应用单克隆抗体评价稻田天敌的捕食作用——稻飞虱和弹尾虫单克隆抗体的制备及其应用
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摘要
本文在国内外首次制备出了分别针对褐飞虱Nilaparvata lugens和稻田多种弹尾虫
Collembola复合种群的单克隆抗体,并应用褐飞虱、弹尾虫和白背飞虱Sogatella
furcifera的单克隆抗体结合田间调查资料评价了弹尾虫在稻田生态系统中的作用及
主要捕食性天敌对褐飞虱和白背飞虱的控制作用。结果如下:
1)应用杂交瘤技术,制备了4株褐飞虱的单克隆抗体细胞株,分别命名为3B2、
3B11、3H3和4B8。4种抗体的效价均在4.096×10~6倍以上。它们只与褐飞虱所有虫
态发生反应,不与稻田其它主要昆虫和蜘蛛发生交叉反应,其中以3H3和4B8的特
异性更高。SDS-聚丙烯酰胺凝胶电泳和Western blot印迹分析表明,3B2和3B11只
与褐飞虱287kDa的多肽结合,3H3和4B8与215、199和167kDa的三条多肽具有
亲和性。在25℃下,1头褐飞虱怀卵雌成虫与3B2、3B11、3H3和4B8结合的多肽
在拟环纹豹蛛肠道中的可测定时间分别为1.460d、0.477d、0.367d和1.913d,分别相
当于35.04h、11.45h、8.81h和45.91h。4种单克隆抗体均为IgG_3亚类。根据上述结
果,初步确定4B8用于捕食作用研究。
2)应用杂交瘤技术,制备了5株多种弹尾虫复合体的单克隆抗体细胞株,分别
命名为1B5、2F10、2G12、3D8和4F8。5种单克隆抗体的效价均达到1.024×10~8倍
以上。它们只与弹尾虫发生反应,不与稻田中被检测的其他昆虫种类和蜘蛛发生交叉
反应。应用免疫双扩散法鉴定抗体类型及亚类的结果表明,1B5、2F10、3D8和4F8
为IgG_3亚类,2G12为IgG_1亚类。
3)应用褐飞虱单克隆抗体3B2和4B8比较了直接、间接和多种抗体夹心ELISA
方法。结果表明:捕食者浓度对直接和间接ELISA检测结果的影响大于抗体夹心法。
当拟环纹豹蛛浓度为0.042mg/ml(鲜重)时,直接和间接ELISA检测的OD值比不
加拟环纹豹蛛的阳性对照仍降低5%以上。而当捕食者浓度为0.214mg/ml时,对同
种单抗、异种单抗和两种单抗混合夹心ELISA检测OD值的影响均在5%以下。当
捕食者浓度为0.214mg/ml时,抗体夹心ELISA的检测灵敏度高于直接和间接
ELISA。同种单抗、异种单抗和两种单抗混合夹心ELISA检测灵敏度均为16.91ng/ml
(1/17509头褐飞虱怀卵雌成虫/ml),直接和间接ELISA分别为67.59ng/ml(1/4378
头/ml)和135.2ng/ml(1/2189头/ml)。建立了4B8稀释1000倍(28.130μg/ml),捕食
者匀浆液定容至100ml/头,HRP-4B8稀释4000倍(1.045μg/ml)的夹心ELISA用
于检测捕食者对褐飞虱的捕食作用。在此检测系统下,检测的灵敏度为每头拟环纹
豹蛛含1石glpg褐飞虱猎物蛋白讨当于1/175头褐飞虱怀卵雌成虫人非目标抗原
对检测结果的影响小于5%。
4)应用弹尾虫单克隆抗体 IBS、ZF10、2G12、3D8和 4F8比较了间接 ELISA
和抗体夹心ELlsA方法。结果表明:2o12抗体夹心ELISA检测抗原的OD值和阴
性对照的相当,无法使用。非目标抗原对间接ELISA的影响显著大于抗体夹心
ELISA。当拟环纹豹蛛浓度为 0.428mg/mlD,对*、ZF10、3D8和 4F8抗体夹心
ELISA检测OD值的影响均在20%以下,对间接ELISA检测OD值的影响则在75%
以上。在此非目标抗原浓度下,4种单克隆抗体的夹心ELISA检测的灵敏度均为
89.727ng/ml (/!04头弹尾虫/ml),IBS、3D8和 4F8间接 ELISA的检坝灵敏度均为
179.45ng/ml(l/52头/ml),ZF10间接ELISA的检狈灵敏度为89.727ng/ml(l/104头
/ml卜建立了ZF10稀释4000倍o4.193pg/ml),捕食者匀浆液定容至50ml/头,
H班上 稀释1500倍Q人63P咖l)的夹心ELISA检测系统用于检测捕食者对弹
尾虫的捕食作用。在此检测系统下,检测的灵敏度为每头拟环纹豹蛛含4.487pg弹
尾虫猎物蛋白K当于1a头弹尾虫L 非目标抗原对检测结果的影口向在20%以下。
