小飞蓬(水浸液)化感作用的研究
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摘要
小飞蓬(Conyza canadensis),是菊科白酒草属的一种外来入侵植物,是严重为害的区域性杂草之一。小飞蓬的化感作用是其能够成功入侵的重要机制之一,目前这方面的工作还仍处于初步阶段。本文主要测定了小飞蓬对几种不同科属的受体植物的化感效应;测定经小飞蓬水浸液处理的萝卜幼苗体内生理生化指标的变化;运用分步萃取和柱层析技术,并结合生物测定方法,初步分析小飞蓬水浸液中的化感物质。主要的结果如下:
1.小飞蓬水浸液具有较强的化感作用,且具有浓度效应,随着浓度的增大化感活性表现逐渐增强。小飞蓬水浸液能显著抑制受体植物种子的萌发,如0.20g/mL小飞蓬茎叶水浸液对苋菜种子的萌发率和萌发指数的RI值分别为-0.822和-0.892。另外,小飞蓬水浸液对受体植物幼苗的生长表现出了明显的抑制作用。当根部水浸液的浓度为0.10g/mL时,柱花草和苋菜这2种受体植物幼苗的根都受到了极显著地抑制,其RI值分别为-0.622和-0.667。
2.各项指标的综合分析结果表明,小飞蓬植株不同部位的化感作用大小并不存在差异。但小飞蓬对不同植物所表现的化感作用大小差异显著,其中,苋菜受到的化感作用最强,柱花草次之。
3.研究得出,相对高浓度的水浸液显著抑制了萝卜幼苗体内SOD和POD的活性,以致其叶绿素含量和可溶性蛋白质含量减少,抑制了茎的生长,而且增大了其根部MDA的含量,抑制了根的生长,最终导致植株鲜重的减小。但是相对低浓度的水浸液处理后,茎叶内SOD和POD活性以及叶绿素含量明显增大,可溶性蛋白质含量增大,从而茎长变长,最终植株鲜重增加了,但这后3项指标的增加程度并不明显。
4.小飞蓬水浸液中有大量的能溶解于乙酸乙酯且具有化感活性的组分。在乙酸乙酯相萃取物的处理液中,萝卜种子的萌发率和萌发指数以及其幼苗根长受到的抑制率分别为98.37%、98.87%和93.09%。乙酸乙酯相萃取物和石油醚相萃取物的抑菌活性较高。乙酸乙酯相萃取物对香蕉炭疽菌的EC50仅为0.610mg/mL。
5.柱层析分离小飞蓬乙酸乙酯相萃取物,得到了18组馏分,其中以Fr10-14和Fr19-30这2组馏分的生物活性最强,1.0mg/mL的处理液对柱花草种子萌发的抑制率分别达到了69.87%和65.81%,0.5mg/mL的处理液对香蕉炭疽菌生长的抑制率就分别达到了94.24%和94.60%。通过GC-MS分析得出,Fr19-30中含有的物质中,许多组分具有化感活性,如酮类和酯类等,其中7,7-二甲基-4-乙氧基亚甲基-双环[3,2,0]-2-庚烯-6-酮的含量最高,达到了37.70%。
本论文对小飞蓬水浸液的化感作用进行了研究,可为系统评价小飞蓬化感作用特点和初步探究小飞蓬化感作用的机制提供理论基础,为进一步研究小飞蓬的化感物质奠定了基础
Conyza canadensis (L.)Cronq.(C. canadensis),an. invasive plant of genus Conyza, Compositae,is one of the regional weeds which is serious harm to.The allelopathy of C. canadensis is the important mechanisms of it successful invasion,its research is still in preliminary stages.In this paper, determined the allelopathic effect of the aqueous extracts from C. canadensis on several receptor plants of different families and genus;determined the changes in physiological and biochemical indexes of Raphanus sativus's seeding which was dealed with the aqueous extracts;through step extraction method and column chromatography,combined with biometrics,preliminarily analysed the allelochemical in the aqueous extracts from C. canadensis.The main results were as follows:
1.The aqueous extracts from C. canadensis had strong allelopathic effects and concentration effect,with the increaseding of its concentration,the allelopathic activity is also increaseding gradually.The aqueous extracts from C. canadensis could inhibit the germination of receptor plants'seeds,such the RI values of 0.20g/mL aqueous extracts from the Stems and leaves of C. canadensis on the germination rate and germination index of Acalypha hainanensis's seed were-0.822 and-0.892.In addition,the aqueous extracts from C. canadensis on the growth of receptor plants'seedling showed significant inhibition. When the concentration of the aqueous extracts from the roots of C. canadensis was 0.10g/mL,the roots of tylosanthes guianensias and Amaranthus mangostanus these tow receptor plants'seedlings have been significantly inhibited,the RI values were-0.622 and-0.667.
2.Comprehensived analysis of the indicators show that,the difference between the allelopathy of different parts of C. canadensis'plant did not exist.However,the allelopathy of C. canadensis on different plants shown significant differences in size,which allelopathic effects on Amaranthus mangostanus were the strongest,followed by Stylosanthes guianensias.
3.Researched results showed that,relative high concentrations of aqueous extracts inhibited the activity of SOD and POD of Raphanus sativus'seedlings,chlorophyll content and soluble protein content decreased,inhibited the growth of stems,increased MDA,and inhibit the growth of root,ultimately leading to reduced plant fresh weight.But after the treatment of the relatively low concentration, the activity of SOD,POD and chlorophyll content in leaves of Raphanus sativus' seedlings significantly increased,soluble protein content increased,so the stem became longer,the final plant fresh weight increased,but the other three indicators increase in the degree is not obvious.
