.5 | 30 | |||
| 25 | 50 | |||
| 50 | 75 | |||
| 5 | 0 | |||
| 10 | 10 | |||
| 20 | 20 | |||
| 12.5 | 5 | 30 | 30 | - |
| 25 | 5 | 60 | 50 | + |
| 50 | 5 | 98 | 75 | + |
| 12.5 | 10 | 45 | 37 | + |
| 25 | 10 | 65 | 55 | + |
| 50 | 10 | 98 | 77.5 | + |
| 12.5 | 20 | 45 | 44 | + |
| 25 | 20 | 65 | 60 | + |
| 50 | 20 | 98 | 80 | + |
实施例35(A)与苄嘧磺隆(B35)的混合物
本实验中,1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为12.5及25g/ha,而苄嘧磺隆的使用量为10及20g/ha。
如下列表35所示,协同增效效应在ECHCG(2.5片叶子阶段)可被观察到。表35
| 剂量1(A) | 剂量2苄嘧磺隆 | ECHCG活性(%) | Colby′s公式计算值 | 协同增效性 |
| 12.5 | 20 | |||
| 25 | 40 | |||
| 10 | 40 | |||
| 20 | 70 | |||
| 25 | 10 | 70 | 64 | + |
实施例36(A)与吡唑特(B36)的混合物
本实验中,1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为50及100g/ha,而吡唑特的使用量为500及1000g/ha。
对某些混合比例而言,协同增效效应在PASDS可被观察到。参见下列表36。表36
| 剂量1(A) | 剂量2吡唑特 | PASDS活性(%) | Colby's公式计算值 | 协同增效性 |
| 50 | 70 | |||
| 100 | 80 | |||
| 500 | 0 | |||
| 1000 | 0 | |||
| 50 | 500 | 70 | 70 | - |
| 100 | 500 | 95 | 80 | + |
| 100 | 1000 | 100 | 80 | + |
实施例37(A)与苄草唑(B37)的混合物
本实验中,1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为50及100g/ha,而苄草唑的使用量为500及1000g/ha。
对某些混合比例而言,协同增效效应在PASDS可被观察到。参见下列表37。
表37
| 剂量1(A) | 剂量2苄草唑 | PASDS活性(%) | Colby′s公式计算值 | 协同增效性 |
| 50 | 10 | |||
| 100 | 98 | |||
| 500 | 0 | |||
| 1000 | 0 | |||
| 50 | 500 | 20 | 10 | + |
| 100 | 500 | 98 | 98 | - |
| 50 | 1000 | 30 | 10 | + |
实施例38(A)与吡草酮(B38)的混合物
本实验中,1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为50g/ha,而吡草酮的使用量为500及1000g/ha。
如下列表38所示,协同增效效应在ECHCG可被观察到。表38
| 剂量1(A) | 剂量2吡草酮 | ECHCG活性(%) | Colby′s公式计算值 | 协同增效性 |
| 50 | 80 | |||
| 500 | 0 | |||
| 1000 | 0 | |||
| 50 | 500 | 98 | 90 | + |
实施例39(A)与环丙嘧磺隆(B39)的混合物
本实验中,1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为6.25及12.5g/ha,而环丙嘧磺隆的使用量为15及30g/ha。
对某些混合比例而言,协同增效效应在SCPJU可被观察到。参见下列表39。表39
| 剂量1(A) | 剂量2环丙嘧磺隆 | SCPJU活性(%) | Colby′s公式计算值 | 协同增效性 |
| 6.25 | 30 | |||
| 12.5 | 50 | |||
| 15 | 60 | |||
| 30 | 90 | |||
| 12.5 | 15 | 80 | 80 | - |
| 6.25 | 30 | 100 | 93 | + |
| 12.5 | 30 | 100 | 95 | + |
实施例40(A)与氰氟草酯(B40)的混合物
本实验中,1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为25及50g/ha,而氰氟草酯的使用量为15及30g/ha。对某些混合比例而言,协同增效效应在ECHCG可被观察到。参见下列表40。
表40
| 剂量1(A) | 剂量2稗草畏 | ECHCG活性(%) | Colby′s公式计算值 | 协同增效性 |
| 25 | 30 | |||
| 50 | 80 | |||
| 15 | 50 | |||
| 30 | 80 | |||
| 25 | 15 | 80 | 65 | + |
| 50 | 15 | 95 | 90 | + |
| 25 | 30 | 90 | 86 | |
| 50 | 30 | 98 | 96 | + |
实施例41(A)与NBA-061(B41)的混合物
本实验中,1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为25及50g/ha,而NBA-061的使用量为12.5及25g/ha。