5)应用单克隆抗体4B8研究了褐飞虱在拟环纹豹蛛体内的消化速率与温度、捕
食量和捕食者个体大小的关系。结果表明,在温度为16oC、22t、25C、28C、34
OC和 37’C及捕食量为 1头、2头。3头和 4头褐飞虱怀卵雌成虫的处理下,在 0~sd
的消化时间内,猎物在拟环纹豹蛛肠道中均呈指数降解,猎物的残留率O)与消化时
间()可用y飞xp…V)进行拟合,所有24组处理的相关系数均达显著水平。温度是影
响猎物降解速率的主要因子。当温度为16C时,4组捕食量处理的可测定时间分别
为6,279d、6.686d、9.593d和 15.sl4d。当温度高于30C时,猎物的可狈定时间均短
于id。在16℃~37oC的范围内,在捕食量为l、2、3、4头褐飞虱怀卵雌成虫的处
理下,猎物的可测定时间(tDP)与温度厂)间的关系用方程*广atCXP(化叮)拟合的相关
系数均达显著水平。捕食量对猎物可测定时间也有显著的影响,除了 16oC和 28oC的
处理外,其它温度处理的猎物可测定时间与捕食的猎物量呈线性相关。在 25 oC下,
当捕食量从1头增至4头时,猎物的可测定时间从1.890d延长至5.980d。在体重为
0.of-0J 头的范围内,捕食者个体大小对猎物消化速率的影,响不显著。根据试验结
果,修正了 Sopp(1992)估讨捕食量的方程为 R=Q0d/f(.1
Using the monoclonal antibodies developed respectively against rice
planthoppers, brown planthopper, Nilaparvcua lugens (St釯), white-backed
planthopper, Sogatella furc~fera (Horv醫h) and collembola, field predation of the
major natural enemies of rice planthoppers and collembola were evaluated. The
results were as follows:
1) Four monoclonal antibodies (McAbs), namely 3B2, 3B 11, 3H3 and 4B8, were
developed against N. lugens using hybridoma technique. All McAbs had high
absorption values even they were diluted over 4.096x 106 times. They reacted with all
the stages of N. lugens while not cross-reacted with other insect pests and predators in
the rice paddy. The 3H3 and 4B8 were the most specific. SDS-PAGE and Western
blot analysis indicated that 3B2, 3B 11 bound specifically to one polypeptide with
molecular weight of 287 kDa and 3113, 4B8 reacted with the polypeptides with
molecular weights of 215, 199 and 167 kDa. At the temperature of 25 ~慍, the 3B2,
3B 11, 3H3 and 4B8 could detect the epitopes after one female of N. lugens had been
ingested by Pardosa pseudoannulate for about 35.04h, 1l.45h, 8.81h and 45.91h,
respectively. Immunodiffusion showed that all McAbs belong to IgG3 subclass. Based
on the results as above, 4B8 was chosen to study the interactions between N. lugens
and their predators in the field.