4.There were a large number of components can be dissolved in ethyl acetate which have allelopathic activity in the aqueous extracts from C. canadensis.In. the treatment solution of ethyl acetate extract,the inhibition rates of the germination rate and germination index of Raphanus sativus' seed and the root length of its seedlings were 98.37%,98.87% and 93.09%.Ethyl acetate extract and petroleum ether extract has high antibacterial activity,and the EC50 of ethyl acetate extract on Colletotrichum musae only is 0.6103mg/mL.
5.Used column chromatography to separate ethyl acetate extracts of C. canadensis,obtained 18 sets of fractions,and the biological activity of Fr10-14 and Fr 19-30 these two groups is the strongest,the inhibition rate of 1.0mg/mL solution on the germination of Stylosanthes guianensias'Seed reached 69.87%and 65.81%,and the inhibition rate of 0.5mg/mL solution on the growth of Colletotrichum musae reached 94.24% and 94.60%.Obtained by GC-MS analysis,some of the substances in Fr19-30 contains have allelopathic activity,such as ketones and esters,and the content of 7,7-DIMETHYL-4-[(Z)-ETHOXYMETHYLIDENE]-BICYCLO[3.2.0]HEPT-2-EN-6-ONE is the highest in it, reaching 37.70%.
Study on allelopathy of the aqueous extracts from C. canadensis would supply theory foundations for systematic review to the characteristics of C. canadensis'allelopathy and inqriry preliminarily the mechanisms of C. canadensis'allelopathy and establish basis for studying the allelochemical of C. canadensis in futher.
1.小飞蓬水浸液具有较强的化感作用,且具有浓度效应,随着浓度的增大化感活性表现逐渐增强。小飞蓬水浸液能显著抑制受体植物种子的萌发,如0.20g/mL小飞蓬茎叶水浸液对苋菜种子的萌发率和萌发指数的RI值分别为-0.822和-0.892。另外,小飞蓬水浸液对受体植物幼苗的生长表现出了明显的抑制作用。当根部水浸液的浓度为0.10g/mL时,柱花草和苋菜这2种受体植物幼苗的根都受到了极显著地抑制,其RI值分别为-0.622和-0.667。
2.各项指标的综合分析结果表明,小飞蓬植株不同部位的化感作用大小并不存在差异。但小飞蓬对不同植物所表现的化感作用大小差异显著,其中,苋菜受到的化感作用最强,柱花草次之。
3.研究得出,相对高浓度的水浸液显著抑制了萝卜幼苗体内SOD和POD的活性,以致其叶绿素含量和可溶性蛋白质含量减少,抑制了茎的生长,而且增大了其根部MDA的含量,抑制了根的生长,最终导致植株鲜重的减小。但是相对低浓度的水浸液处理后,茎叶内SOD和POD活性以及叶绿素含量明显增大,可溶性蛋白质含量增大,从而茎长变长,最终植株鲜重增加了,但这后3项指标的增加程度并不明显。
4.小飞蓬水浸液中有大量的能溶解于乙酸乙酯且具有化感活性的组分。在乙酸乙酯相萃取物的处理液中,萝卜种子的萌发率和萌发指数以及其幼苗根长受到的抑制率分别为98.37%、98.87%和93.09%。乙酸乙酯相萃取物和石油醚相萃取物的抑菌活性较高。乙酸乙酯相萃取物对香蕉炭疽菌的EC50仅为0.610mg/mL。
5.柱层析分离小飞蓬乙酸乙酯相萃取物,得到了18组馏分,其中以Fr10-14和Fr19-30这2组馏分的生物活性最强,1.0mg/mL的处理液对柱花草种子萌发的抑制率分别达到了69.87%和65.81%,0.5mg/mL的处理液对香蕉炭疽菌生长的抑制率就分别达到了94.24%和94.60%。通过GC-MS分析得出,Fr19-30中含有的物质中,许多组分具有化感活性,如酮类和酯类等,其中7,7-二甲基-4-乙氧基亚甲基-双环[3,2,0]-2-庚烯-6-酮的含量最高,达到了37.70%。
本论文对小飞蓬水浸液的化感作用进行了研究,可为系统评价小飞蓬化感作用特点和初步探究小飞蓬化感作用的机制提供理论基础,为进一步研究小飞蓬的化感物质奠定了基础
Conyza canadensis (L.)Cronq.(C. canadensis),an. invasive plant of genus Conyza, Compositae,is one of the regional weeds which is serious harm to.The allelopathy of C. canadensis is the important mechanisms of it successful invasion,its research is still in preliminary stages.In this paper, determined the allelopathic effect of the aqueous extracts from C. canadensis on several receptor plants of different families and genus;determined the changes in physiological and biochemical indexes of Raphanus sativus's seeding which was dealed with the aqueous extracts;through step extraction method and column chromatography,combined with biometrics,preliminarily analysed the allelochemical in the aqueous extracts from C. canadensis.The main results were as follows:
1.The aqueous extracts from C. canadensis had strong allelopathic effects and concentration effect,with the increaseding of its concentration,the allelopathic activity is also increaseding gradually.The aqueous extracts from C. canadensis could inhibit the germination of receptor plants'seeds,such the RI values of 0.20g/mL aqueous extracts from the Stems and leaves of C. canadensis on the germination rate and germination index of Acalypha hainanensis's seed were-0.822 and-0.892.In addition,the aqueous extracts from C. canadensis on the growth of receptor plants'seedling showed significant inhibition. When the concentration of the aqueous extracts from the roots of C. canadensis was 0.10g/mL,the roots of tylosanthes guianensias and Amaranthus mangostanus these tow receptor plants'seedlings have been significantly inhibited,the RI values were-0.622 and-0.667.