对某些混合比例而言,协同增效效应在ECHCG可被观察到。参见下列表41。表41
| 剂量1(A) | 剂量2NBA-061 | ECHCG活性(%) | Colby′s公式计算值 | 协同增效性 |
| 25 | 30 | |||
| 50 | 80 | |||
| 12.5 | 50 | |||
| 25 | 70 | |||
| 25 | 12.5 | 80 | 65 | + |
| 25 | 25 | 90 | 79 | + |
| 50 | 25 | 95 | 94 | + |
实施例42(A)与四唑嘧磺隆的混合物
本实验中,1-(3-氯-4,5,6,7-四氢吡唑并〔1,5-a〕-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈(A)的使用量为30及60g/ha,而四唑嘧磺隆的使用量为5及10g/ha。
对某些混合比例而言,协同增效效应在CYPSE可被观察到。参见下列表42。表42
| 剂量1(A) | 剂量2四唑嘧磺隆 | CYPSE活性(%) | Colby′s公式计算值 | 协同增效性 |
| 30 | 50 | |||
| 60 | 70 | |||
| 5 | 70 | |||
| 10 | 80 | |||
| 30 | 10 | 100 | 90 | + |
| 60 | 10 | 100 | 94 | + |
Claims (9)
1.一种协同增效活性除草组合物,包含有效成分为1-(3-氯-4,5,6,7-四氢吡唑并[1,5-a]-吡啶-2-基)-5-(甲基炔丙基氨基)-4-吡唑基腈[成份(A)]及一种除草剂[成份(B)]的混合物,该除草剂[成份(B)]选自灭草松、禾草敌、香草隆、禾草丹、丁草胺、丙草胺、哌草丹、噁唑禾草灵、氯甲酰草胺、环庚草醚、溴丁酰草胺、二氯喹啉酸、苯噻酰草胺、吡嘧磺隆、戊草丹、醚磺隆、噻吩草胺、枯密隆、MK 243、萘丙胺、莎稗磷、呋草黄、甲羧除草醚、CH-900、MCPA、除草醚、噁草酮、二甲戊灵、西草净、磺草酮、氟乐灵、哌草磷、稗草畏、乙氧嘧磺隆、苄嘧磺隆、吡唑特、苄草唑、吡草酮、环丙嘧磺隆、氰氟草酯、NBA-061、四唑嘧磺隆、敌稗或唑吡嘧磺隆,其中混合物的成分(A)与成分(B)的重量比例为1∶0.1到1∶100之间。
2.如权利要求1项的除草组合物,其中组分(A)的剂量为12.5-100克/公顷,组分(B)的剂量为10-1000克/公顷。
3.如权利要求第1项的除草组合物,其中重量比例为1∶0.5到1∶50之间。
4.一种包含用如权利要求第1、2或3项的除草组合物来处理杂草的控制杂草的方法。
5.如权利要求第4项的方法,其中控制农作物中的杂草。
6.如权利要求第5项的方法,其中的农作物为稻。
7.如权利要求第1-3项中任一项的组合物用于控制杂草的应用。
8.如权利要求第7项的应用,其中用于农作物中杂草的控制。
9.如权利要求第8项的应用,其中的农作物为稻。
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| DE19544393.4 | 1995-11-15 | ||
| DE19544393A DE19544393A1 (de) | 1995-11-15 | 1995-11-15 | Synergistische herbizide Mischungen |
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| EP0542388A1 (en) * | 1991-11-13 | 1993-05-19 | Schering Aktiengesellschaft | New substituted pyrazolylpyrazoles, processes for their preparation, as well as intermediates, and their use as herbicides |
| WO1994008999A1 (en) * | 1992-10-12 | 1994-04-28 | Schering Aktiengesellschaft | New substituted pyrazole derivatives, processes for their preparation and their use as herbicides |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| MY136106A (en) * | 1990-09-06 | 2008-08-29 | Novartis Ag | Synergistic composition comprising a sulfonylurea anda thiadiazolo (3,4-a)pyridazine and method of selective weed control. |
-
1995
- 1995-11-15 DE DE19544393A patent/DE19544393A1/de not_active Withdrawn
-
1996
- 1996-11-12 EP EP96938177A patent/EP0863705B1/de not_active Expired - Lifetime
- 1996-11-12 US US09/068,137 patent/US6013605A/en not_active Expired - Lifetime
- 1996-11-12 BR BR9611478A patent/BR9611478A/pt not_active IP Right Cessation
