美洲斑潜蝇寄主植物抗虫机制初步研究
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摘要
美洲斑潜蝇 Liriomyza sativae Blanchard 属双翅目 Diptera,潜蝇科 Agromyzidae,是
危害蔬菜的重要害虫之一。本文通过田间小区试验与室内笼罩试验相结合,研究了美洲
斑潜蝇对黄瓜、菜豆、番茄等 3 种作物及其各自品种间的选择性与抗生性,在此基础上,
测定了 3 种作物叶片的可溶性糖、单宁和蛋白质含量及物理结构。应用简单相关分析法、
偏相关分析法及多元回归分析法分析探讨了寄主植物对美洲斑潜蝇的抗虫机制,以期为
抗虫品种的选育和利用抗虫品种控制美洲斑潜蝇危害提供理论依据。主要结果如下:
1. 单位叶面积取食点数和虫道数是反映美洲斑潜蝇寄主选择性较理想的指标。根据
此指标,比较而言,美洲斑潜蝇对黄瓜品种夏丰 1 号,番茄品种 L—402 和菜豆品种地
豆王 2 号选择性较强,对黄瓜品种西农 58,番茄品种毛粉 802 和茸粉的多毛株及菜豆品
种 95-33 架豆王选择性较弱。
2. 美洲斑潜蝇对不同作物的选择性差异与作物所处的生长发育阶段和作物叶片表
皮毛的密度有关。在苗期,美洲斑潜蝇对 3 种作物的选择性大小为菜豆>番茄(多毛株
例外)>黄瓜>番茄多毛株;在成株期,选择性大小为菜豆>黄瓜>番茄。
3. 对 3 种作物各供试品种上美洲斑潜蝇各虫态发育历期、幼虫和蛹的存活率、蛹重
及成虫寿命等指标综合分析表明:在供试的 3 种作物中,菜豆最有利于美洲斑潜蝇的生
长发育和存活,其次为番茄、黄瓜;同一种作物不同品种中,黄瓜品种夏丰 1 号,菜豆
品种地豆王 2 号及番茄品种毛粉 802 多毛株较适合美洲斑潜蝇的生长发育和存活,黄瓜
品种西农 58 号,菜豆品种 95-33 架豆王和番茄品种中杂 9 号较不适合美洲斑潜蝇的生
长发育和存活。
4. 在苗期,不同作物及品种对美洲斑潜蝇的抗虫性与蛋白质含量负相关,与可溶性
糖和单宁含量正相关。其中,蛋白质是影响美洲斑潜蝇对作物选择性和抗生性的首要因
子,可溶性糖为重要因子,单宁为次要因子。同一作物的不同品种比较,单宁是影响美
洲斑潜蝇对黄瓜不同品种取食、产卵选择性和抗生性的首要因子;可溶性糖和蛋白质是
影响美洲斑潜蝇对菜豆不同品种取食、产卵选择性和抗生性的主要因子;蛋白质是影响
美洲斑潜蝇对番茄不同品种取食和产卵选择性的首要因子,蛋白质和单宁是影响番茄品
种对美洲斑潜蝇抗生性的主要因子。
5. 试验结果表明,不同作物叶片的可溶性糖(X1),蛋白质(X2)和单宁含量(X3)
与单位叶面积取食点数(Y1),单位叶面积虫道数(Y2)和幼虫发育历期(Y3)具有显
著的相关关系,据此,建立了作物抗虫程度的多元回归模型如下:
Y1= -4.2372-0.2192X1+0.2534X -1.2903X3 (R1=0.8361,F1=8.5187)
2
Y2= -0.3817-0.0263X +0.0241X2-0.0826X (R2=0.8950,F2=14.7637)
1 3
Y3= 7.2753+0.0903X1-0.0661X2+0.0653X (R3=0.9414,F=28.5501)
3
6. 不同作物叶片栅栏组织细胞宽度与美洲斑潜蝇幼虫发育历期极显著负相关(p<
0.01),栅栏组织细胞宽度越大,对美洲斑潜蝇幼虫的生长发育越有利;海绵组织厚度与
单位叶面积虫道数显著负相关(p<0.05),海绵组织越厚,对美洲斑潜蝇成虫产卵越不
利,说明美洲斑潜蝇不嗜好叶片海绵组织;叶片表面茸毛密度与单位叶面积取食点数和
虫道数显著负相关(p<0.05),叶片表面茸毛密度越大,对美洲斑潜蝇成虫取食和产卵
越不利。
Liriomyza sativae Blanchard ( Diptera:Agromyzidae) is one of the important pests which
endanger vegetables. This paper studied the selectivity of Liriomyza sativae Blanchard to
cucumber, bean, tomato and to different varieties among these crops in lab and field, as well
as the antibiosis. Contents of soluble sugar, tannin and protein, as well as physics construction
of leaves of the 3 kinds of crops were measuresed. By relative analysis, partial correlation
analysis and multiple regression analysis, the resistance mechanism was discussed to provide
the theoretical basis for breeding varieties resistant to Liriomyza sativae Blanchard and using
the varieties to control Liriomyza sativae Blanchard. The main results were as follows:
1. The numbers of feeding punctures and worm trails per unit area in leaves were ideal
selectivity index of Liriomyza sativae Blanchard to host plant. According to this index,
comparatively speaking, Liriomyza sativae Blanchard showed stronger selectivity to Xiafeng
1 (cucumber), L-402 (tomato) and Didouwang 2 (bean), and less selectivity to Xinong 58
(cucumber), Maofen802 and Rongfen (tomato), 95-33 Jiadouwang (bean).
2. Selectivity difference of Liriomyza sativae Blanchard to different crops related with
epidermis hair density of leaf and growth stage of crops. Crops could be ranked from bean,
tomato (with exception of hirsute variety), cucumber to tomato (hirsute variety) in seedling
stage, from bean, cucumber to tomato in maturing stage according to the selectivity of
Liriomyza sativae Blanchard from high to low.
3. On the basis of develepmental duration, survival rates of larva and pupa, pupa weight
and adult longevity of Liriomyza sativae Blanchard in different varieties of the 3 crops, an
integrated analysis was carried out. The result indicated that bean is the most favorable one
for development and growth of Liriomyza sativae Blanchard among the 3 kinds of plants,
tomato is the second, cucumber the third. For the different varieties of one plant, Xiafeng
No.1 (cucumber), Didouwang No.2 (bean) and Maofen802 (tomato) are more suitable for
development and growth of Liriomyza sativae Blanchard, but Xinong No.58
(cucumber) ,Zhongza No.9 (tomato) and 95-33 Jiadouwang (bean) are less suitable.
4. Resistance of different crops or varieties to Liriomyza sativae in seedling period had a
negative relation with protein content, positive relation with solulbe sugar and tannin content.
Among them, the protein was the initial factor which affects the selectivity and antibiosis of
Liriomyza sativae to different crops, soluble sugar was the important factor, tannin was the
minor factor. For the different varieties of one plant, the tannin was the initial factor affecting
the selectivity and antibiosis of Liriomyza sativae to different varieties of cucumber; Soluble
sugar and protein were the major factors which affect the selectivity and antibiosis of
Liriomyza sativae to different varieties of bean; the protein was the initial factor to affect the
selectivity of oviposition of Liriomyza sativae to different varieties of tomato, the protein and
tannin were the main factors which affect antibiosis of Liriomyza sativae to different varieties
of tomato.
5. The result showed that contents of soluble sugar (X1), tannin (X2) and protein (X3) in
leaves of the crops had significant relation with the numbers of feeding puntures (Y1), worm
trails per unit area (Y2) in leaves and developmental duration of larva (Y3), so the regression
model was built.
Y1= -4.2372-0.2192X1+0.2534X -1.2903X3 (R1=0.8361, F1=8.5187)
2
Y2= -0.3817-0.0263X +0.0241X2-0.0826X
1 3 (R2=0.8950, F2=14.7637)
Y3= 7.2753+0.0903X1-0.0661X2+0.0653X 3 (R3=0.9414, F3=28.5501)
6. The correlation between developmental duration of larva and width of palisade tissue
cell of different crops was negative significant (p<0.01). The wider palisade tissue cell was,
the better
危害蔬菜的重要害虫之一。本文通过田间小区试验与室内笼罩试验相结合,研究了美洲
斑潜蝇对黄瓜、菜豆、番茄等 3 种作物及其各自品种间的选择性与抗生性,在此基础上,
测定了 3 种作物叶片的可溶性糖、单宁和蛋白质含量及物理结构。应用简单相关分析法、
偏相关分析法及多元回归分析法分析探讨了寄主植物对美洲斑潜蝇的抗虫机制,以期为
抗虫品种的选育和利用抗虫品种控制美洲斑潜蝇危害提供理论依据。主要结果如下:
1. 单位叶面积取食点数和虫道数是反映美洲斑潜蝇寄主选择性较理想的指标。根据
此指标,比较而言,美洲斑潜蝇对黄瓜品种夏丰 1 号,番茄品种 L—402 和菜豆品种地
豆王 2 号选择性较强,对黄瓜品种西农 58,番茄品种毛粉 802 和茸粉的多毛株及菜豆品
种 95-33 架豆王选择性较弱。
2. 美洲斑潜蝇对不同作物的选择性差异与作物所处的生长发育阶段和作物叶片表
皮毛的密度有关。在苗期,美洲斑潜蝇对 3 种作物的选择性大小为菜豆>番茄(多毛株
例外)>黄瓜>番茄多毛株;在成株期,选择性大小为菜豆>黄瓜>番茄。
3. 对 3 种作物各供试品种上美洲斑潜蝇各虫态发育历期、幼虫和蛹的存活率、蛹重
及成虫寿命等指标综合分析表明:在供试的 3 种作物中,菜豆最有利于美洲斑潜蝇的生
长发育和存活,其次为番茄、黄瓜;同一种作物不同品种中,黄瓜品种夏丰 1 号,菜豆
品种地豆王 2 号及番茄品种毛粉 802 多毛株较适合美洲斑潜蝇的生长发育和存活,黄瓜
品种西农 58 号,菜豆品种 95-33 架豆王和番茄品种中杂 9 号较不适合美洲斑潜蝇的生
长发育和存活。
4. 在苗期,不同作物及品种对美洲斑潜蝇的抗虫性与蛋白质含量负相关,与可溶性
糖和单宁含量正相关。其中,蛋白质是影响美洲斑潜蝇对作物选择性和抗生性的首要因
子,可溶性糖为重要因子,单宁为次要因子。同一作物的不同品种比较,单宁是影响美
洲斑潜蝇对黄瓜不同品种取食、产卵选择性和抗生性的首要因子;可溶性糖和蛋白质是
影响美洲斑潜蝇对菜豆不同品种取食、产卵选择性和抗生性的主要因子;蛋白质是影响
美洲斑潜蝇对番茄不同品种取食和产卵选择性的首要因子,蛋白质和单宁是影响番茄品
种对美洲斑潜蝇抗生性的主要因子。
5. 试验结果表明,不同作物叶片的可溶性糖(X1),蛋白质(X2)和单宁含量(X3)
与单位叶面积取食点数(Y1),单位叶面积虫道数(Y2)和幼虫发育历期(Y3)具有显
著的相关关系,据此,建立了作物抗虫程度的多元回归模型如下:
Y1= -4.2372-0.2192X1+0.2534X -1.2903X3 (R1=0.8361,F1=8.5187)
2
Y2= -0.3817-0.0263X +0.0241X2-0.0826X (R2=0.8950,F2=14.7637)
1 3
Y3= 7.2753+0.0903X1-0.0661X2+0.0653X (R3=0.9414,F=28.5501)
3
6. 不同作物叶片栅栏组织细胞宽度与美洲斑潜蝇幼虫发育历期极显著负相关(p<
0.01),栅栏组织细胞宽度越大,对美洲斑潜蝇幼虫的生长发育越有利;海绵组织厚度与
单位叶面积虫道数显著负相关(p<0.05),海绵组织越厚,对美洲斑潜蝇成虫产卵越不
利,说明美洲斑潜蝇不嗜好叶片海绵组织;叶片表面茸毛密度与单位叶面积取食点数和
虫道数显著负相关(p<0.05),叶片表面茸毛密度越大,对美洲斑潜蝇成虫取食和产卵
越不利。
Liriomyza sativae Blanchard ( Diptera:Agromyzidae) is one of the important pests which
endanger vegetables. This paper studied the selectivity of Liriomyza sativae Blanchard to
cucumber, bean, tomato and to different varieties among these crops in lab and field, as well
as the antibiosis. Contents of soluble sugar, tannin and protein, as well as physics construction
of leaves of the 3 kinds of crops were measuresed. By relative analysis, partial correlation
analysis and multiple regression analysis, the resistance mechanism was discussed to provide
the theoretical basis for breeding varieties resistant to Liriomyza sativae Blanchard and using
the varieties to control Liriomyza sativae Blanchard. The main results were as follows:
1. The numbers of feeding punctures and worm trails per unit area in leaves were ideal
selectivity index of Liriomyza sativae Blanchard to host plant. According to this index,
comparatively speaking, Liriomyza sativae Blanchard showed stronger selectivity to Xiafeng
1 (cucumber), L-402 (tomato) and Didouwang 2 (bean), and less selectivity to Xinong 58
(cucumber), Maofen802 and Rongfen (tomato), 95-33 Jiadouwang (bean).