2.Comprehensived analysis of the indicators show that,the difference between the allelopathy of different parts of C. canadensis'plant did not exist.However,the allelopathy of C. canadensis on different plants shown significant differences in size,which allelopathic effects on Amaranthus mangostanus were the strongest,followed by Stylosanthes guianensias.
3.Researched results showed that,relative high concentrations of aqueous extracts inhibited the activity of SOD and POD of Raphanus sativus'seedlings,chlorophyll content and soluble protein content decreased,inhibited the growth of stems,increased MDA,and inhibit the growth of root,ultimately leading to reduced plant fresh weight.But after the treatment of the relatively low concentration, the activity of SOD,POD and chlorophyll content in leaves of Raphanus sativus' seedlings significantly increased,soluble protein content increased,so the stem became longer,the final plant fresh weight increased,but the other three indicators increase in the degree is not obvious.
4.There were a large number of components can be dissolved in ethyl acetate which have allelopathic activity in the aqueous extracts from C. canadensis.In. the treatment solution of ethyl acetate extract,the inhibition rates of the germination rate and germination index of Raphanus sativus' seed and the root length of its seedlings were 98.37%,98.87% and 93.09%.Ethyl acetate extract and petroleum ether extract has high antibacterial activity,and the EC50 of ethyl acetate extract on Colletotrichum musae only is 0.6103mg/mL.
5.Used column chromatography to separate ethyl acetate extracts of C. canadensis,obtained 18 sets of fractions,and the biological activity of Fr10-14 and Fr 19-30 these two groups is the strongest,the inhibition rate of 1.0mg/mL solution on the germination of Stylosanthes guianensias'Seed reached 69.87%and 65.81%,and the inhibition rate of 0.5mg/mL solution on the growth of Colletotrichum musae reached 94.24% and 94.60%.Obtained by GC-MS analysis,some of the substances in Fr19-30 contains have allelopathic activity,such as ketones and esters,and the content of 7,7-DIMETHYL-4-[(Z)-ETHOXYMETHYLIDENE]-BICYCLO[3.2.0]HEPT-2-EN-6-ONE is the highest in it, reaching 37.70%.
Study on allelopathy of the aqueous extracts from C. canadensis would supply theory foundations for systematic review to the characteristics of C. canadensis'allelopathy and inqriry preliminarily the mechanisms of C. canadensis'allelopathy and establish basis for studying the allelochemical of C. canadensis in futher.
引文
1.安锋,阚丽艳,谢贵水,等.海南外来植物入侵的现状与对策[J].西北林学院学报,2007,22(5):193-197.
2.曹光球,林思祖,黄世国.阿魏酸、肉桂酸对杉木种子发芽的效应[J].植物资源与环境学报,2001,10(2):63-64.
3.曹潘荣,骆世明.柠檬桉的他感作用研究[J].华南农业大学学报,1996,17(2):7-11.
4.陈龙池,廖利平,汪思龙,等.酚类物质对杉木幼苗-(15)N养分吸收、分配的影响[J].植物生态学报,2002,26(5):525-532.
5.成小英,王国祥,濮培民,等.凤眼莲腐烂分解对湖泊水质的影响[J].中国环境科学,2004,24(3):303-306.
6.董淑琦,马永清,税军峰,等.不同年代冬小麦品种根际土浸提液诱导小列当种子发芽的化感作用研究[J].中国农业大学学报,2009,14(2):59-63.
7.董章杭,林文雄.作物化感作用研究现状及前景展望[J].中国生态农业学报,2001,9(1):80-83.
8.樊绍钵.药材图(续集)[M].北京:中医古籍出版社,1995:133.
9.冯建永,陶晡,庞民好,等.黄顶菊化感物质释放途径的初步研究[J].河北农业大学学报,2009,32(1):72-77.
10.高兴祥,李美,高宗军,等.苍耳对不同植物幼苗的化感作用研究[J].草业学报,2009,18(2):95-101.
11.高兴祥,李美,于建垒,等.小飞蓬提取物除草活性的生物测定[J].植物资源与环境学报,2006,15(1):18-21.
12.高兴祥,李美,高宗军,等.外来物种小飞蓬的化感作用初步研究[J].草业学报,2009,18(5):46-51.
13.耿广东,程智慧,张素勤.不同浓度的辣椒化感物质对莴苣化感效应研究[J].华北农学报,2008,23(2):30-33.
14.韩芬.华北落叶松枝叶挥发物的化感作用及其化学成分的分析[M].甘肃农业大学硕士学位论文,2008.
15.韩丽梅,阎飞,王树起,等.重迎茬大豆根际土壤有机化合物的初步鉴定及对大豆萌发的化感作用[J].应用生态学报,2000,11(4):582-586.
16.胡飞,孔垂华.胜红蓟化感作用研究Ⅰ.水溶物的化感作用及其化感物质分离鉴定[J].应用生态学报,1997,8(3):304-308.
17.黄山春,覃伟权,李朝绪,等.我国南方地区主要外来入侵杂草及其防除[J].现代农业科技,2007,19:86-87,90.
18.黄卫安,袁丽洁,程喜梅,等.加拿大一枝黄花溶剂浸提液对小麦、萝卜种子萌发及幼苗生长的影响[J].安徽农业科学,2007,35(6):1597-1599.
19.黄意欢.茶学实验技术[M].北京:中国农业出版社,1997:115-135.
20.黄振英,张新时,郑光华,等.光照、温度和盐分对梭梭种子萌发的影响[J].植物生理学报,2001,27(3):275-280.
21.黄志群,林思祖,曹光球.毛竹、苦槠水浸液对杉木种子发芽的效应[J].福建林学院学报,1999,(3):249-252.
22.姜丽,孙玉文,刘景安.分葱对黄瓜、萝卜和白菜的化感作用[J].中国农学通报,2007,23(2):263-266.