- 1996-11-12 TR TR1998/00794T patent/TR199800794T2/xx unknown
- 1996-11-12 WO PCT/EP1996/004935 patent/WO1997017852A1/de not_active Ceased
- 1996-11-12 CN CN96198102A patent/CN1084148C/zh not_active Expired - Lifetime
- 1996-11-12 AU AU75696/96A patent/AU711841B2/en not_active Expired
- 1996-11-12 RU RU98111619/04A patent/RU2170017C2/ru not_active IP Right Cessation
- 1996-11-12 DE DE59609348T patent/DE59609348D1/de not_active Expired - Fee Related
- 1996-11-12 ES ES96938177T patent/ES2178720T3/es not_active Expired - Lifetime
- 1996-11-12 CA CA002236592A patent/CA2236592C/en not_active Expired - Lifetime
- 1996-11-12 JP JP51856597A patent/JP3920341B2/ja not_active Expired - Lifetime
- 1996-11-12 KR KR10-1998-0703305A patent/KR100427960B1/ko not_active Expired - Lifetime
- 1996-11-13 TW TW085113810A patent/TW355125B/zh not_active IP Right Cessation
- 1996-11-13 MY MYPI96004700A patent/MY114731A/en unknown
- 1996-11-14 ZA ZA969564A patent/ZA969564B/xx unknown
- 1996-12-11 UA UA98063093A patent/UA48203C2/uk unknown
-
1998
- 1998-05-14 MX MX9803824A patent/MX9803824A/es unknown
Patent Citations (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP0542388A1 (en) * | 1991-11-13 | 1993-05-19 | Schering Aktiengesellschaft | New substituted pyrazolylpyrazoles, processes for their preparation, as well as intermediates, and their use as herbicides |
| WO1994008999A1 (en) * | 1992-10-12 | 1994-04-28 | Schering Aktiengesellschaft | New substituted pyrazole derivatives, processes for their preparation and their use as herbicides |
Also Published As
| Publication number | Publication date |
|---|---|
| JP2000500445A (ja) | 2000-01-18 |
| DE59609348D1 (de) | 2002-07-18 |
| ZA969564B (en) | 1997-05-15 |
| AU711841B2 (en) | 1999-10-21 |
| KR19990067314A (ko) | 1999-08-16 |
| EP0863705A1 (de) | 1998-09-16 |
| CA2236592C (en) | 2005-01-04 |
| TW355125B (en) | 1999-04-01 |
| ES2178720T3 (es) | 2003-01-01 |
| DE19544393A1 (de) | 1997-05-22 |
| MY114731A (en) | 2002-12-31 |
| US6013605A (en) | 2000-01-11 |
| UA48203C2 (uk) | 2002-08-15 |
| RU2170017C2 (ru) | 2001-07-10 |
| AU7569696A (en) | 1997-06-05 |
| CN1201370A (zh) | 1998-12-09 |
| WO1997017852A1 (de) | 1997-05-22 |
| KR100427960B1 (ko) | 2005-01-15 |
| TR199800794T2 (xx) | 1998-08-21 |
| EP0863705B1 (de) | 2002-06-12 |
| BR9611478A (pt) | 1999-07-13 |
| JP3920341B2 (ja) | 2007-05-30 |
| MX9803824A (es) | 1998-09-30 |
| CA2236592A1 (en) | 1997-05-22 |
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