2. Selectivity difference of Liriomyza sativae Blanchard to different crops related with
epidermis hair density of leaf and growth stage of crops. Crops could be ranked from bean,
tomato (with exception of hirsute variety), cucumber to tomato (hirsute variety) in seedling
stage, from bean, cucumber to tomato in maturing stage according to the selectivity of
Liriomyza sativae Blanchard from high to low.
3. On the basis of develepmental duration, survival rates of larva and pupa, pupa weight
and adult longevity of Liriomyza sativae Blanchard in different varieties of the 3 crops, an
integrated analysis was carried out. The result indicated that bean is the most favorable one
for development and growth of Liriomyza sativae Blanchard among the 3 kinds of plants,
tomato is the second, cucumber the third. For the different varieties of one plant, Xiafeng
No.1 (cucumber), Didouwang No.2 (bean) and Maofen802 (tomato) are more suitable for
development and growth of Liriomyza sativae Blanchard, but Xinong No.58
(cucumber) ,Zhongza No.9 (tomato) and 95-33 Jiadouwang (bean) are less suitable.
4. Resistance of different crops or varieties to Liriomyza sativae in seedling period had a
negative relation with protein content, positive relation with solulbe sugar and tannin content.
Among them, the protein was the initial factor which affects the selectivity and antibiosis of
Liriomyza sativae to different crops, soluble sugar was the important factor, tannin was the
minor factor. For the different varieties of one plant, the tannin was the initial factor affecting
the selectivity and antibiosis of Liriomyza sativae to different varieties of cucumber; Soluble
sugar and protein were the major factors which affect the selectivity and antibiosis of
Liriomyza sativae to different varieties of bean; the protein was the initial factor to affect the
selectivity of oviposition of Liriomyza sativae to different varieties of tomato, the protein and
tannin were the main factors which affect antibiosis of Liriomyza sativae to different varieties
of tomato.
5. The result showed that contents of soluble sugar (X1), tannin (X2) and protein (X3) in
leaves of the crops had significant relation with the numbers of feeding puntures (Y1), worm
trails per unit area (Y2) in leaves and developmental duration of larva (Y3), so the regression
model was built.
Y1= -4.2372-0.2192X1+0.2534X -1.2903X3 (R1=0.8361, F1=8.5187)
2
Y2= -0.3817-0.0263X +0.0241X2-0.0826X
1 3 (R2=0.8950, F2=14.7637)
Y3= 7.2753+0.0903X1-0.0661X2+0.0653X 3 (R3=0.9414, F3=28.5501)
6. The correlation between developmental duration of larva and width of palisade tissue
cell of different crops was negative significant (p<0.01). The wider palisade tissue cell was,
the better
引文
1. 陈乃中. 美洲斑潜蝇等重要潜蝇的鉴别. 昆虫知识,1999,36(4):222~226
2. 陈文龙,赵志模,朱文炳等. 四川地区美洲斑潜蝇的寄主种类. 西南农业大学学报,1999,21
(1):55~58
3. 陈艳,范青海,赵景玮. 农药对美洲斑潜蝇的毒力和美洲斑潜蝇抗药性测定. 武夷科学,1998,
14:185~188
4. 陈艳,赵景玮,范青海. 温度对美洲斑潜蝇发育、存活和繁殖的影响. 应用生态学报,1999,
10(6):711~712
5. 陈艳,赵景玮. 美洲斑潜蝇的羽化特性. 福建农业大学学报,1997,26(2):191~193
6. 陈艳,赵景玮. 美洲斑潜蝇实验种群的密度效应. 福建农业大学学报,1998,27(l):78~81
7. 陈艳. 美洲斑潜蝇的空间和垂直分布. 福建农业大学学报,1998,27(3):257~260
8. 陈泽坦. 美洲斑潜蝇成虫活动特性观察. 华南热带农业大学学报,2003,(2):9
9. 戴小华,尤民生,傅丽君等. 美洲斑潜蝇寄主选择性与寄主植物叶片营养物质含量的关系. 山
东农业大学学报,2001,(3):311~313
10. 戴小华,尤民生,傅丽君. 氮、磷、钾对美洲斑潜蝇寄主选择性的影响. 昆虫学报,2002,45
(1)145~147
11. 戴小华,尤民生,傅丽君. 福州地区美洲斑潜蝇、南美斑潜蝇寄主植物名录. 华东昆虫学报,
2001,10(2):22~28
12. 邓望喜,李绍勤,江钟信等. 主要蔬菜品种对美洲斑潜蝇抗性聚类分析. 华中农业大学学报,
2001,20(2):114~118
13. 董慈祥,高志民,杨青蕊等. 美洲斑潜蝇在茄子和菜豆田为害的空间分布型研究. 中国蔬菜,
1999,(5):29~30
14. 董慈祥,杨青蕊,胡树香等. 美洲斑潜蝇的普查及防治. 华东昆虫学报,2000,9(1):113~
115
15. 宫亚军,石宝才,王军. 不同黄色对美洲斑潜蝇诱杀效果研究. 北京农业科学,1998,16(3):
28~29
16. 宫亚军,石宝才,王军等. 温度对美洲斑潜蝇生长发育的影响. 植物保护,1999,25(1):8~
11
17. 顾黄辉,卞觉时.几种斑潜蝇的发生与识别. 长江蔬菜,1998,(4):20~21
18. 郭明贵,范仁俊,张润祥等. 美洲斑潜蝇在山西省的发生及防治. 山西农业科学,2000,28(3):
66~68
19. 郭艳琼,武宇鹏,李友莲. 温室内黄色卡防治美洲斑潜蝇的研究. 山西农业大学学报,2002,
22(2):123~126
20. 韩桂仲, 原国辉. 美洲斑潜蝇生物学特性及防治研究. 河南农业大学学报,1998,32(4):
407~409
21. 韩桂仲,李自朝,刘顺通等. 菜豆田两种潜叶蝇主要天敌生态位研究. 昆虫知识,2001,38(1):
39~43
22. 郝树广,康乐. 温、湿度对美洲斑潜蝇发育存活及食量的影响. 昆虫学报,2001,44(3):330~
333
23. 何金英,邓望喜,杨石城等. 美洲斑潜蝇实验种群生命表的研究. 昆虫学报,1999,42(3):
291~295
参考文献 41
24. 何金英,邓望喜,杨石城. 美洲斑潜蝇自然种群生命表及飞行能力研究. 植物检疫,1998,12
(4):193~197
25. 江健生,陈安突,姚冠华. 美洲斑潜蝇发生与预测预报办法. 植保技术与推广,1998,18(4):
7~8
26. 蒋辉,彭炜. 美洲斑潜蝇和南美斑潜蝇预测预报技术研究及应用. 西南农业大学学报,2000,
22(5):438~440
27. 蒋玉文,刘箐. 美洲斑潜蝇幼虫空间分布型和田间抽样技术. 昆虫知识,1998,35(5):276~
279
28. 景晓红,李生才,上官小霞等. 美洲斑潜蝇空间格局研究. 山西农业大学学报,1999,19(3):
195~197
29. 康乐. 斑潜蝇的生态学与持续控制. 北京:科学出版社. 1996
30. 雷仲仁,王音,问锦曾. 蔬菜上 11 种潜叶蝇的鉴别. 植物保护,1996,22(6):40~43
31. 李斌. 美洲斑潜蝇大发生. 湖北植保,1999,(5):37
32. 李洪奎,刘建生,沈孝恩等. 美洲斑潜蝇在山东潍坊的越冬试验. 昆虫知识,1998,35(5):
284~285
33. 李洪奎,刘建生,宋建科等. 美洲斑潜蝇空间分布型研究. 山东农业大学学报,1999,30(2):
151~155