23.金瑞.蒜苗挥发物化感作用研究[M].西北农林科技大学硕士学位论文,2007.
24.孔垂华,徐涛,胡飞,等.环境胁迫下植物的化感作用及其诱导机制[J].生态学报,2000,20(5):849-854.
25.孔垂华.植物化感作用研究中应注意的问题[J].应用生态学报,1998,9(3):332-336.
26.孔祥生,易现峰.植物生理学实验技术[M].北京:中国农业出版社,2008,2.
27.李博,徐炳声,陈家宽.从上海外来植物区系剖析植物入侵的一般特征[J].生物多样性,2001,9(4):446-457.
28.李洁.入侵植物空心莲子草化感作用的初步研究[M].四川大学硕士学位论文,2007.
29.李惠欣.入侵植物危害及防治对策[J].科技创新导报,2007,(3):106-107.
30.李秋玲.日本菟丝子对薇甘菊的化感防治潜力研究[M].山西大学硕士学位论文,2008.
31.李扬汉.中国杂草志[M].北京:中国农业出版社,1998:295,332.
32.李振宇,解焱.中国外来入侵种[M].北京:林业出版社,2002:195.
33.刘建,黄建华.谨慎引进植物,警惕负面影响[J].植物保护,2002,4:51-53.
34.刘建新,胡浩斌,王鑫.黄瓜地上部水浸液对番茄的化感抑制效应[J].中国生态农业学报,2009,17(2):312-317.
35.刘秀芬,马瑞霞,袁光林,等.根际区他感化学物质的分离、鉴定与生物活性的研究[J].生态学报,1996,16(1):1-10.
36.骆世明,林象联,曾任森,等.华南农区典型植物的他感作用研究[J].生态科学,1995,(2):114-128.
37.骆焱平,郑服丛,张宇,等.农药学科群实验指导[M].海口:海南出版社,2008:173,189.
38.马越强,廖利平,杨跃军,等.香草醛对杉木幼苗生长的影响[J].应用生态学报,1998,9(2):128-132.
39.那美玲,李彬,周军.黄石地区豚草花粉分布及临床致敏性研究[J].中华微生物学和免疫学杂志,2001,21(增刊):50-51.
40.聂呈荣,黎华寿,黄京华.蟛蜞菊对花生和其它作物的化感作用[J].花生学报,2002a,31(1):30-32.
41.聂呈荣,曾任森,黎华寿.三裂叶蟛蜞菊对花生化感作用的生理生化机理[J].花生学报,2002b,31(3):1-5.
42.彭少麟,邵华.化感作用的研究意义及发展前景[J].应用生态学报,2001,12(5):780-786.
43.彭跃峰.10种植物乙醇提取物对小菜蛾和菜粉蝶幼虫拒食活性的研究[J].湖北农学院学报,2004,24(2):90-93.
44.强胜,曹学章.中国异域杂草的考察与分析[J].植物资源与环境学报,2000,9(4):34-38.
45.强蓉蓉,王国祥,张利民,等.凤眼莲死亡对湖泊水质的持续性影响分析[J].中国环境监测,2005,21(1):24-27.
46.孙文浩.相生相克作用及其应用[J].植物生理学通讯,1992,28(2):81-87.
47.万永红,周向宁.八种中草药抑菌试验报告[J].生物学杂志,1994,16(2):31-32.
48.王辉.刺槐自毒作用与主要伴生树种化感作用研究[M].河北农业大学硕士学位论文,2009.
49.王璞,赵秀琴.几种化感物质对棉花种子萌发及幼苗生长的影响[J].中国农业大学学报,2001,6(3):26-31.
50.王大力.祝心如.豚草的化感作用研究[J].生态学报,1996,16(1):11-17.
51.王海斌,何海斌,曾聪明,等.含氧萜类化合物对稗草的化感抑制作用[J].中国生态农业学报,2009,17(2):307-311.
52.王建军,赵宝玉,李明涛,等.生态入侵植物豚草及其综合防治[J].草业科学,2006,23(4):71-75.
53.王真辉,安锋,陈秋波.外来入侵杂草——假臭草[J].热带农业科学,2006,26(6):33-37.
54.温莉莉,王海英,蒋乃翔.小蓬草鲜叶正己烷提取物化学组分分析[J].中国林副特产,2009,6(3):8-10.
55.徐海根,强胜,韩正敏,等.中国外来入侵种的分布与传入途径分析[J].生物多样性,2004,12(6):626-638.
56.徐怀德.天然产物提取工艺学[J].中国轻工业出版社,北京:2006:43-48.
57.许桂芳,刘明久,晁慧娟.入侵植物小蓬草化感作用研究[J].西北农业学报,2007,16(3):215-218.
58.阎飞,杨振明,韩丽梅.植物化感作用及其作用物的研究[J].生态学报,2000,20(4):692-696.
59.于凤兰,马茂华,孔令韶.油蒿(Artemisia ordosica)的化感作用研究[J].生态学报.1999,19(5):670-676.
60.余叔文.植物生理与分子生物学[J].北京:科学出版社,1992:376-394.
61.喻大昭,杨小军,杨立军,等.植物提取物对植物病原真菌的抑菌活性研究[J].湖北农业科学,2001,10(5):49-51.
62.曾任森,林象联,谭惠芬,等.蟛蜞菊根分泌物的异种克生作用及初步分离[J].生态学杂志,1994,13(1):51-56.
63.曾任森,林象联,骆世明,等.蟛蜞菊的生化他感作用及生化他感作用物的分离鉴定[J].生态学报,1996,16(1):20-28.
64.翟明普.混交林和树种间关系的研究现状[J].世界林业研究,1993(1):39-45.