2) Five McAbs, namely 1B5, 2F10, 2Gl2, 3D8 and 4F8, were developed against
the collembola using hybridoma technique. They had high absorption values even
they were diluted over 1.024 X 108 times. All of the McAbs only reacted with the
collembola while not cross-reacted with other insect pests and predators.
Immunodiffusion showed that the 1 B5, 2F 10, 3D8 and 4F8 belong to IgG3 subclass,
while the 2G12 belong to IgG?subclass.
3) Three variations of ELISA, direct, indirect and double antibody sandwich
methods of ELISA were examined for their abilities to detect N. lugens antigens in the
predator guts. The results showed that the direct and indirect ELISA were affected
more strongly by the not-target antigens than on the double antibody sandwich ELISA.
When the negative effects of the non-target were about 5%, the concentration of the
non-target antigens was 0.042mg/mi with the direct and indirect ELISA methods and
0.214mg/mi with the double antibody sandwich ELISA methods respectively. The
double antibody sandwich ELISA methods were the most sensitive when the
140
concentration of the non-target antigens was 0.214mg/mi. They could detect about
16.91 nglml (1/17509 individuals of the female/mi) of N. lugens antigens compared
with 67.59ng/ml (1/4378 female/mI) for the indirect ELISA method and 135.l8ng/ml
(1/2189 female/mi) for the direct method. The double antibody sandwich method of
ELISA was established with the 4138 diluted 1000 times (28. 1 30 jig/mI),
enzyme-linked antibody HRP-4B8 diluted 4000 times (1.045jig/ml) and sample
diluted 100 times (1 OOml/individual) for detection of N. lugens antigens. The negative
effect of the non-target antigens was lower than 5% and about 1.691 jig prey antigens
(1/175 female) in a predator gut could be detected under this detecting system.
4) Indirect methods and double antibody sandwich methods of ELISA with 1 B5,
2F10, 2012, 3D8 and 4F8 were examined for their abilities to detect the collemboia
antigens in predator guts. The results showed that the double antibody sandwich
ELISA with 2012 was too insensitive to be
Collembola复合种群的单克隆抗体,并应用褐飞虱、弹尾虫和白背飞虱Sogatella
furcifera的单克隆抗体结合田间调查资料评价了弹尾虫在稻田生态系统中的作用及
主要捕食性天敌对褐飞虱和白背飞虱的控制作用。结果如下:
1)应用杂交瘤技术,制备了4株褐飞虱的单克隆抗体细胞株,分别命名为3B2、
3B11、3H3和4B8。4种抗体的效价均在4.096×10~6倍以上。它们只与褐飞虱所有虫
态发生反应,不与稻田其它主要昆虫和蜘蛛发生交叉反应,其中以3H3和4B8的特
异性更高。SDS-聚丙烯酰胺凝胶电泳和Western blot印迹分析表明,3B2和3B11只
与褐飞虱287kDa的多肽结合,3H3和4B8与215、199和167kDa的三条多肽具有
亲和性。在25℃下,1头褐飞虱怀卵雌成虫与3B2、3B11、3H3和4B8结合的多肽
在拟环纹豹蛛肠道中的可测定时间分别为1.460d、0.477d、0.367d和1.913d,分别相