34. 李惠英. 乌鲁木齐地区蔬菜潜叶蝇发生规律及防治技术. 新疆农业科技, 1999(4):17~18
35. 李绍勤,邓望喜,谢宪高. 不同菜豆品种对美洲斑潜蝇种群参数的影响. 生态学报,2002,22
(8):1354~1357
36. 李秀文. 天津市美洲斑潜蝇研究及检疫综合防除对策. 天津农林科技,2001,(1):32~35
37. 李学峰,黄华章,张文杰等. 美洲斑潜蝇和拉美斑潜蝇对三类哟纪药剂敏感性测定. 植物保护
学报,2000,27(2):179~182
38. 梁广文,詹根祥,曾玲. 寄生蜂对美洲斑潜蝇自然种群控制作用评价. 应用生态学报,2001,
12(2):257~260
39. 林进添. 美洲斑潜蝇的抗药性监测. 华南农业大学学报,1998,17(1):24~28
40. 林裕正,张稻友,李永坚等. 汕头市美洲斑潜蝇的发生及预测预报. 广东农业科学,1997,(6):
8~11
41. 刘佳. 美洲斑潜蝇综防技术. 长江蔬菜,2002,(7):30~31
42. 刘培延,赵刚,沈素云. 美洲斑潜蝇成虫对不同色板的趋性. 植物检疫,2000,(4):203~204
43. 刘箐, 将玉文. 美洲斑潜蝇寄主选择性研究. 中国蔬菜,1998(1):1~4
44. 刘淑杰,李惠春,王忠元. 美洲斑潜蝇在乌兰浩特市发生与防治. 植物检疫,2000,(1):25
45. 鲁栋,程利群. 不同寄主对美洲斑潜蝇的影响. 植物检疫,1999,13(4):219~220
46. 鲁栋,王维新. 美洲斑潜蝇寄生性天敌的调查. 植物检疫,1998,12(5):272
47. 鲁栋,王伟新. 美洲斑潜蝇发生规律研究初报. 安徽农业科学,1997,25(3):262~263
48. 鲁栋,朱贤才,程利群. 美洲斑潜蝇的发生与防治. 上海蔬菜,1997,(3):34
49. 鲁栋. 光对美洲斑潜蝇影响的初步研究. 植物检疫,1998,12(4):200
50. 陆自强,陈丽芳,祝树德等. 蔬菜害虫发生新特点与无公害治理对策. 武夷科学,2002,18:
247~251
51. 吕芬,周平云. 气象因子对美洲斑潜蝇种群数量的影响. 南农业大学学报,2001,16(2):83~
85
52. 马瑞燕,韩居才,荆英. 山西两种建议兴办潜蝇研究初报. 山西农业大学学报,1999,19(1):
4~7
42 美洲斑潜蝇寄主植物抗虫机制初步研究
53. 庞保平,鲍祖胜,周晓榕等. 寄主挥发物、叶色和表皮毛在美洲斑潜蝇寄主选择中的作用. 生
态学报,2004,24(1):547~550
54. 彭发青,邓望喜. 美洲斑潜蝇寄主抗虫性初步研究. 植物检疫,2001,15(1):17~21
55. 彭家昌,庞清明,刘平安等. 四川南充市美洲斑潜蝇发生与防治. 植物医生,1999,(4):11~
13
56. 彭炜,范京安,赵学谦等. 四川省美洲斑潜蝇发生与综合防治初步研究. 植物检疫,1998,12
(3):135~138
57. 彭炜,赵学谦,杨光超等. 四川攀西地区斑潜蝇发生和综合防治研究. 西南农业大学学报,
1999,21:(1):59~63
58. 邱名榜,缪渔港,李培军等. 烟台市美洲斑潜蝇发生及其防治技术研究. 莱阳农学院学报,
1998,15(2):116~123
59. 邱一中,吴文哲,萧旭峰等. RAPD—PCR 在六种斑潜蝇款需鉴定技术之应用. 中华昆虫,2000,
20(4):293~309
60. 屈娟,罗辉. 利用电泳法快速鉴定斑潜蝇. 植物检疫,1997,11(增刊):47~49
61. 石桥德. 美洲斑潜蝇幼虫入上化蛹习性的初步观察. 广西植保,1998,(2):38
62. 宋慧英,陈常铭. 美洲斑潜蝇的形态特征. 湖南农业科学,2000,(2):33~34
63. 孙宗瑜,伏蕊娟,韩太国等. 洛阳市美洲斑潜蝇发生规律研究. 洛阳农业高等专科学校学报,
2002,22(2):21~22
64. 谭伟雄,卓国豪. 美洲斑潜蝇的发生规律和防治研究. 中国蔬菜,1997,79(1):27~28
65. 田士波,周谨. 防治美洲斑潜蝇药剂筛选方法的研究. 河北农业科学,1997,1(1):36~37
66. 童文彬,胡水泉,吕玉土. 美洲斑潜蝇空间格局与抽样技术的研究. 植保技术与推广,1998,8
(3):31~32
67. 王春林,照守岐. 蔬菜病虫害的综合治理(九):美洲斑潜蝇的发生及控制. 中国蔬菜,1998,
(3):54~56
68. 王春林. 斑潜蝇对中国瓜菜作物的严重威胁与建议对策. 植物检疫,1997,13(增刊):57~59
69. 王典章,姜月敏,由洪健等. 美洲斑潜蝇在蔬菜田的发生及防治研究. 莱阳农学院学报,1999,
16(3):203~206
70. 王宏平. 植物叶片表面特征对美洲斑潜蝇的抗性观察. 湖北植保,1999,(3):39
71. 王荣洲,鲍祖胜. 美洲斑潜蝇寄主选择性研究初报. 浙江农业科学,2001,(3):149~152
72. 王音,雷仲仁,问锦曾等. 美洲斑潜蝇的越冬与耐旱性研究. 植物保护学报,2000,27(1):
32~36
73. 王音,问锦曾. 5 种值得注意的危险性斑潜蝇. 植物保护,1994,20(6):35~37
74. 问锦,曾王音,雷仲仁等. 美洲斑潜蝇中国新纪录. 昆虫分类学报,1996,18(4):311~312
75. 吴佳教. 美洲斑潜蝇种群动态及其控制研究. 华南农业博士学位论文,1997,1~83
76. 吴佳教,曾玲,梁广之等. 水浸对美洲斑潜蝇存活的影响. 植物检疫,2000,14(1):3~5
77. 谢琼华,何坦连,蔡德江等. 美洲斑潜蝇发生危害及其防治. 植物保护,1997,23(1):20~
22
78. 谢荣贵. 美洲斑潜蝇的综合防治法.北京农业,1999,(6):15
79. 辛爱梅. 美洲斑潜蝇及其在沈阳的发生现状. 辽宁农业科技,1997,(4):41~44
80. 杨龙龙. 对斑潜蝇属中检疫害虫的研究. 植物检疫,1995,9(1):1~5
81. 杨明英等. 应用农业技术措施控制斑潜蝇危害蔬菜的实验. 西南农业学报,1999,(增刊):115~
119
82. 杨文兰,吉志新,张卫青等. 冀东地区美洲斑潜蝇的综合防治. 河北职业技术师范学院学报,
参考文献43
2001,15(2):44~47
83. 尹新明,原国辉,马长生等. 美洲斑潜蝇对豇豆危害的产量损失及防治指标研究. 河南农业大
学学报,1999,33(2):194~197
84. 余道坚,张润杰,周昌清等. 美洲斑潜蝇寄主选择性研究. 中山大学学报,2000,39(1):86~
90
85. 余道坚,张润杰,周昌清等. 温度对美洲斑潜蝇发育、存活和繁殖的影响. 生态学报,2000,
20(5):820~823
86. 曾玲,吴佳教,长森泉等. 美洲斑潜蝇幼虫田间取样方法研究. 见:中国有害生物综合治理论
文集(张芝利等主编). 北京:中国农业科技出版社,1996:781
87. 曾玲,吴佳教,梁广文等. 寄生蜂对美洲斑潜蝇种群控制作用评价. 生态学报,2000,20(6):
982~985
88. 曾玲,吴佳教,梁广之等. 温度对美洲斑潜蝇生长发育的影响. 华南农业大学学报,1997,19
(3):21~25
89. 曾益良,秦小薇,严炳丽等. 氨基甲酸酯类杀虫剂及其与阿维菌素类的混配剂对美洲斑潜蝇的
防治效果. 农药学报,2001,3(1):79~82
90. 张彩霞. 美洲斑潜蝇的普查与防治. 植物检疫.1997,(增刊):1~6
91. 张桂芬,朱伟旗. 寄主植物对美洲斑潜蝇各虫态发育历期的影响. 植物保护学报,1998,25(1):
11~14
92. 张惠杰,李建社,张丽萍等. 美洲斑潜蝇的寄主种类、适合度及其危害性评价. 生态学报,2000,
20(1):134~138
93. 张惠杰,王会金,李建社等. 不同寄主植物对美洲斑潜蝇的适合度及叶片结构的关系. 动物学
报,2001,22(2):137~141
94. 张慧杰,段国琪,张战备等. 空气和土壤湿度对美洲斑潜蝇发育与存活的影响. 生态学报,
2004,24(3):538~541
95. 张慧杰,李建设,张丽萍等. 美洲斑潜蝇在中国山西的生活史及其主要习性. 应用环境生物学
报,2000,6(6):565~571
96. 张平磊,高山松,风之杰. 美洲斑潜蝇在河南新乡发生危害调查. 植物检疫,1997,增刊:50~
54
97. 张文军,王爱军. 美洲斑潜蝇的发生与防治对策. 农业科技与信息,1998,(5):15
98. 张原. 美洲斑潜蝇的综合防治措施. 长江蔬菜,1998,(12):15~16
99. 赵刚,刘培延,卢川平. 美洲斑潜蝇地方发生规律与防治技术研究.安徽农业科学,2002,28(3):
326~328
100. 赵勇,李照会,许维岸等. 美洲斑潜蝇外寄生蜂—贝斯潜蝇姬小蜂研究进展. 昆虫天敌,2002,
24(3):32~37
101. 赵毓潮,李荣法. 美洲斑潜蝇在长阳的垂直地理分布调查分析. 湖北植保,1999,(1):10~11
102. 钟国华,胡美英,吴启松等. 黄豆鹃化萃取物防治美洲斑潜蝇和菜粉蝶的研究. 植物保护,
2000,26(3):19~21
103. 周福财,陈丽芳,李祥等. 美洲斑潜蝇蛹的抗逆性研究. 扬州大学学报,2000,3(1):45~47
104. 周亦红,赵志模,姜卫华等. 温度对美洲斑潜蝇实验种群的影响. 西南农业大学学报,2000,
22(5):443~447
105. 周亦红,姜卫华,赵志模等. 温度对美洲斑潜蝇和南美斑潜蝇种群增长的影响. 生态学报,
2001,21(8):1277~1282
106. 邹立,魏佳宁,肖宁年等. 叶片营养成分对南美斑潜蝇寄主适合度的影响. 西南农业学报,
44 美洲斑潜蝇寄主植物抗虫机制初步研究
1999,斑潜蝇专辑:78~82
107. Affeldt, H.A.; Thimijan, R.W.; Smith, F.F. et al. Response of the greenhouse whitefly(Homoptera:
Aleyrodidae)and the vegetable leafminer(Diptera:Agromyzidae)to photosperctra. Journal-of-
Economic-Entomology,1983,76:1405~1409
108. Boot, W.J.; Minkenberg, O.P.J.M.; Rabbubinge, R.et al. Biological control of the leafminer Lirimoyza
sativae by seasonal inoculativae reases of Digllyphus isaea:simulation of a parasitoid-host system.