65.张宝琛,白雪芳,顾立华,等.生化他感作用与高寒草甸上人工草场自然退化现象的研究[J].生态学报,9(2):115-119.
66.张大勇.植物生活史进化与繁殖生态学[M].北京:科学出版社,2004:74-78
67.郑维列,田大伦,权红,等.5种植物水浸液对西藏长鞭红景天种子萌发的化感作用[J].东北林业大学学报,2009,37(1):32-34.
68.中国生物多样性网络研究报告编写组.中国生物多样性研究报告[M].北京:环境科学出版社,1998.
69.周凯,郭维明,王智芳.菊花不同部位水浸液自毒作用的研究[J].西北植物学报,2008,28(4):0759-0764.
70.周志红,骆世明.牟子平,等.番茄的化感作用研究[J].应用生态学报,1997,8(4):445-449.
71.朱晓红,王朋,梁文举,等.苜蓿化感作用的初步研究[J].生态学报,2004,23(3):128-130.
72. Baker H G. The evolution of weeds[J]. Annuals Reviews of Ecology and Systematics,1974,5:1-24.
73. Baziramakenga R, Leroux GD, Simard RR., et al. Allelopathic effects of phenolic acids on nucleic acid and protein levels in soybean seedlings[J]. Canadian Journal of Botany,1997,75(3):445-450.
74. Blum.U., Rebbeck.J. Inhibition and recovery of cucumber roots given multiple treatment of ferulic acid in nutrient culture[J]. Chem.Ecol,1989,15:917-928.
75. Booker FL, Blum U, Fiscus EL. Short-term effects of ferulic acid on ion uptake and water relations incucumber seedlings[J]. Journal of Experimental Botany,1992,43(250):649-655.
76. Cavers PB, et al. The biology of Canadian weeds [Alliaria petiolata(Bieb.) Cavara & Grande.][J]. Can J Plant Sci,1979,59:217-229.
77. Elton CS. The Ecology of Invasions by Animals and Plants.Metheun[M]. London,1958.
78. Gopal B, Trivedy RK, Goel PK. Influence of water hyacinth cover on the physic-chermical chatacteristics of water and phytoplandton composition in a reservoir near Jaipur (India) [J]. Hydrobiologia,1984,69:859-865.
79. Harley KLS. The role of biological control in the management of water hyacinth, Eichhornia crassipes[J]. Biocontrol News Inform,1990,11:11-12.
80. He H.B., Lin W.X., Wang H.B., et al. Analysis of metabolites in root exudates from allelopathic and non allelopathic rice seedling[J]. Allelopathy Journal,2006,18(2):247-256.
81. Hobbs RJ, Huenneke JF. Disturbance, diversity and invasion:implications for conservation[J]. Conservation Biology,1992,6:324-337.
82. Hodkinson DJ, Thompson K. Plant dispersal:the role of man[J]. Journal ofApplied Ecology,1997,34: 1484-1496.
83. Lallana VH, Sabattini RA, Del Carmen Lallana M. Evapotranspirtion from Eichhornia crassipes, Pisria stratiores, Salvinia herzogii and Azolla caroliniana durning summer in Argentina[J]. J.Aquat Plant Manag,1987,25:48-50.
84. Leather G R, Einhellig F A. Bioassays in the study of allelopathy[A]. In:Putnam A R, Tang C S. The Science of Allelopathy[M]. New York:John W iley& Sons,1986:133-145.
85. Lehman ME, Blum U, Gerig TM. Simultaneous effects of ferulic and p-coumaric acids on cucumber leaf expansion in split-root experiments[J]. J Chem Ecol,1994,20(7):1773-1782.
86. Lonsdale WM, Lane AM. Tourist vehicles as vectors of weed seeds in Kakadu National Park, Northern Australia[J]. Biological Conservation,1994,69:277-283.
87. Muller C H. Allelopathy as a factor in ecological process[J]. Vegetatio.1969.18:348-357
88. Ninkovic V. Volatile communication betwen barley plants affects biomasallocation[J]. Exp Bot,2003, 54:1931-1939.
89. Nuzzo V. Experimental control of garlic mustard [Alliaria petiolata(Bieb.) Cavara& Grande.]in Grande[J]. Can J Plant Sci,1979,59:217-229.
90. Nuzzo V. Experimental control of garlic mustard [Alliaria petiolata(Bieb.)Cavara& Grande.]in northern Illinois using fire,herbicide,and cutting[J]. Nat Areas J,1991,11:158-167.
91. Nuzzo V. Current and historic distribution of garlic mustard (Alliaria petiolata) in Illinois[J]. Mich Bot, 1993,32:23-33.
92. Politycka B. Peroxidase activity and lipid peroxidation in roots of cucumber seedlings influenced by derivatives of cinnamic and benzoic acids[J]. Acta Physiologiae Plantarum,1996,18(4):365-370.
93. Porter A. Implications of introduced garlic mustard(Alliaria petiolata) in the habitat of Pieris virginiensis(Pieridae)[J].J Lepid Soc,1994,48:171-172.
94. Rice E.l..Allelopathy(2ed edition)[M]. New York:Aeademic Press,1984:1-50.
95. Ruiz GM, Carlton JT. Invasive Species:Vectors and Management Strategies[M]. Washington:Island Press,2003,600
96. Shanna K, Dhillon MS, Dhingra KK. Pressense of germination inhibitors in the leaf leachates of some farm gown trees[J]. Indian Forester,1987,113(12):816-820.
97. Smith MD, Knapp AK. Exotic plant species in a C4_dominated grassland:invasibility, disturbance and community structure [J]. Oecologia,1999,120:605-612.
98. Snyder RL, Boyd CE. Ewapotranspieation by Eichhornia crassipes (Mart.) Solms and Typha latifolia L[J]. Aquat.Bot.,1987,27:217-227.