当于35.04h、11.45h、8.81h和45.91h。4种单克隆抗体均为IgG_3亚类。根据上述结
果,初步确定4B8用于捕食作用研究。
2)应用杂交瘤技术,制备了5株多种弹尾虫复合体的单克隆抗体细胞株,分别
命名为1B5、2F10、2G12、3D8和4F8。5种单克隆抗体的效价均达到1.024×10~8倍
以上。它们只与弹尾虫发生反应,不与稻田中被检测的其他昆虫种类和蜘蛛发生交叉
反应。应用免疫双扩散法鉴定抗体类型及亚类的结果表明,1B5、2F10、3D8和4F8
为IgG_3亚类,2G12为IgG_1亚类。
3)应用褐飞虱单克隆抗体3B2和4B8比较了直接、间接和多种抗体夹心ELISA
方法。结果表明:捕食者浓度对直接和间接ELISA检测结果的影响大于抗体夹心法。
当拟环纹豹蛛浓度为0.042mg/ml(鲜重)时,直接和间接ELISA检测的OD值比不
加拟环纹豹蛛的阳性对照仍降低5%以上。而当捕食者浓度为0.214mg/ml时,对同
种单抗、异种单抗和两种单抗混合夹心ELISA检测OD值的影响均在5%以下。当
捕食者浓度为0.214mg/ml时,抗体夹心ELISA的检测灵敏度高于直接和间接
ELISA。同种单抗、异种单抗和两种单抗混合夹心ELISA检测灵敏度均为16.91ng/ml
(1/17509头褐飞虱怀卵雌成虫/ml),直接和间接ELISA分别为67.59ng/ml(1/4378
头/ml)和135.2ng/ml(1/2189头/ml)。建立了4B8稀释1000倍(28.130μg/ml),捕食
者匀浆液定容至100ml/头,HRP-4B8稀释4000倍(1.045μg/ml)的夹心ELISA用
于检测捕食者对褐飞虱的捕食作用。在此检测系统下,检测的灵敏度为每头拟环纹
豹蛛含1石glpg褐飞虱猎物蛋白讨当于1/175头褐飞虱怀卵雌成虫人非目标抗原
对检测结果的影响小于5%。
4)应用弹尾虫单克隆抗体 IBS、ZF10、2G12、3D8和 4F8比较了间接 ELISA
和抗体夹心ELlsA方法。结果表明:2o12抗体夹心ELISA检测抗原的OD值和阴
性对照的相当,无法使用。非目标抗原对间接ELISA的影响显著大于抗体夹心
ELISA。当拟环纹豹蛛浓度为 0.428mg/mlD,对*、ZF10、3D8和 4F8抗体夹心
ELISA检测OD值的影响均在20%以下,对间接ELISA检测OD值的影响则在75%
以上。在此非目标抗原浓度下,4种单克隆抗体的夹心ELISA检测的灵敏度均为
89.727ng/ml (/!04头弹尾虫/ml),IBS、3D8和 4F8间接 ELISA的检坝灵敏度均为
179.45ng/ml(l/52头/ml),ZF10间接ELISA的检狈灵敏度为89.727ng/ml(l/104头
/ml卜建立了ZF10稀释4000倍o4.193pg/ml),捕食者匀浆液定容至50ml/头,
H班上 稀释1500倍Q人63P咖l)的夹心ELISA检测系统用于检测捕食者对弹
尾虫的捕食作用。在此检测系统下,检测的灵敏度为每头拟环纹豹蛛含4.487pg弹
尾虫猎物蛋白K当于1a头弹尾虫L 非目标抗原对检测结果的影口向在20%以下。
5)应用单克隆抗体4B8研究了褐飞虱在拟环纹豹蛛体内的消化速率与温度、捕
食量和捕食者个体大小的关系。结果表明,在温度为16oC、22t、25C、28C、34
OC和 37’C及捕食量为 1头、2头。3头和 4头褐飞虱怀卵雌成虫的处理下,在 0~sd
的消化时间内,猎物在拟环纹豹蛛肠道中均呈指数降解,猎物的残留率O)与消化时
间()可用y飞xp…V)进行拟合,所有24组处理的相关系数均达显著水平。温度是影
响猎物降解速率的主要因子。当温度为16C时,4组捕食量处理的可测定时间分别
为6,279d、6.686d、9.593d和 15.sl4d。当温度高于30C时,猎物的可狈定时间均短
于id。在16℃~37oC的范围内,在捕食量为l、2、3、4头褐飞虱怀卵雌成虫的处
理下,猎物的可测定时间(tDP)与温度厂)间的关系用方程*广atCXP(化叮)拟合的相关
系数均达显著水平。捕食量对猎物可测定时间也有显著的影响,除了 16oC和 28oC的
处理外,其它温度处理的猎物可测定时间与捕食的猎物量呈线性相关。在 25 oC下,
当捕食量从1头增至4头时,猎物的可测定时间从1.890d延长至5.980d。在体重为
0.of-0J 头的范围内,捕食者个体大小对猎物消化速率的影,响不显著。根据试验结
果,修正了 Sopp(1992)估讨捕食量的方程为 R=Q0d/f(.1
Using the monoclonal antibodies developed respectively against rice
planthoppers, brown planthopper, Nilaparvcua lugens (St釯), white-backed
planthopper, Sogatella furc~fera (Horv醫h) and collembola, field predation of the
major natural enemies of rice planthoppers and collembola were evaluated. The
results were as follows:
1) Four monoclonal antibodies (McAbs), namely 3B2, 3B 11, 3H3 and 4B8, were
developed against N. lugens using hybridoma technique. All McAbs had high
absorption values even they were diluted over 4.096x 106 times. They reacted with all
the stages of N. lugens while not cross-reacted with other insect pests and predators in