Neth. J.PL.Path, 1992,98:203~212
109. Bordat, D.; Laterrot, H.; Renand, M. et al. Phenomena of resistance to Liriomyza trifolii Burgess and
L.sativae Blanchard(Diptera:Agromyzidae) in Lycopersicon cheesmanii Riley. Agronomie-
Tropicale,1987,42(1):43~46
110. Bordat, D.; Robert, P.; Renand, M. Susceptibility of Liriomyza trifolii Burgess and L. sativae
Blanchard Diptera:Agromyzidae)to eleven strains of entomopathogenic fungi. Gronomie- Tropicale,
(
1988,43(1):68~73
111. Carolina; Herr-JC; Johnson-MW. Host plant prefere of Liriomyza sativae(Diptera:Agromyzidae)
populations infesting green onion in Hawaii. Environmental-Entomology,1992,21(5):1097~1102
112. Cassino-PR; Perruso-JC; M-Rego-F-L-de. Proposal of methodology for monitoring tomato pests.
Anais-da-ociedade-Entomologica-do-Brasil,1995,24(2):279~285
113. Cruz, -AMR-de; Cardona, -CJ; Cruz, -JL-de. Life cycle habits and natural enemies of the bean
leafminer Liriomyza sativae Blanchard(Diptera:Agromyzidae). Acta-Agronomica-Universidad
-Nacional-de-Colombia,1989,39:133~141
114. Cruz, M.; Cardona, C. Economic importance of the leafminer Liriomyza sativae(Diptera:
Agromyzidae)as a pest of beans in the Valle del Cauca. Revista-Colombiana-de-Entomologia,1998,
24(1):49~53
115. Cure, J.R.; Cantor, R. Possibilites of action of Dacnusa sibirica as part of biological control
programme of Liriomyza huidobrensis when releasing Diglyphus begini on Gypsophila paniculata
Ashmead. Entomologoy,1998,25(4):2~3
116. Deeming-JC. Liriomyza sativae Blanchard(Diptera:Agromyzidae)established in the Old World.
Tropical-Pest-Management,1992,38(2):218~219
117. Dogimont, C.; Bordat,D; Pages, C. et al. One dominant gene conferring the resistant to the
leafminer,Liriomyza trifolii Burgess(Diptera:Agromyzidae)in melon. Euphytica,1999,105:
63~67
118. Erb, W.A.; Lindquist, R.K.; Flickingwer, N.J. et al. Resistance of seclected interspecific Lycopersicon
hybrids to Liriomyza trifolii Burgess(Diptera:Agromyzidae). Journal-of-Economic- Entomology,
1993,86(1):100~109
119. Fagoonee, I; Toory, V. Preliminary investigations of host selection mechanisms by the leafminer
Liriomyza trifolii.Insect Sci.Appl,1983,4(4):337~341
120. Greathead, D.J.; Greathead, A.H. Biological control of insect pests by insect parasitoids and
predators:the BIOCAT database. Biocontrol News and Information,1992,13:61~68
121. Hanna, HY; Story, RN; Adams, AJ. Influence of cultivar nitrogen and frequency of insecticide
application on vegetable leafminer(Diptera:Agromyzidae)population density and dispersion on snap
beans. Journal-of-Economic-Entomology,1987,80(1):107~110
122. Harris, H.M.; Tate, H.D. A leaf miner attacking the cultivated onion. Journal of Economic
参考文献 45
Entomology,1933,26:515~516
123. Heinz, K.M. Parrella, M.P. Biological control of insect on greenhouse marigolds. Environmental-
Entomology,1990,19(4):825~835
124. Hiroshi, T.; Yoshikawa, K.; Sugimoto, T. et al. Mortality of Liriomyza trifolii pupae at elevated
temptures and effective period for practical use of solar radiation for population managent. Japanese
journal of Applied Entomology and Zoology,2000,44(4):225~228
125. Hung, -ACF; Larew, -HG. An X-linked phosphoglucomutase locus in the leafmining fly. Journal-of -
Heredity,1986,77(3):209~210
126. Ipe, M.; Sadaruddin, M. Infestation and host specificity of Liriomyza brassicae and the role of
phenolic compounds in host plant resistance. Entomon,1984,9(4):265~270
127. Issa, S.; Marcam, R. Life cycle of Liriomyza sativae(Diptera:Agromyaidae)in tomato lycopersion
esculentum Mill. Boletin-de-Entomogolia-Venezolana,1991,6(1):37~45
128. Issa, S.; Marcano, R. Spatial and vertical distribution of Liriomyza sativae Blanchard(Diptera:
Agromyzidae)on tomato. Boletin-de-Entomologia-Venezolana,1993,8(2),115~122
129. Issa, S.; Marcano, R. Population dynamics of Liriomyza sativae and its parasites on tomato.
Turrialba, 1994,44(1):24~30
130. Johnson, M.W. Micronesica,1993,4(suppl):91~92
131. Johnson, M.W. Parasitization of lirimoyza spp. Infesting commercial watermelon planting in
Hawaii. Journal of Economic Entomoloy,1987,80(1):56~61
132. Johnson, M.W.; Octrran, E.R. et al. A technique for monitoring Liriomyza sativae in fresh market
tomatoes. Journal-of-Economic-Entomology,1980,73:552~563
133. Johnson, M.W.; Welter, S.C.; Toscano, N.C. et al. Reduction of tomato leaflet photosynthesis rates by
mining activity of Liromyza sativae Blanchard(Diptera:Agromyzidae). Journal-of-Economic-
Entomology,1983,76(5):1061~1063
134. Johnson, M.W. Biological control of Liriomyza leafminers in the Pacific Basin. Micronesica
Supplement,1993,4:81~92
135. Johnson, M.W.; Hara, A.H. Influence of host crop on parasitoids(Hymenoptera)of Liriomyza spp.
(Diptera:Agromyzidae). Environmental Entomology,1987,16:339~344
136. Johnson, M.W.; Oatman, ER.; Wyman, J.A. Natural control of Liriomyza sativae in pole tomatoes
in southern California. Entomophaga,1980c,25:193~198
137. Johnson, M.W.; Oatman, E.R.; Wyman, J.A. Effect on insecticides on population of the vegetable
leaminer and associated parasites on summer pole potatoes. Journal of Economic Entomoloy,1980a,
73:61~66
138. Johnson, M.W.; Oatman, E.R.; Wyman, J.A. Effect on insecticides on population of the vegetable
leaminer and associated parasites on fall pole potatoes. Journal of Economic Entomoloy,1980b,73:
67~71
139. Johnson, -MW; Mau, -RFL; Martinez, -AP. et al. Foliar pests of watermelon in Hawaii. Tropical-Pest
-Management,1989,35(1):90~96
140. Kaneshieo, L.N.; Johnson, M.W. Tritrophic effects of leaf nitrogen on Liriomyza trifolii Burgessand
an associated parasitotid Chrysocharis oscinidis on bean. Biol. Contr,1996,6:186~192
141. Kasugai, K.; Iwaizumi, R.; Kumagai, M. et al. Liromyza sativae Blanchard(Diptera: Agromyzidae)
detected in the import plant quarantine of Japan. Research-Bulletin-of-the-Plant-Protection-Service,
-Japan,2001,37:105~109
46 美洲斑潜蝇寄主植物抗虫机制初步研究
142. Lai, P.Y. Biological control of Liriomyza in Hawaii. Biocontrol News and Information,1983,(4):
195~196
143. Loini, I.; Foerster, L.A. Population fluctuation and parasitism of liriomyza sativae(Diptera:
Agromyzidae)in crop of cucumber. Anais da sociedade entologica do brasil,1985,14(2):243~
249
144. Lopes-Filho-F. Tomato for processing in the sub-middle Sai Francisco valley and the insect pests
limiting its yield. Pesquisa-Agropecuaria-Brasileira,1990,25(2):283~288
145. Lynch, J.A.; Johnson, M.W. Stratified sampling of Liriomyza spp.(Diptera:Agromyzidae) and
associated hymenopterous parasites on watermelon. Journal-of-Economic-Entomology,1987,80(6):
1254~1261
146. Martinez, M. Note on the occurre of Liriomyza sativae Blanchard in Sudan and Cameroon (Diptera,
Agromyzidae. Bordat-D.Bulletin-de-la-Societe-Entomologique-de-France,1996,101(1):115