99. TANG C-S, YOUNG C-C. Collection and identification of allelopathic compounds from the undisturbed root system of Bigalta Limpograss (Hemarthria altissima) [J]. Plant Physiology,1982,69: 155-160.
100. Vila M, Pujadas J. Land_use and socio_economic correlates of plant invasions in European and North African countries[J]. Biological Conservation,2001,100:397-401.
101. Vineenzo De Feo, Laura De Martino, Emilia QUaranta. et al. Isolation of Phytotoxic compounds from tree of heaven(Ailanthus altissima Swingle)[J]. J Agric Food Chem,2003,51(5):1177-1180.
102. Waller, G.R. Allelochemicals:Role in agriculture and forestry[M]. Washington DC:American Chem Soci,1985.
103. Williamson, G. B., Obee, E. M., Weidenhamer, J. D. Bioassays for allelopathy:Mersuring treatment responses with independent controls[J]. J. Chem.Ecol.,1988,14(1):181-187.
104. Yu JQ, Matsui Y. Effects of root exudates of cucumber (CucumissativusL.) and allelochemicals on ion uptake by cucumber seedlings[J]. J Chem Ecol,1997,23(3):817-827.
2.曹光球,林思祖,黄世国.阿魏酸、肉桂酸对杉木种子发芽的效应[J].植物资源与环境学报,2001,10(2):63-64.
3.曹潘荣,骆世明.柠檬桉的他感作用研究[J].华南农业大学学报,1996,17(2):7-11.
4.陈龙池,廖利平,汪思龙,等.酚类物质对杉木幼苗-(15)N养分吸收、分配的影响[J].植物生态学报,2002,26(5):525-532.
5.成小英,王国祥,濮培民,等.凤眼莲腐烂分解对湖泊水质的影响[J].中国环境科学,2004,24(3):303-306.
6.董淑琦,马永清,税军峰,等.不同年代冬小麦品种根际土浸提液诱导小列当种子发芽的化感作用研究[J].中国农业大学学报,2009,14(2):59-63.
7.董章杭,林文雄.作物化感作用研究现状及前景展望[J].中国生态农业学报,2001,9(1):80-83.
8.樊绍钵.药材图(续集)[M].北京:中医古籍出版社,1995:133.
9.冯建永,陶晡,庞民好,等.黄顶菊化感物质释放途径的初步研究[J].河北农业大学学报,2009,32(1):72-77.
10.高兴祥,李美,高宗军,等.苍耳对不同植物幼苗的化感作用研究[J].草业学报,2009,18(2):95-101.
11.高兴祥,李美,于建垒,等.小飞蓬提取物除草活性的生物测定[J].植物资源与环境学报,2006,15(1):18-21.
12.高兴祥,李美,高宗军,等.外来物种小飞蓬的化感作用初步研究[J].草业学报,2009,18(5):46-51.
13.耿广东,程智慧,张素勤.不同浓度的辣椒化感物质对莴苣化感效应研究[J].华北农学报,2008,23(2):30-33.
14.韩芬.华北落叶松枝叶挥发物的化感作用及其化学成分的分析[M].甘肃农业大学硕士学位论文,2008.
15.韩丽梅,阎飞,王树起,等.重迎茬大豆根际土壤有机化合物的初步鉴定及对大豆萌发的化感作用[J].应用生态学报,2000,11(4):582-586.
16.胡飞,孔垂华.胜红蓟化感作用研究Ⅰ.水溶物的化感作用及其化感物质分离鉴定[J].应用生态学报,1997,8(3):304-308.
17.黄山春,覃伟权,李朝绪,等.我国南方地区主要外来入侵杂草及其防除[J].现代农业科技,2007,19:86-87,90.
18.黄卫安,袁丽洁,程喜梅,等.加拿大一枝黄花溶剂浸提液对小麦、萝卜种子萌发及幼苗生长的影响[J].安徽农业科学,2007,35(6):1597-1599.
19.黄意欢.茶学实验技术[M].北京:中国农业出版社,1997:115-135.
20.黄振英,张新时,郑光华,等.光照、温度和盐分对梭梭种子萌发的影响[J].植物生理学报,2001,27(3):275-280.
21.黄志群,林思祖,曹光球.毛竹、苦槠水浸液对杉木种子发芽的效应[J].福建林学院学报,1999,(3):249-252.
22.姜丽,孙玉文,刘景安.分葱对黄瓜、萝卜和白菜的化感作用[J].中国农学通报,2007,23(2):263-266.
23.金瑞.蒜苗挥发物化感作用研究[M].西北农林科技大学硕士学位论文,2007.
24.孔垂华,徐涛,胡飞,等.环境胁迫下植物的化感作用及其诱导机制[J].生态学报,2000,20(5):849-854.
25.孔垂华.植物化感作用研究中应注意的问题[J].应用生态学报,1998,9(3):332-336.
26.孔祥生,易现峰.植物生理学实验技术[M].北京:中国农业出版社,2008,2.
27.李博,徐炳声,陈家宽.从上海外来植物区系剖析植物入侵的一般特征[J].生物多样性,2001,9(4):446-457.
28.李洁.入侵植物空心莲子草化感作用的初步研究[M].四川大学硕士学位论文,2007.
29.李惠欣.入侵植物危害及防治对策[J].科技创新导报,2007,(3):106-107.
30.李秋玲.日本菟丝子对薇甘菊的化感防治潜力研究[M].山西大学硕士学位论文,2008.
31.李扬汉.中国杂草志[M].北京:中国农业出版社,1998:295,332.
32.李振宇,解焱.中国外来入侵种[M].北京:林业出版社,2002:195.
33.刘建,黄建华.谨慎引进植物,警惕负面影响[J].植物保护,2002,4:51-53.