the rice paddy. The 3H3 and 4B8 were the most specific. SDS-PAGE and Western
blot analysis indicated that 3B2, 3B 11 bound specifically to one polypeptide with
molecular weight of 287 kDa and 3113, 4B8 reacted with the polypeptides with
molecular weights of 215, 199 and 167 kDa. At the temperature of 25 ~慍, the 3B2,
3B 11, 3H3 and 4B8 could detect the epitopes after one female of N. lugens had been
ingested by Pardosa pseudoannulate for about 35.04h, 1l.45h, 8.81h and 45.91h,
respectively. Immunodiffusion showed that all McAbs belong to IgG3 subclass. Based
on the results as above, 4B8 was chosen to study the interactions between N. lugens
and their predators in the field.
2) Five McAbs, namely 1B5, 2F10, 2Gl2, 3D8 and 4F8, were developed against
the collembola using hybridoma technique. They had high absorption values even
they were diluted over 1.024 X 108 times. All of the McAbs only reacted with the
collembola while not cross-reacted with other insect pests and predators.
Immunodiffusion showed that the 1 B5, 2F 10, 3D8 and 4F8 belong to IgG3 subclass,
while the 2G12 belong to IgG?subclass.
3) Three variations of ELISA, direct, indirect and double antibody sandwich
methods of ELISA were examined for their abilities to detect N. lugens antigens in the
predator guts. The results showed that the direct and indirect ELISA were affected
more strongly by the not-target antigens than on the double antibody sandwich ELISA.
When the negative effects of the non-target were about 5%, the concentration of the
non-target antigens was 0.042mg/mi with the direct and indirect ELISA methods and
0.214mg/mi with the double antibody sandwich ELISA methods respectively. The
double antibody sandwich ELISA methods were the most sensitive when the
140
concentration of the non-target antigens was 0.214mg/mi. They could detect about
16.91 nglml (1/17509 individuals of the female/mi) of N. lugens antigens compared
with 67.59ng/ml (1/4378 female/mI) for the indirect ELISA method and 135.l8ng/ml
(1/2189 female/mi) for the direct method. The double antibody sandwich method of
ELISA was established with the 4138 diluted 1000 times (28. 1 30 jig/mI),
enzyme-linked antibody HRP-4B8 diluted 4000 times (1.045jig/ml) and sample
diluted 100 times (1 OOml/individual) for detection of N. lugens antigens. The negative
effect of the non-target antigens was lower than 5% and about 1.691 jig prey antigens
(1/175 female) in a predator gut could be detected under this detecting system.