147. Martinez, M. A new pest menaces the Oriental Region:Liriomyza sativae Blanchard(Diptera,
Agromyzidae). Bulletin-de-la-Societe-Entomologique-de-France,1994,99(4):356
148. Martinez, M.; Etienne, J.;Abud,A.A. et al. The Agromyzidae of the Dominican Republic(Diptera).
Bulletin-de-la-Societe-Entomologique-de-France,1993,98(2):165~170
149. Mason, G.A; Tabashnik, B.E; Johnson, M.W. Effects of biological and operational factors on
evolution of insecticide resistance in Liriomyza(Diptera:Agromyzidae). Journal-of-Economic-
Entomology,1989,82(2):369~373
150. Minkenberg, O.P.J.M.; Fredrix, M.J.J. Preference and performance of an herbivorous fly Liriomyza
trifolii(Diptera:Agromyzidae)on tomato plants differing in leaf nitrogen. Ann.Entomol.Soc.Am,
1989,82:350~354
151. Minkenberg, O.P.J.M.; Ottenheim, J.J.G.W. Effect of leaf nitrogen content of tomato plants on
preference and performance of a leafmining fly. Oecol,1990,83(3):291~298
152. Moreira, L.A.; Mollema, C.; Heusden, S.V. Search for molecular markers linked to Liriomyza trifolii
resistance in tomato . Euphytica,1999,109:149~156
153. Morgan, D.J.W.; Reitz, R.S.; Atkinson, P.W. et al. The resolution of Californian population of
Liriomyza huidobrensis and Liriomyza trifolii(Diptera:Agromyzidae)using PCR. Heredity,2000,
85(1):53~61
154. Nagata, R.T.; Wilkinson, L.M.; Nuessly, G.S. Longevity,fecundity and leaf stippling of Liriomyza
trifolii(Diptera:Agromyzidae)as affected by lettuce cultivar and supplemental feeding . Journal of
Entomolog,1998,91:999~1004
155. Nguyen-Thi-Nhung; Pham-Van-Lam. The biology of liriomyza sativae Blanchard(Diptera:
Agromyzidae)on vegetable beans. Bao-Ve-Thuc-Vat. Plant Protection Journal,2000,(3):7~11
156. Oatman, E.R.; Kennedy, G.G. Methomyl induced outbreak of Liriomyza sativae on tomato. Journal of
Economic Entomology,1976,69:667~668
157. Oatman, E.R.; Micheibacher, A.E. The melon ieafminer Liriomyza picteiia(Diptera:Agromyaidae)
on tomato. Journal of Economic Entomology . 1959,52(1):83~89
158. Oliveira-AM; Cruz-CA-da; Gomes-GL.et al. Larval miner of leaves in tomato plants in the State of
Rio de Janeiro:perspectives for an integrated control. Boletim-TecnicoEmpresa-de-Pesquisa-
Agropecuaria-do-Estado-do-Rio-de-Janeiro,1991,14:31
159. Orozco-Santos-M; Perez-Zamora-O; Lopez-Arriaga-O. Floating row cover and transparent mulch to
reduce insect populations,virus diseases and increase yield in cantaloupe. Florida-Entomologist,
参考文献 47
1995,78(3):493~501
160. Oudman, L.; Aukema, B.; Menken, S.B.J. et al. A procedure for identification of polyphagous
Liriomyza species using enzyme electrophoresis. Bulletin-OEPP,1995,25:349~355
161. Ozawa, A.; Saito, T.; Ota, M. Adult counts on yellow sticky traps and pupal counts in trays estimate
larval occurrence of Liriomyza trifolii in tomato greenhouse. journal of Applied Entomology and
Zoology,1998,42(3):141~147
162. Palumbo, J.C.; Mullis, C.H.; Reyes, F.J. Composition seasonal abundance and parasitism of
Liriomyza(Diptera: Agromyzidae)species on lettuce in Arizona. Journal-of-economic-entomology,
1994,87(4):1070~1077
163. Palumbo, J.C. Developmental rate of Liriomyza sativae(Diptera:Agromyzidae)on lettuce as a
function of temperature. The-Southwestern-entomologist,1995,20(4):461~465
164. Parkman, P.; Dusky, J.A.; Waddill, V.H. Biological studies of Liromyza sativae Blanchard
(Diptera:Agromyzidae)on castor bean. Environmental-Entomology,1989,18(5):768~772
165. Parrela, M.P. Effect of temperture on oviposition, feeding and longevity of Lirimoyza trifolii
(Diptera:Agromyzidae). Can. Entomol.,1984,116:85~92
166. Parrela, M.P. A review of the history and taxonomy of economically important serpentine leafminers
(Diptera:Agromyzidae)in Califfornia. Pan. Pac. Entomol, 1982,58:302~308
167. Parrella, M.P.; Robb, K.L. A technique for staining the of Lirimoyza trifolii in chrysanthemum celery
and tomato leavae. Journal of Economic Entomoloy,1982,75(2):383~384
168. Parrella, M.P. Biology of Liriomyza sativae. Ann. Rev. Entomol,1987,(32):204~224
169. Petitt, F.L.; Wietlishbach, D.O. Laboratory rearing and life history of Liriomyza sativae (Diptera:
Agromyaidae)on lima bean. Environmental-entomology,1994,23(6):1416~1421
170. Petitt, F.L. Distinguishing larval instars of the vegetable leafminer,Liriomyza sativae(Diptera:
Agromyzidae). Florida-entomologist,1990,73(2):280~286
171. Petitt, F.L.; Allen, J.C.; Barfield,C.S. Degree-day model for vegetable leafminer(Diptera:
Agromyzidae)phenology. Environmental-entomology,1991,20(4):1134~1140
172. Petitt, F.L. Effect of photoperiod on larval emerge and adult eclosion rhythms in Liriomyza sativae
(Diptera:Agromyzidae). Florida-Entomologist,1991,74(4):581~584
173. Petitt, F.L. Biological control in the integrated pest management program at the Land EPCOT Center.
Bulletin-OILB-SROP,1992,16(2):129~131
174. Petitt, F.L; Wietlisbach, D.O. Intraspecific competition among same-aged larvae of Liriomyza sativae
(Diptera:Agromyzidae)in lima bean primary leaves. Environmental-Entomology,1992,21(1):
136~140
175. Rego-Filho-L-de-M; Perruso-JC; Leite-WW. et al. The efficiy of insecticides for the control of
Liriomyza sativae Blanch ( Diptera : Agromyzidae ) and Scrobipalpuloides absoluta Meir.
(Lepidoptera:Gelechiidae)on staked tomato plants. Anais-da-Sociedade-Entomologica-do- Brasil,
1993,22(2):349~353
176. Robin, M.R; Mitchell, W.C. Sticky trap for monitoring leafminers Liriomyza sativae and Liriomyza
trifolii(Diptera:Agromyzidae)and their associated hymenopterous parasites in watermelon.
Journal-of-Economic-Entomology,1987,80(6):1345~1348
177. Rosset, P.; Diaz, I.; Ambrose, R. et al. Evaluation and validation of the polycultural system of
tomatoes and beans as a part of an integrated pest management programme for tomatoes in Nicaragua.
Turrialba,1987,37(1):85~90
48 美洲斑潜蝇寄主植物抗虫机制初步研究
178. Scheffer, S.J. Moleclular evidence of cryptic species within the Liriomyza huidobrensis(Diptera:
Agromyzidae). Journal-of-Economic-Entomology,2000,93(4):1146~1151
179. Scheffer, S.J.; Anura, W.; Diedrich, V. et al. Polymerase chain reaction-restriction fragment-length
polymorphism method to distinguish Liriomyza huidobrensis from L.langei(Diptera:Agromyzidae)
applied to three recent leafminer invasions. Journal-of-Economic-Entomology,2001,94(5):1177~
1182
180. Schuster, D.J.; Jone, J.P.; Everett, P. H. Effect of leafminer(Liriomyza sativae)control on tomato
yield. J. Am. Soc. Hortic. Sci,1976,89:154~156
181. Schuster, D.J.; Gilreath, J.P.; Wharton, R.A. Agromyzidae(Diptera)leafminers and their parasitoids
in weeds associated with tomato in Florida. Environmental-entomology,1991,20(2):720~723
182. Schuster, D.J; Wharton, R.A. Hymenopterous parasitoids of leaf-mining Liriomyza spp.(Diptera:
Agromyzidae)on tomato in Florida. Environmental Entomology,1993,22(5):1188~1191
183. Sengonca, C; Liu, B. Effect of GCSC-BtA biocide on population dynamics of cabbage pests and their
natural enemies from fields in southeastern China. Anzeiger-fur-Schadlingskunde,2002,75(2):
46~50
184. Spencer, K.A. Leaf mining Agromyzidae(Diptera)in Costa Rica. Rev. Biol. Tropi,1983,31:41~
47
185. Spencer, K.A. Host spicialization in the world Agromyzidae(Diptera). Kluwer Academic
Publishers,1992,1~24
186. Spencer, K.A. Agromyzidae(Diptera)of economic important. Ser.Entomol,1973,9:1~405
187. Spencer,K.A; Martinez,M.; Etienne,J. The Agromyzidae(Diptera)of Guadeloupe. Annales-de-la-
Societe-Entomologique-de-France,1992,28(3):251~302
188. Via, S. The quantitative genetics of polyphagy in an insect herbivore.ⅠGenotype environment