34.刘建新,胡浩斌,王鑫.黄瓜地上部水浸液对番茄的化感抑制效应[J].中国生态农业学报,2009,17(2):312-317.
35.刘秀芬,马瑞霞,袁光林,等.根际区他感化学物质的分离、鉴定与生物活性的研究[J].生态学报,1996,16(1):1-10.
36.骆世明,林象联,曾任森,等.华南农区典型植物的他感作用研究[J].生态科学,1995,(2):114-128.
37.骆焱平,郑服丛,张宇,等.农药学科群实验指导[M].海口:海南出版社,2008:173,189.
38.马越强,廖利平,杨跃军,等.香草醛对杉木幼苗生长的影响[J].应用生态学报,1998,9(2):128-132.
39.那美玲,李彬,周军.黄石地区豚草花粉分布及临床致敏性研究[J].中华微生物学和免疫学杂志,2001,21(增刊):50-51.
40.聂呈荣,黎华寿,黄京华.蟛蜞菊对花生和其它作物的化感作用[J].花生学报,2002a,31(1):30-32.
41.聂呈荣,曾任森,黎华寿.三裂叶蟛蜞菊对花生化感作用的生理生化机理[J].花生学报,2002b,31(3):1-5.
42.彭少麟,邵华.化感作用的研究意义及发展前景[J].应用生态学报,2001,12(5):780-786.
43.彭跃峰.10种植物乙醇提取物对小菜蛾和菜粉蝶幼虫拒食活性的研究[J].湖北农学院学报,2004,24(2):90-93.
44.强胜,曹学章.中国异域杂草的考察与分析[J].植物资源与环境学报,2000,9(4):34-38.
45.强蓉蓉,王国祥,张利民,等.凤眼莲死亡对湖泊水质的持续性影响分析[J].中国环境监测,2005,21(1):24-27.
46.孙文浩.相生相克作用及其应用[J].植物生理学通讯,1992,28(2):81-87.
47.万永红,周向宁.八种中草药抑菌试验报告[J].生物学杂志,1994,16(2):31-32.
48.王辉.刺槐自毒作用与主要伴生树种化感作用研究[M].河北农业大学硕士学位论文,2009.
49.王璞,赵秀琴.几种化感物质对棉花种子萌发及幼苗生长的影响[J].中国农业大学学报,2001,6(3):26-31.
50.王大力.祝心如.豚草的化感作用研究[J].生态学报,1996,16(1):11-17.
51.王海斌,何海斌,曾聪明,等.含氧萜类化合物对稗草的化感抑制作用[J].中国生态农业学报,2009,17(2):307-311.
52.王建军,赵宝玉,李明涛,等.生态入侵植物豚草及其综合防治[J].草业科学,2006,23(4):71-75.
53.王真辉,安锋,陈秋波.外来入侵杂草——假臭草[J].热带农业科学,2006,26(6):33-37.
54.温莉莉,王海英,蒋乃翔.小蓬草鲜叶正己烷提取物化学组分分析[J].中国林副特产,2009,6(3):8-10.
55.徐海根,强胜,韩正敏,等.中国外来入侵种的分布与传入途径分析[J].生物多样性,2004,12(6):626-638.
56.徐怀德.天然产物提取工艺学[J].中国轻工业出版社,北京:2006:43-48.
57.许桂芳,刘明久,晁慧娟.入侵植物小蓬草化感作用研究[J].西北农业学报,2007,16(3):215-218.
58.阎飞,杨振明,韩丽梅.植物化感作用及其作用物的研究[J].生态学报,2000,20(4):692-696.
59.于凤兰,马茂华,孔令韶.油蒿(Artemisia ordosica)的化感作用研究[J].生态学报.1999,19(5):670-676.
60.余叔文.植物生理与分子生物学[J].北京:科学出版社,1992:376-394.
61.喻大昭,杨小军,杨立军,等.植物提取物对植物病原真菌的抑菌活性研究[J].湖北农业科学,2001,10(5):49-51.
62.曾任森,林象联,谭惠芬,等.蟛蜞菊根分泌物的异种克生作用及初步分离[J].生态学杂志,1994,13(1):51-56.
63.曾任森,林象联,骆世明,等.蟛蜞菊的生化他感作用及生化他感作用物的分离鉴定[J].生态学报,1996,16(1):20-28.
64.翟明普.混交林和树种间关系的研究现状[J].世界林业研究,1993(1):39-45.
65.张宝琛,白雪芳,顾立华,等.生化他感作用与高寒草甸上人工草场自然退化现象的研究[J].生态学报,9(2):115-119.
66.张大勇.植物生活史进化与繁殖生态学[M].北京:科学出版社,2004:74-78
67.郑维列,田大伦,权红,等.5种植物水浸液对西藏长鞭红景天种子萌发的化感作用[J].东北林业大学学报,2009,37(1):32-34.
68.中国生物多样性网络研究报告编写组.中国生物多样性研究报告[M].北京:环境科学出版社,1998.
69.周凯,郭维明,王智芳.菊花不同部位水浸液自毒作用的研究[J].西北植物学报,2008,28(4):0759-0764.
70.周志红,骆世明.牟子平,等.番茄的化感作用研究[J].应用生态学报,1997,8(4):445-449.
71.朱晓红,王朋,梁文举,等.苜蓿化感作用的初步研究[J].生态学报,2004,23(3):128-130.
72. Baker H G. The evolution of weeds[J]. Annuals Reviews of Ecology and Systematics,1974,5:1-24.
73. Baziramakenga R, Leroux GD, Simard RR., et al. Allelopathic effects of phenolic acids on nucleic acid and protein levels in soybean seedlings[J]. Canadian Journal of Botany,1997,75(3):445-450.