4) Indirect methods and double antibody sandwich methods of ELISA with 1 B5,
2F10, 2012, 3D8 and 4F8 were examined for their abilities to detect the collemboia
antigens in predator guts. The results showed that the double antibody sandwich
ELISA with 2012 was too insensitive to be
引文
1.丁宗泽,吴中林,綦立正等.1987.褐飞虱种群动态的研究:Ⅱ.影响田间种群数量动态的一些生物学参数.南京农业大学学报,4:42~46
2.万方浩,陈常铭.1986.综防区和化防区稻田害虫一天敌群落组成及多样性研究.生态学报,6(2):159~169
3.孔宪涛.1997.免疫球蛋白异常的基础和临床.上海:上海科学技术文献出版社
4.戈峰,李典谟.1997.可持续农业中的害虫管理问题,昆虫知识,34(1):39~49
5.王学,王海涛,陈万荣等.1997.人抗体组合文库的构建和抗HBsAg噬菌体抗体的筛选.生物化学与生物物理学报,29(2):183~191
6.王淡.1999.基因工程抗体研究进展,中国免疫学杂志,15(5):193~195
7.叶恭银,胡萃.1989.单克隆抗体在昆虫学中的应用.生物科学动态,3:13~18
8.石根生,张孝羲.1991.单季稻区蜘蛛群落的研究——多样性、优势度、排序和聚类.中国水稻科学.5(3):114~120
9.刘红玉,陈常铭,江汉华.1997.测定节肢动物捕食者与猎物关系A蛋白双抗体夹心酶联免疫吸附技术.昆虫学报,40(2):219~224
10.刘秀梵.1994.单克隆抗体在农业上的应用.合肥:安徽科技出版社.1~47
11.汤金义,胡伯海,王建强等.1996.我国水稻迁飞性害虫猖獗成因及治理对策建议.生态学报,16(2):167~173
12.汤鉴球,张文庆.1992.用血清学方法评价稻田狼蛛对稻纵卷叶螟的控制作用.植物保护学报,19(1):1~6
13.汤鉴球,周汉辉.1983.用血清学方法研究稻田蜘蛛的捕食效应.昆虫天敌,5(4):207~214
14.何俊华,陈学新,马云等.1991.中国水稻害虫天敌名录.北京:科学出版社.4~20
15.吴六俫,王洪全,尹长民等.1988.稻田狼蛛种群数量变动的研究.动物学报,34(1):58~63
16.吴进才,陆自强,杨金生等.1993.稻田主要捕食性天敌的栖境生态位与捕食作用分析.昆虫学报,36(3):323~331
17.吴进才,陆自强,1993.稻田节肢动物群落营养物种的初步研究.农业科学集刊,1:234~238
18.吴进才,胡国文,唐健等.1994.稻田中性昆虫对群落食物网的调控作用.生态学报,14(4):381~386
19.张文庆,古德祥,汤鉴球.1991.自然条件下拟环纹豹蛛对三化螟成虫捕食作用的评价.昆虫天敌,13(1):5~10
20.张文庆,古德祥,周汉辉等.1992.天敌作用定量评价的一种方法.青年生态学者论丛(二).北京:中国科技出版社.207~212
21.张古忍,张文庆,古德祥.1996a.用ELISA检测稻飞虱的捕食性天敌.中山大学学报(自然科学版),35(5):171~176
22.张古忍,古德祥,张文庆.1996b.酶联免疫吸附试验在捕食作用研究中的方法与应用.中国生物防治,12(1):33~38
23.张古忍,张文庆,古德祥.1997.用ELISA研究稻田节肢类捕食者对稻飞虱的捕食作用.昆虫学报,40(2):171~176
24.张光裕,Kaupp W J.1988.用单克降抗体结合酶联免疫吸附试验检测云杉卷叶蛾幼虫体内的核多角体病毒.病毒学报,4(1):61~64
25.张励力,韩洪彦,段佩若等.APAAP免疫印迹技术对抗副流感病毒1,3型单克隆抗体识别抗原表位的研究.中国免疫学杂志,1994,10(6):353~355
26.李彪,朱承谟,吴祥甫.1998.抗癌胚抗原单链抗体基因的构建及高效表达.生物化学与生物物理学报,30(4):369~373