interaction in larval performance on different host plant species. Evolution,1984a,38(4):881~
895
189. Via, S. The quantitative genetics of polyphagy in an insect herbivore. Ⅱ.Genetic correlation in larval
performance within and among host . Evolution,1984b,38(4):896~905
190. Wolfenbarger, D.A. Variations in leaf miner and flea beetle injury in tomato varities. Journal-of
-Economic-Entomology,1966,59:65~68
191. Zhao, Y.X.; Kang, L. Cold tolerance of the leafminer Liriomyza sativae(Diptera:Agromyzidae).
Journal-of-Applied-Entomology,2000,124(4):185~189
192. Zhao, Y.X.; Kang, L.E. The role of plant odours in the leafminer Liriomyza sativae(Diptera:
Agromyzidae)and its parasitoid Diglyphus isaea(Hymenoptera:Eulophidae)orientation towards
the host habitat. European-Journal-of-Entomology,2002b,99(4):445~450
193. Zhao, Y.X.; Kang, L.E. Role of plant volatiles in host plant location of the leafminer,Liriomyza
sativae(Diptera: Agromyzidae). Physiol-Entomol. Oxford:Blackwell Scie Ltd,2002a,27 (2):
103~111
2. 陈文龙,赵志模,朱文炳等. 四川地区美洲斑潜蝇的寄主种类. 西南农业大学学报,1999,21
(1):55~58
3. 陈艳,范青海,赵景玮. 农药对美洲斑潜蝇的毒力和美洲斑潜蝇抗药性测定. 武夷科学,1998,
14:185~188
4. 陈艳,赵景玮,范青海. 温度对美洲斑潜蝇发育、存活和繁殖的影响. 应用生态学报,1999,
10(6):711~712
5. 陈艳,赵景玮. 美洲斑潜蝇的羽化特性. 福建农业大学学报,1997,26(2):191~193
6. 陈艳,赵景玮. 美洲斑潜蝇实验种群的密度效应. 福建农业大学学报,1998,27(l):78~81
7. 陈艳. 美洲斑潜蝇的空间和垂直分布. 福建农业大学学报,1998,27(3):257~260
8. 陈泽坦. 美洲斑潜蝇成虫活动特性观察. 华南热带农业大学学报,2003,(2):9
9. 戴小华,尤民生,傅丽君等. 美洲斑潜蝇寄主选择性与寄主植物叶片营养物质含量的关系. 山
东农业大学学报,2001,(3):311~313
10. 戴小华,尤民生,傅丽君. 氮、磷、钾对美洲斑潜蝇寄主选择性的影响. 昆虫学报,2002,45
(1)145~147
11. 戴小华,尤民生,傅丽君. 福州地区美洲斑潜蝇、南美斑潜蝇寄主植物名录. 华东昆虫学报,
2001,10(2):22~28
12. 邓望喜,李绍勤,江钟信等. 主要蔬菜品种对美洲斑潜蝇抗性聚类分析. 华中农业大学学报,
2001,20(2):114~118
13. 董慈祥,高志民,杨青蕊等. 美洲斑潜蝇在茄子和菜豆田为害的空间分布型研究. 中国蔬菜,
1999,(5):29~30
14. 董慈祥,杨青蕊,胡树香等. 美洲斑潜蝇的普查及防治. 华东昆虫学报,2000,9(1):113~
115
15. 宫亚军,石宝才,王军. 不同黄色对美洲斑潜蝇诱杀效果研究. 北京农业科学,1998,16(3):
28~29
16. 宫亚军,石宝才,王军等. 温度对美洲斑潜蝇生长发育的影响. 植物保护,1999,25(1):8~
11
17. 顾黄辉,卞觉时.几种斑潜蝇的发生与识别. 长江蔬菜,1998,(4):20~21
18. 郭明贵,范仁俊,张润祥等. 美洲斑潜蝇在山西省的发生及防治. 山西农业科学,2000,28(3):
66~68
19. 郭艳琼,武宇鹏,李友莲. 温室内黄色卡防治美洲斑潜蝇的研究. 山西农业大学学报,2002,
22(2):123~126
20. 韩桂仲, 原国辉. 美洲斑潜蝇生物学特性及防治研究. 河南农业大学学报,1998,32(4):
407~409
21. 韩桂仲,李自朝,刘顺通等. 菜豆田两种潜叶蝇主要天敌生态位研究. 昆虫知识,2001,38(1):
39~43
22. 郝树广,康乐. 温、湿度对美洲斑潜蝇发育存活及食量的影响. 昆虫学报,2001,44(3):330~
333
23. 何金英,邓望喜,杨石城等. 美洲斑潜蝇实验种群生命表的研究. 昆虫学报,1999,42(3):
291~295
参考文献 41
24. 何金英,邓望喜,杨石城. 美洲斑潜蝇自然种群生命表及飞行能力研究. 植物检疫,1998,12
(4):193~197
25. 江健生,陈安突,姚冠华. 美洲斑潜蝇发生与预测预报办法. 植保技术与推广,1998,18(4):
7~8
26. 蒋辉,彭炜. 美洲斑潜蝇和南美斑潜蝇预测预报技术研究及应用. 西南农业大学学报,2000,
22(5):438~440
27. 蒋玉文,刘箐. 美洲斑潜蝇幼虫空间分布型和田间抽样技术. 昆虫知识,1998,35(5):276~
279
28. 景晓红,李生才,上官小霞等. 美洲斑潜蝇空间格局研究. 山西农业大学学报,1999,19(3):
195~197
29. 康乐. 斑潜蝇的生态学与持续控制. 北京:科学出版社. 1996
30. 雷仲仁,王音,问锦曾. 蔬菜上 11 种潜叶蝇的鉴别. 植物保护,1996,22(6):40~43
31. 李斌. 美洲斑潜蝇大发生. 湖北植保,1999,(5):37
32. 李洪奎,刘建生,沈孝恩等. 美洲斑潜蝇在山东潍坊的越冬试验. 昆虫知识,1998,35(5):
284~285
33. 李洪奎,刘建生,宋建科等. 美洲斑潜蝇空间分布型研究. 山东农业大学学报,1999,30(2):
151~155
34. 李惠英. 乌鲁木齐地区蔬菜潜叶蝇发生规律及防治技术. 新疆农业科技, 1999(4):17~18
35. 李绍勤,邓望喜,谢宪高. 不同菜豆品种对美洲斑潜蝇种群参数的影响. 生态学报,2002,22
(8):1354~1357
36. 李秀文. 天津市美洲斑潜蝇研究及检疫综合防除对策. 天津农林科技,2001,(1):32~35
37. 李学峰,黄华章,张文杰等. 美洲斑潜蝇和拉美斑潜蝇对三类哟纪药剂敏感性测定. 植物保护
学报,2000,27(2):179~182
38. 梁广文,詹根祥,曾玲. 寄生蜂对美洲斑潜蝇自然种群控制作用评价. 应用生态学报,2001,
12(2):257~260
39. 林进添. 美洲斑潜蝇的抗药性监测. 华南农业大学学报,1998,17(1):24~28
40. 林裕正,张稻友,李永坚等. 汕头市美洲斑潜蝇的发生及预测预报. 广东农业科学,1997,(6):
8~11
41. 刘佳. 美洲斑潜蝇综防技术. 长江蔬菜,2002,(7):30~31
42. 刘培延,赵刚,沈素云. 美洲斑潜蝇成虫对不同色板的趋性. 植物检疫,2000,(4):203~204
43. 刘箐, 将玉文. 美洲斑潜蝇寄主选择性研究. 中国蔬菜,1998(1):1~4
44. 刘淑杰,李惠春,王忠元. 美洲斑潜蝇在乌兰浩特市发生与防治. 植物检疫,2000,(1):25
45. 鲁栋,程利群. 不同寄主对美洲斑潜蝇的影响. 植物检疫,1999,13(4):219~220
46. 鲁栋,王维新. 美洲斑潜蝇寄生性天敌的调查. 植物检疫,1998,12(5):272
47. 鲁栋,王伟新. 美洲斑潜蝇发生规律研究初报. 安徽农业科学,1997,25(3):262~263
48. 鲁栋,朱贤才,程利群. 美洲斑潜蝇的发生与防治. 上海蔬菜,1997,(3):34
49. 鲁栋. 光对美洲斑潜蝇影响的初步研究. 植物检疫,1998,12(4):200
50. 陆自强,陈丽芳,祝树德等. 蔬菜害虫发生新特点与无公害治理对策. 武夷科学,2002,18:
247~251
51. 吕芬,周平云. 气象因子对美洲斑潜蝇种群数量的影响. 南农业大学学报,2001,16(2):83~
85
52. 马瑞燕,韩居才,荆英. 山西两种建议兴办潜蝇研究初报. 山西农业大学学报,1999,19(1):
4~7
42 美洲斑潜蝇寄主植物抗虫机制初步研究
53. 庞保平,鲍祖胜,周晓榕等. 寄主挥发物、叶色和表皮毛在美洲斑潜蝇寄主选择中的作用. 生
态学报,2004,24(1):547~550
54. 彭发青,邓望喜. 美洲斑潜蝇寄主抗虫性初步研究. 植物检疫,2001,15(1):17~21
55. 彭家昌,庞清明,刘平安等. 四川南充市美洲斑潜蝇发生与防治. 植物医生,1999,(4):11~
13
56. 彭炜,范京安,赵学谦等. 四川省美洲斑潜蝇发生与综合防治初步研究. 植物检疫,1998,12
(3):135~138
57. 彭炜,赵学谦,杨光超等. 四川攀西地区斑潜蝇发生和综合防治研究. 西南农业大学学报,
1999,21:(1):59~63
58. 邱名榜,缪渔港,李培军等. 烟台市美洲斑潜蝇发生及其防治技术研究. 莱阳农学院学报,
1998,15(2):116~123
59. 邱一中,吴文哲,萧旭峰等. RAPD—PCR 在六种斑潜蝇款需鉴定技术之应用. 中华昆虫,2000,
20(4):293~309
60. 屈娟,罗辉. 利用电泳法快速鉴定斑潜蝇. 植物检疫,1997,11(增刊):47~49
61. 石桥德. 美洲斑潜蝇幼虫入上化蛹习性的初步观察. 广西植保,1998,(2):38
62. 宋慧英,陈常铭. 美洲斑潜蝇的形态特征. 湖南农业科学,2000,(2):33~34
63. 孙宗瑜,伏蕊娟,韩太国等. 洛阳市美洲斑潜蝇发生规律研究. 洛阳农业高等专科学校学报,
2002,22(2):21~22
64. 谭伟雄,卓国豪. 美洲斑潜蝇的发生规律和防治研究. 中国蔬菜,1997,79(1):27~28
65. 田士波,周谨. 防治美洲斑潜蝇药剂筛选方法的研究. 河北农业科学,1997,1(1):36~37
66. 童文彬,胡水泉,吕玉土. 美洲斑潜蝇空间格局与抽样技术的研究. 植保技术与推广,1998,8
(3):31~32
67. 王春林,照守岐. 蔬菜病虫害的综合治理(九):美洲斑潜蝇的发生及控制. 中国蔬菜,1998,
(3):54~56
68. 王春林. 斑潜蝇对中国瓜菜作物的严重威胁与建议对策. 植物检疫,1997,13(增刊):57~59
69. 王典章,姜月敏,由洪健等. 美洲斑潜蝇在蔬菜田的发生及防治研究. 莱阳农学院学报,1999,
16(3):203~206
70. 王宏平. 植物叶片表面特征对美洲斑潜蝇的抗性观察. 湖北植保,1999,(3):39
71. 王荣洲,鲍祖胜. 美洲斑潜蝇寄主选择性研究初报. 浙江农业科学,2001,(3):149~152
72. 王音,雷仲仁,问锦曾等. 美洲斑潜蝇的越冬与耐旱性研究. 植物保护学报,2000,27(1):
32~36
73. 王音,问锦曾. 5 种值得注意的危险性斑潜蝇. 植物保护,1994,20(6):35~37
74. 问锦,曾王音,雷仲仁等. 美洲斑潜蝇中国新纪录. 昆虫分类学报,1996,18(4):311~312
75. 吴佳教. 美洲斑潜蝇种群动态及其控制研究. 华南农业博士学位论文,1997,1~83
76. 吴佳教,曾玲,梁广之等. 水浸对美洲斑潜蝇存活的影响. 植物检疫,2000,14(1):3~5
77. 谢琼华,何坦连,蔡德江等. 美洲斑潜蝇发生危害及其防治. 植物保护,1997,23(1):20~
22
78. 谢荣贵. 美洲斑潜蝇的综合防治法.北京农业,1999,(6):15
79. 辛爱梅. 美洲斑潜蝇及其在沈阳的发生现状. 辽宁农业科技,1997,(4):41~44
80. 杨龙龙. 对斑潜蝇属中检疫害虫的研究. 植物检疫,1995,9(1):1~5
81. 杨明英等. 应用农业技术措施控制斑潜蝇危害蔬菜的实验. 西南农业学报,1999,(增刊):115~
119
82. 杨文兰,吉志新,张卫青等. 冀东地区美洲斑潜蝇的综合防治. 河北职业技术师范学院学报,
参考文献43
2001,15(2):44~47
83. 尹新明,原国辉,马长生等. 美洲斑潜蝇对豇豆危害的产量损失及防治指标研究. 河南农业大
学学报,1999,33(2):194~197
84. 余道坚,张润杰,周昌清等. 美洲斑潜蝇寄主选择性研究. 中山大学学报,2000,39(1):86~
90
85. 余道坚,张润杰,周昌清等. 温度对美洲斑潜蝇发育、存活和繁殖的影响. 生态学报,2000,
20(5):820~823
86. 曾玲,吴佳教,长森泉等. 美洲斑潜蝇幼虫田间取样方法研究. 见:中国有害生物综合治理论
文集(张芝利等主编). 北京:中国农业科技出版社,1996:781
87. 曾玲,吴佳教,梁广文等. 寄生蜂对美洲斑潜蝇种群控制作用评价. 生态学报,2000,20(6):
982~985
88. 曾玲,吴佳教,梁广之等. 温度对美洲斑潜蝇生长发育的影响. 华南农业大学学报,1997,19
(3):21~25
89. 曾益良,秦小薇,严炳丽等. 氨基甲酸酯类杀虫剂及其与阿维菌素类的混配剂对美洲斑潜蝇的
防治效果. 农药学报,2001,3(1):79~82
90. 张彩霞. 美洲斑潜蝇的普查与防治. 植物检疫.1997,(增刊):1~6
91. 张桂芬,朱伟旗. 寄主植物对美洲斑潜蝇各虫态发育历期的影响. 植物保护学报,1998,25(1):
11~14
92. 张惠杰,李建社,张丽萍等. 美洲斑潜蝇的寄主种类、适合度及其危害性评价. 生态学报,2000,
20(1):134~138
93. 张惠杰,王会金,李建社等. 不同寄主植物对美洲斑潜蝇的适合度及叶片结构的关系. 动物学
报,2001,22(2):137~141
94. 张慧杰,段国琪,张战备等. 空气和土壤湿度对美洲斑潜蝇发育与存活的影响. 生态学报,
2004,24(3):538~541
95. 张慧杰,李建设,张丽萍等. 美洲斑潜蝇在中国山西的生活史及其主要习性. 应用环境生物学
报,2000,6(6):565~571
96. 张平磊,高山松,风之杰. 美洲斑潜蝇在河南新乡发生危害调查. 植物检疫,1997,增刊:50~
54
97. 张文军,王爱军. 美洲斑潜蝇的发生与防治对策. 农业科技与信息,1998,(5):15
98. 张原. 美洲斑潜蝇的综合防治措施. 长江蔬菜,1998,(12):15~16
99. 赵刚,刘培延,卢川平. 美洲斑潜蝇地方发生规律与防治技术研究.安徽农业科学,2002,28(3):
326~328
100. 赵勇,李照会,许维岸等. 美洲斑潜蝇外寄生蜂—贝斯潜蝇姬小蜂研究进展. 昆虫天敌,2002,
24(3):32~37
101. 赵毓潮,李荣法. 美洲斑潜蝇在长阳的垂直地理分布调查分析. 湖北植保,1999,(1):10~11
102. 钟国华,胡美英,吴启松等. 黄豆鹃化萃取物防治美洲斑潜蝇和菜粉蝶的研究. 植物保护,
2000,26(3):19~21
103. 周福财,陈丽芳,李祥等. 美洲斑潜蝇蛹的抗逆性研究. 扬州大学学报,2000,3(1):45~47
104. 周亦红,赵志模,姜卫华等. 温度对美洲斑潜蝇实验种群的影响. 西南农业大学学报,2000,
22(5):443~447
105. 周亦红,姜卫华,赵志模等. 温度对美洲斑潜蝇和南美斑潜蝇种群增长的影响. 生态学报,
2001,21(8):1277~1282
106. 邹立,魏佳宁,肖宁年等. 叶片营养成分对南美斑潜蝇寄主适合度的影响. 西南农业学报,
44 美洲斑潜蝇寄主植物抗虫机制初步研究
1999,斑潜蝇专辑:78~82
107. Affeldt, H.A.; Thimijan, R.W.; Smith, F.F. et al. Response of the greenhouse whitefly(Homoptera:
Aleyrodidae)and the vegetable leafminer(Diptera:Agromyzidae)to photosperctra. Journal-of-
Economic-Entomology,1983,76:1405~1409
108. Boot, W.J.; Minkenberg, O.P.J.M.; Rabbubinge, R.et al. Biological control of the leafminer Lirimoyza
sativae by seasonal inoculativae reases of Digllyphus isaea:simulation of a parasitoid-host system.