74. Blum.U., Rebbeck.J. Inhibition and recovery of cucumber roots given multiple treatment of ferulic acid in nutrient culture[J]. Chem.Ecol,1989,15:917-928.
75. Booker FL, Blum U, Fiscus EL. Short-term effects of ferulic acid on ion uptake and water relations incucumber seedlings[J]. Journal of Experimental Botany,1992,43(250):649-655.
76. Cavers PB, et al. The biology of Canadian weeds [Alliaria petiolata(Bieb.) Cavara & Grande.][J]. Can J Plant Sci,1979,59:217-229.
77. Elton CS. The Ecology of Invasions by Animals and Plants.Metheun[M]. London,1958.
78. Gopal B, Trivedy RK, Goel PK. Influence of water hyacinth cover on the physic-chermical chatacteristics of water and phytoplandton composition in a reservoir near Jaipur (India) [J]. Hydrobiologia,1984,69:859-865.
79. Harley KLS. The role of biological control in the management of water hyacinth, Eichhornia crassipes[J]. Biocontrol News Inform,1990,11:11-12.
80. He H.B., Lin W.X., Wang H.B., et al. Analysis of metabolites in root exudates from allelopathic and non allelopathic rice seedling[J]. Allelopathy Journal,2006,18(2):247-256.
81. Hobbs RJ, Huenneke JF. Disturbance, diversity and invasion:implications for conservation[J]. Conservation Biology,1992,6:324-337.
82. Hodkinson DJ, Thompson K. Plant dispersal:the role of man[J]. Journal ofApplied Ecology,1997,34: 1484-1496.
83. Lallana VH, Sabattini RA, Del Carmen Lallana M. Evapotranspirtion from Eichhornia crassipes, Pisria stratiores, Salvinia herzogii and Azolla caroliniana durning summer in Argentina[J]. J.Aquat Plant Manag,1987,25:48-50.
84. Leather G R, Einhellig F A. Bioassays in the study of allelopathy[A]. In:Putnam A R, Tang C S. The Science of Allelopathy[M]. New York:John W iley& Sons,1986:133-145.
85. Lehman ME, Blum U, Gerig TM. Simultaneous effects of ferulic and p-coumaric acids on cucumber leaf expansion in split-root experiments[J]. J Chem Ecol,1994,20(7):1773-1782.
86. Lonsdale WM, Lane AM. Tourist vehicles as vectors of weed seeds in Kakadu National Park, Northern Australia[J]. Biological Conservation,1994,69:277-283.
87. Muller C H. Allelopathy as a factor in ecological process[J]. Vegetatio.1969.18:348-357
88. Ninkovic V. Volatile communication betwen barley plants affects biomasallocation[J]. Exp Bot,2003, 54:1931-1939.
89. Nuzzo V. Experimental control of garlic mustard [Alliaria petiolata(Bieb.) Cavara& Grande.]in Grande[J]. Can J Plant Sci,1979,59:217-229.
90. Nuzzo V. Experimental control of garlic mustard [Alliaria petiolata(Bieb.)Cavara& Grande.]in northern Illinois using fire,herbicide,and cutting[J]. Nat Areas J,1991,11:158-167.
91. Nuzzo V. Current and historic distribution of garlic mustard (Alliaria petiolata) in Illinois[J]. Mich Bot, 1993,32:23-33.
92. Politycka B. Peroxidase activity and lipid peroxidation in roots of cucumber seedlings influenced by derivatives of cinnamic and benzoic acids[J]. Acta Physiologiae Plantarum,1996,18(4):365-370.
93. Porter A. Implications of introduced garlic mustard(Alliaria petiolata) in the habitat of Pieris virginiensis(Pieridae)[J].J Lepid Soc,1994,48:171-172.
94. Rice E.l..Allelopathy(2ed edition)[M]. New York:Aeademic Press,1984:1-50.
95. Ruiz GM, Carlton JT. Invasive Species:Vectors and Management Strategies[M]. Washington:Island Press,2003,600
96. Shanna K, Dhillon MS, Dhingra KK. Pressense of germination inhibitors in the leaf leachates of some farm gown trees[J]. Indian Forester,1987,113(12):816-820.
97. Smith MD, Knapp AK. Exotic plant species in a C4_dominated grassland:invasibility, disturbance and community structure [J]. Oecologia,1999,120:605-612.
98. Snyder RL, Boyd CE. Ewapotranspieation by Eichhornia crassipes (Mart.) Solms and Typha latifolia L[J]. Aquat.Bot.,1987,27:217-227.
99. TANG C-S, YOUNG C-C. Collection and identification of allelopathic compounds from the undisturbed root system of Bigalta Limpograss (Hemarthria altissima) [J]. Plant Physiology,1982,69: 155-160.
100. Vila M, Pujadas J. Land_use and socio_economic correlates of plant invasions in European and North African countries[J]. Biological Conservation,2001,100:397-401.
101. Vineenzo De Feo, Laura De Martino, Emilia QUaranta. et al. Isolation of Phytotoxic compounds from tree of heaven(Ailanthus altissima Swingle)[J]. J Agric Food Chem,2003,51(5):1177-1180.
102. Waller, G.R. Allelochemicals:Role in agriculture and forestry[M]. Washington DC:American Chem Soci,1985.
103. Williamson, G. B., Obee, E. M., Weidenhamer, J. D. Bioassays for allelopathy:Mersuring treatment responses with independent controls[J]. J. Chem.Ecol.,1988,14(1):181-187.
104. Yu JQ, Matsui Y. Effects of root exudates of cucumber (CucumissativusL.) and allelochemicals on ion uptake by cucumber seedlings[J]. J Chem Ecol,1997,23(3):817-827.