27.李代芹,陈建,赵敬钊.1989.确定棉蚜捕食性蜘蛛种类的血清学方法的可行性研究.生态学杂志,8(6):58~62
28.李汝铎,丁锦华,胡国文,苏德明主编.1996.褐飞虱及其种群管理.上海:复旦大学出版社
29.李隆术,王开洪.1981.稻田昆虫群落及主要种群动态的研究.西南农学院学报,81(2):1~16
30.李德葆,周雪平,许建平等.1996.基因工程操作技术,上海:上海科学技术出版社.146~151
31.李毅,陈章良.1995.植物病毒胞间运动的分子生物学和细胞学研究进展,植物生理学通讯,31(6):463~469
32.杜正文.1991.中国水稻病虫害综合防治策略与技术.北京:农业出版社.29~168
33.杜念兴.1995.兽医免疫学.北京:中国农业出版社.32~58
34.杨冠形,吴祥甫.1996.嵌合抗体轻链基因在家蚕细胞中重组与表达.生物化学与生物物理学报,28(6):653~657
35.汪谦.1997.现代医学实验方法.北京:人民卫生出版社,730~738
36.邹运鼎,陈高潮,孟庆雷等.1999.饥饿对七星瓢虫捕食作用的影响.生态学报,19(1):113~117
37.陆自强,胡广淦,陈丽芳等.1995.用单克隆抗体结合酶联免疫吸附试验检测棉铃虫幼虫体内的核多角体病毒.中国生物防治,11(1):36~39
38.陈建国,胡萃,马可.1988.应用菜粉蝶颗粒体病毒单克隆抗体对不同株病毒进行抗原分析.病毒学报,4(2):137~141
39.陈建国,胡萃.1992.抗家蚕浓核症病毒单克隆抗体实用化研究.浙江农业大学学报,18(1):7~10
40.陈建明,程家安,何俊华.1992.黑肩绿盲蝽的国内外研究概况.昆虫知识,29(6):370~372
41.陈常铭,宋慧英.1988.水稻害虫综合治理中的生物防治.农牧渔业部全国植物保护总站主编,中国水稻病虫害综合防治进展,杭州:浙江科学技术出版社.100~116
42.周汉辉.1986.用血清学方法评价稻田昆虫天敌对飞虱的捕食作用.生物防治通报,2(4):155~157
43.周汉辉.1989.血清法探讨天敌对三种稻田昆虫的抑制作用.植物保护学报,16(1):7~11
44.周汉辉.1992.天敌对三化螟的捕食功能的血清学评价.植物昆虫学报,19(3):193~197
45.周集中,陈常铭.1986a.黑肩绿盲蝽对褐飞虱的捕食作用及其模拟模型研究.湖南农业科学,(6):22~25
46.周集中,陈常铭.1986b.拟环纹豹蛛对褐飞虱的捕食作用及其模拟模型的研究Ⅰ:功能反应.生物防治通报,2(1):2~9
47.庞保平,程家安,毛雪琴.2000.猎物可测定时间与捕食量和温度的关系.植物保护学报,27(1):7~11
48.庞保平,程家安,陈正贤.1999.酶联免疫吸附试验方法的比较.中国生物防治,15(1):31~34
49.庞保平,程家安,陈正贤等.2001.白背飞虱单克隆抗体的制备及其特性的研究.昆虫学报,44(1):21~26
50.庞保平,程家安.2000.单克隆抗体及其在节肢动物捕食作用研究中的应用.生态学杂志,19(3):32~35
51.庞保平.1998.白背飞虱单克隆抗体的制备及其在捕食作用研究中的应用.浙江农业大学博士论文
52.庞雄飞,侯任环,梁广文等.1981.稻纵卷叶螟防治策略探讨(一)稻纵卷叶螟生命表及其主要死亡因子分析.华南农学院学报,2(4):71~84
53.庞雄飞,梁广文,曾玲.1984.昆虫天敌作用的评价.生态学报,4(1):46~56
54.庞雄飞,梁广文.1982.稻纵卷叶螟防治策略的探讨(二)儿种重要生态因子与种群数量的关系及海陵第二代种群动态模拟.华南农学院学报,3(2):13~27
55.胡广淦,陆自强,杭三保等.1993.单克隆技术在昆虫病毒研究中的应用,生物防治通报,9(2):76~79
56.胡国文,郭玉杰,李绍石等.1996.减少稻田用药的理论依据和实践.昆虫知识,33(1):3~7
57.赵士熙,吴中孚,杨章华.1991.水稻3种飞虱生态位研究.福建农学院学报,20(4):385~390
58.赵伟春,陈正贤.单克隆抗体在昆虫学研究中的应用.程家安和唐振华主编,昆虫分子科学.北京:科学出版社.印刷中