Neth. J.PL.Path, 1992,98:203~212
109. Bordat, D.; Laterrot, H.; Renand, M. et al. Phenomena of resistance to Liriomyza trifolii Burgess and
L.sativae Blanchard(Diptera:Agromyzidae) in Lycopersicon cheesmanii Riley. Agronomie-
Tropicale,1987,42(1):43~46
110. Bordat, D.; Robert, P.; Renand, M. Susceptibility of Liriomyza trifolii Burgess and L. sativae
Blanchard Diptera:Agromyzidae)to eleven strains of entomopathogenic fungi. Gronomie- Tropicale,
(
1988,43(1):68~73
111. Carolina; Herr-JC; Johnson-MW. Host plant prefere of Liriomyza sativae(Diptera:Agromyzidae)
populations infesting green onion in Hawaii. Environmental-Entomology,1992,21(5):1097~1102
112. Cassino-PR; Perruso-JC; M-Rego-F-L-de. Proposal of methodology for monitoring tomato pests.
Anais-da-ociedade-Entomologica-do-Brasil,1995,24(2):279~285
113. Cruz, -AMR-de; Cardona, -CJ; Cruz, -JL-de. Life cycle habits and natural enemies of the bean
leafminer Liriomyza sativae Blanchard(Diptera:Agromyzidae). Acta-Agronomica-Universidad
-Nacional-de-Colombia,1989,39:133~141
114. Cruz, M.; Cardona, C. Economic importance of the leafminer Liriomyza sativae(Diptera:
Agromyzidae)as a pest of beans in the Valle del Cauca. Revista-Colombiana-de-Entomologia,1998,
24(1):49~53
115. Cure, J.R.; Cantor, R. Possibilites of action of Dacnusa sibirica as part of biological control
programme of Liriomyza huidobrensis when releasing Diglyphus begini on Gypsophila paniculata
Ashmead. Entomologoy,1998,25(4):2~3
116. Deeming-JC. Liriomyza sativae Blanchard(Diptera:Agromyzidae)established in the Old World.
Tropical-Pest-Management,1992,38(2):218~219
117. Dogimont, C.; Bordat,D; Pages, C. et al. One dominant gene conferring the resistant to the
leafminer,Liriomyza trifolii Burgess(Diptera:Agromyzidae)in melon. Euphytica,1999,105:
63~67
118. Erb, W.A.; Lindquist, R.K.; Flickingwer, N.J. et al. Resistance of seclected interspecific Lycopersicon
hybrids to Liriomyza trifolii Burgess(Diptera:Agromyzidae). Journal-of-Economic- Entomology,
1993,86(1):100~109
119. Fagoonee, I; Toory, V. Preliminary investigations of host selection mechanisms by the leafminer
Liriomyza trifolii.Insect Sci.Appl,1983,4(4):337~341
120. Greathead, D.J.; Greathead, A.H. Biological control of insect pests by insect parasitoids and
predators:the BIOCAT database. Biocontrol News and Information,1992,13:61~68
121. Hanna, HY; Story, RN; Adams, AJ. Influence of cultivar nitrogen and frequency of insecticide
application on vegetable leafminer(Diptera:Agromyzidae)population density and dispersion on snap
beans. Journal-of-Economic-Entomology,1987,80(1):107~110
122. Harris, H.M.; Tate, H.D. A leaf miner attacking the cultivated onion. Journal of Economic
参考文献 45
Entomology,1933,26:515~516
123. Heinz, K.M. Parrella, M.P. Biological control of insect on greenhouse marigolds. Environmental-
Entomology,1990,19(4):825~835
124. Hiroshi, T.; Yoshikawa, K.; Sugimoto, T. et al. Mortality of Liriomyza trifolii pupae at elevated
temptures and effective period for practical use of solar radiation for population managent. Japanese
journal of Applied Entomology and Zoology,2000,44(4):225~228
125. Hung, -ACF; Larew, -HG. An X-linked phosphoglucomutase locus in the leafmining fly. Journal-of -
Heredity,1986,77(3):209~210
126. Ipe, M.; Sadaruddin, M. Infestation and host specificity of Liriomyza brassicae and the role of
phenolic compounds in host plant resistance. Entomon,1984,9(4):265~270
127. Issa, S.; Marcam, R. Life cycle of Liriomyza sativae(Diptera:Agromyaidae)in tomato lycopersion
esculentum Mill. Boletin-de-Entomogolia-Venezolana,1991,6(1):37~45
128. Issa, S.; Marcano, R. Spatial and vertical distribution of Liriomyza sativae Blanchard(Diptera:
Agromyzidae)on tomato. Boletin-de-Entomologia-Venezolana,1993,8(2),115~122
129. Issa, S.; Marcano, R. Population dynamics of Liriomyza sativae and its parasites on tomato.
Turrialba, 1994,44(1):24~30
130. Johnson, M.W. Micronesica,1993,4(suppl):91~92
131. Johnson, M.W. Parasitization of lirimoyza spp. Infesting commercial watermelon planting in
Hawaii. Journal of Economic Entomoloy,1987,80(1):56~61
132. Johnson, M.W.; Octrran, E.R. et al. A technique for monitoring Liriomyza sativae in fresh market
tomatoes. Journal-of-Economic-Entomology,1980,73:552~563
133. Johnson, M.W.; Welter, S.C.; Toscano, N.C. et al. Reduction of tomato leaflet photosynthesis rates by
mining activity of Liromyza sativae Blanchard(Diptera:Agromyzidae). Journal-of-Economic-
Entomology,1983,76(5):1061~1063
134. Johnson, M.W. Biological control of Liriomyza leafminers in the Pacific Basin. Micronesica
Supplement,1993,4:81~92
135. Johnson, M.W.; Hara, A.H. Influence of host crop on parasitoids(Hymenoptera)of Liriomyza spp.
(Diptera:Agromyzidae). Environmental Entomology,1987,16:339~344
136. Johnson, M.W.; Oatman, ER.; Wyman, J.A. Natural control of Liriomyza sativae in pole tomatoes
in southern California. Entomophaga,1980c,25:193~198
137. Johnson, M.W.; Oatman, E.R.; Wyman, J.A. Effect on insecticides on population of the vegetable
leaminer and associated parasites on summer pole potatoes. Journal of Economic Entomoloy,1980a,
73:61~66
138. Johnson, M.W.; Oatman, E.R.; Wyman, J.A. Effect on insecticides on population of the vegetable
leaminer and associated parasites on fall pole potatoes. Journal of Economic Entomoloy,1980b,73:
67~71
139. Johnson, -MW; Mau, -RFL; Martinez, -AP. et al. Foliar pests of watermelon in Hawaii. Tropical-Pest
-Management,1989,35(1):90~96
140. Kaneshieo, L.N.; Johnson, M.W. Tritrophic effects of leaf nitrogen on Liriomyza trifolii Burgessand
an associated parasitotid Chrysocharis oscinidis on bean. Biol. Contr,1996,6:186~192
141. Kasugai, K.; Iwaizumi, R.; Kumagai, M. et al. Liromyza sativae Blanchard(Diptera: Agromyzidae)
detected in the import plant quarantine of Japan. Research-Bulletin-of-the-Plant-Protection-Service,
-Japan,2001,37:105~109
46 美洲斑潜蝇寄主植物抗虫机制初步研究
142. Lai, P.Y. Biological control of Liriomyza in Hawaii. Biocontrol News and Information,1983,(4):
195~196
143. Loini, I.; Foerster, L.A. Population fluctuation and parasitism of liriomyza sativae(Diptera:
Agromyzidae)in crop of cucumber. Anais da sociedade entologica do brasil,1985,14(2):243~
249
144. Lopes-Filho-F. Tomato for processing in the sub-middle Sai Francisco valley and the insect pests
limiting its yield. Pesquisa-Agropecuaria-Brasileira,1990,25(2):283~288
145. Lynch, J.A.; Johnson, M.W. Stratified sampling of Liriomyza spp.(Diptera:Agromyzidae) and
associated hymenopterous parasites on watermelon. Journal-of-Economic-Entomology,1987,80(6):
1254~1261
146. Martinez, M. Note on the occurre of Liriomyza sativae Blanchard in Sudan and Cameroon (Diptera,
Agromyzidae. Bordat-D.Bulletin-de-la-Societe-Entomologique-de-France,1996,101(1):115
147. Martinez, M. A new pest menaces the Oriental Region:Liriomyza sativae Blanchard(Diptera,
Agromyzidae). Bulletin-de-la-Societe-Entomologique-de-France,1994,99(4):356
148. Martinez, M.; Etienne, J.;Abud,A.A. et al. The Agromyzidae of the Dominican Republic(Diptera).
Bulletin-de-la-Societe-Entomologique-de-France,1993,98(2):165~170
149. Mason, G.A; Tabashnik, B.E; Johnson, M.W. Effects of biological and operational factors on
evolution of insecticide resistance in Liriomyza(Diptera:Agromyzidae). Journal-of-Economic-
Entomology,1989,82(2):369~373
150. Minkenberg, O.P.J.M.; Fredrix, M.J.J. Preference and performance of an herbivorous fly Liriomyza
trifolii(Diptera:Agromyzidae)on tomato plants differing in leaf nitrogen. Ann.Entomol.Soc.Am,
1989,82:350~354
151. Minkenberg, O.P.J.M.; Ottenheim, J.J.G.W. Effect of leaf nitrogen content of tomato plants on
preference and performance of a leafmining fly. Oecol,1990,83(3):291~298
152. Moreira, L.A.; Mollema, C.; Heusden, S.V. Search for molecular markers linked to Liriomyza trifolii
resistance in tomato . Euphytica,1999,109:149~156
153. Morgan, D.J.W.; Reitz, R.S.; Atkinson, P.W. et al. The resolution of Californian population of
Liriomyza huidobrensis and Liriomyza trifolii(Diptera:Agromyzidae)using PCR. Heredity,2000,
85(1):53~61
154. Nagata, R.T.; Wilkinson, L.M.; Nuessly, G.S. Longevity,fecundity and leaf stippling of Liriomyza
trifolii(Diptera:Agromyzidae)as affected by lettuce cultivar and supplemental feeding . Journal of
Entomolog,1998,91:999~1004
155. Nguyen-Thi-Nhung; Pham-Van-Lam. The biology of liriomyza sativae Blanchard(Diptera:
Agromyzidae)on vegetable beans. Bao-Ve-Thuc-Vat. Plant Protection Journal,2000,(3):7~11
156. Oatman, E.R.; Kennedy, G.G. Methomyl induced outbreak of Liriomyza sativae on tomato. Journal of
Economic Entomology,1976,69:667~668
157. Oatman, E.R.; Micheibacher, A.E. The melon ieafminer Liriomyza picteiia(Diptera:Agromyaidae)
on tomato. Journal of Economic Entomology . 1959,52(1):83~89
158. Oliveira-AM; Cruz-CA-da; Gomes-GL.et al. Larval miner of leaves in tomato plants in the State of
Rio de Janeiro:perspectives for an integrated control. Boletim-TecnicoEmpresa-de-Pesquisa-
Agropecuaria-do-Estado-do-Rio-de-Janeiro,1991,14:31
159. Orozco-Santos-M; Perez-Zamora-O; Lopez-Arriaga-O. Floating row cover and transparent mulch to
reduce insect populations,virus diseases and increase yield in cantaloupe. Florida-Entomologist,
参考文献 47
1995,78(3):493~501
160. Oudman, L.; Aukema, B.; Menken, S.B.J. et al. A procedure for identification of polyphagous
Liriomyza species using enzyme electrophoresis. Bulletin-OEPP,1995,25:349~355
161. Ozawa, A.; Saito, T.; Ota, M. Adult counts on yellow sticky traps and pupal counts in trays estimate
larval occurrence of Liriomyza trifolii in tomato greenhouse. journal of Applied Entomology and
Zoology,1998,42(3):141~147
162. Palumbo, J.C.; Mullis, C.H.; Reyes, F.J. Composition seasonal abundance and parasitism of
Liriomyza(Diptera: Agromyzidae)species on lettuce in Arizona. Journal-of-economic-entomology,
1994,87(4):1070~1077
163. Palumbo, J.C. Developmental rate of Liriomyza sativae(Diptera:Agromyzidae)on lettuce as a
function of temperature. The-Southwestern-entomologist,1995,20(4):461~465
164. Parkman, P.; Dusky, J.A.; Waddill, V.H. Biological studies of Liromyza sativae Blanchard
(Diptera:Agromyzidae)on castor bean. Environmental-Entomology,1989,18(5):768~772
165. Parrela, M.P. Effect of temperture on oviposition, feeding and longevity of Lirimoyza trifolii
(Diptera:Agromyzidae). Can. Entomol.,1984,116:85~92
166. Parrela, M.P. A review of the history and taxonomy of economically important serpentine leafminers
(Diptera:Agromyzidae)in Califfornia. Pan. Pac. Entomol, 1982,58:302~308
167. Parrella, M.P.; Robb, K.L. A technique for staining the of Lirimoyza trifolii in chrysanthemum celery
and tomato leavae. Journal of Economic Entomoloy,1982,75(2):383~384
168. Parrella, M.P. Biology of Liriomyza sativae. Ann. Rev. Entomol,1987,(32):204~224
169. Petitt, F.L.; Wietlishbach, D.O. Laboratory rearing and life history of Liriomyza sativae (Diptera:
Agromyaidae)on lima bean. Environmental-entomology,1994,23(6):1416~1421
170. Petitt, F.L. Distinguishing larval instars of the vegetable leafminer,Liriomyza sativae(Diptera:
Agromyzidae). Florida-entomologist,1990,73(2):280~286
171. Petitt, F.L.; Allen, J.C.; Barfield,C.S. Degree-day model for vegetable leafminer(Diptera:
Agromyzidae)phenology. Environmental-entomology,1991,20(4):1134~1140
172. Petitt, F.L. Effect of photoperiod on larval emerge and adult eclosion rhythms in Liriomyza sativae
(Diptera:Agromyzidae). Florida-Entomologist,1991,74(4):581~584
173. Petitt, F.L. Biological control in the integrated pest management program at the Land EPCOT Center.
Bulletin-OILB-SROP,1992,16(2):129~131
174. Petitt, F.L; Wietlisbach, D.O. Intraspecific competition among same-aged larvae of Liriomyza sativae
(Diptera:Agromyzidae)in lima bean primary leaves. Environmental-Entomology,1992,21(1):
136~140
175. Rego-Filho-L-de-M; Perruso-JC; Leite-WW. et al. The efficiy of insecticides for the control of
Liriomyza sativae Blanch ( Diptera : Agromyzidae ) and Scrobipalpuloides absoluta Meir.
(Lepidoptera:Gelechiidae)on staked tomato plants. Anais-da-Sociedade-Entomologica-do- Brasil,
1993,22(2):349~353
176. Robin, M.R; Mitchell, W.C. Sticky trap for monitoring leafminers Liriomyza sativae and Liriomyza
trifolii(Diptera:Agromyzidae)and their associated hymenopterous parasites in watermelon.
Journal-of-Economic-Entomology,1987,80(6):1345~1348
177. Rosset, P.; Diaz, I.; Ambrose, R. et al. Evaluation and validation of the polycultural system of
tomatoes and beans as a part of an integrated pest management programme for tomatoes in Nicaragua.
Turrialba,1987,37(1):85~90
48 美洲斑潜蝇寄主植物抗虫机制初步研究
178. Scheffer, S.J. Moleclular evidence of cryptic species within the Liriomyza huidobrensis(Diptera:
Agromyzidae). Journal-of-Economic-Entomology,2000,93(4):1146~1151
179. Scheffer, S.J.; Anura, W.; Diedrich, V. et al. Polymerase chain reaction-restriction fragment-length
polymorphism method to distinguish Liriomyza huidobrensis from L.langei(Diptera:Agromyzidae)
applied to three recent leafminer invasions. Journal-of-Economic-Entomology,2001,94(5):1177~
1182
180. Schuster, D.J.; Jone, J.P.; Everett, P. H. Effect of leafminer(Liriomyza sativae)control on tomato
yield. J. Am. Soc. Hortic. Sci,1976,89:154~156
181. Schuster, D.J.; Gilreath, J.P.; Wharton, R.A. Agromyzidae(Diptera)leafminers and their parasitoids
in weeds associated with tomato in Florida. Environmental-entomology,1991,20(2):720~723
182. Schuster, D.J; Wharton, R.A. Hymenopterous parasitoids of leaf-mining Liriomyza spp.(Diptera:
Agromyzidae)on tomato in Florida. Environmental Entomology,1993,22(5):1188~1191
183. Sengonca, C; Liu, B. Effect of GCSC-BtA biocide on population dynamics of cabbage pests and their
natural enemies from fields in southeastern China. Anzeiger-fur-Schadlingskunde,2002,75(2):
46~50
184. Spencer, K.A. Leaf mining Agromyzidae(Diptera)in Costa Rica. Rev. Biol. Tropi,1983,31:41~
47
185. Spencer, K.A. Host spicialization in the world Agromyzidae(Diptera). Kluwer Academic
Publishers,1992,1~24
186. Spencer, K.A. Agromyzidae(Diptera)of economic important. Ser.Entomol,1973,9:1~405
187. Spencer,K.A; Martinez,M.; Etienne,J. The Agromyzidae(Diptera)of Guadeloupe. Annales-de-la-
Societe-Entomologique-de-France,1992,28(3):251~302
188. Via, S. The quantitative genetics of polyphagy in an insect herbivore.ⅠGenotype environment
interaction in larval performance on different host plant species. Evolution,1984a,38(4):881~
895
189. Via, S. The quantitative genetics of polyphagy in an insect herbivore. Ⅱ.Genetic correlation in larval
performance within and among host . Evolution,1984b,38(4):896~905
190. Wolfenbarger, D.A. Variations in leaf miner and flea beetle injury in tomato varities. Journal-of
-Economic-Entomology,1966,59:65~68
191. Zhao, Y.X.; Kang, L. Cold tolerance of the leafminer Liriomyza sativae(Diptera:Agromyzidae).
Journal-of-Applied-Entomology,2000,124(4):185~189
192. Zhao, Y.X.; Kang, L.E. The role of plant odours in the leafminer Liriomyza sativae(Diptera:
Agromyzidae)and its parasitoid Diglyphus isaea(Hymenoptera:Eulophidae)orientation towards
the host habitat. European-Journal-of-Entomology,2002b,99(4):445~450
193. Zhao, Y.X.; Kang, L.E. Role of plant volatiles in host plant location of the leafminer,Liriomyza
sativae(Diptera: Agromyzidae). Physiol-Entomol. Oxford:Blackwell Scie Ltd,2002a,27 (2):
103~111