59.赵伟春,程家安.2000.单克隆抗体在害虫综合治理中的应用.科技通报,16(增):26~32
60.郝树广,张孝羲,程遐年等.1998.稻田节肢动物群落营养及优势功能集团的组成与多样性动态.昆虫学报,41(4):343~352
61.徐宜为.1991.免疫检测技术(第二版).北京:科学出版社.174~176
62.郭玉杰,王念英,蒋金炜等.1995.中性昆虫在稻田节肢动物群落中作为捕食者营养桥梁作用的研究,中国生物防治,11(1):5~9
63.高春先,顾秀慧,贝亚维等.1988.褐稻虱再猖獗原因的探讨.生态学报,8:156~163
64.黄葵,郭予元,谢云陆.1992,应用酶联免疫及附试验(ELISA)鉴定粘虫的捕食性天敌.植物保护学报,19(3):207-212
65.彭成旺,宗良炳.1989.用反向间接血凝实验坚定棉蚜的捕食性天敌.植物保护学报,16(2):93~97
66.程家安,祝增荣,李红叶等.1998.浙江省农作物有害生物治理——新世纪的挑战与对策.程家安和周伟军主编.跨世纪农业发展研究.北京:中国环境科学出版社.56~63
67.程家安,祝增荣,娄永根.1995.连作晚稻前期施药种类利时间对褐飞虱种群动态的影响,中国水稻科学,9(2):108~114
68.程家安.1996.水稻害虫.北京:中国农业出版社.
69.蒋明星,祝增荣,程家安.2000.浙西北山区单季稻田节肢动物群落的多样性.浙江大学学报(农业与生命科学版),26(3):283~286
70.蔡文启,王荣,覃秉益等.1989.电融合产生黄瓜花叶病毒的单克隆抗体.微生物学报,29:444~451
71.Agusti, N., Aramburu, J., Gabarra, R. 1999. Immunological detection of Helicoverpa armigera (Lepidoptera: Noctuidae) Ingested by Heteropteran predators: Time-related decay and Effect of meal size on detection period. Ann. Entomol. Soc. Am., 92(1): 56~62
72.Alexander, E. K., Marvin, H. G., Douglas, J. S. et al. 1994. Synthesis of haptens and derivation of monoclonal antibodies for immunoassay of the phenylurea herbicide diuron. J. Agric. Food Chem., 42:301~309
73.Allen, W. R., Hagley, E. A. C. 1982. Evaluation of immunoelectroosmophoresis on cellulose polyacetate for assessing predation of Lepidoptera(Tortricidae) by coleoptera (Carabidae) species.Can. Entomol., 114:1047~1054
74.Anne, L. Q., Nodet, P., Haelters, J. et al. 1998. Hapten synthesis for a monoclonal antibody based ELISA for Deltamethrim. J. Agric. Food Chem., 46:1670~1676
75.Antonio, A., Juan, J. M., Fastemeh, M. et al. 1997. Hapten Synthesis and production of monoclonal antibodies to DDT and related compounds. J. Agric. Food Chem., 45:3694~3702
76.Antonio, A., Maria, J. M., Jean, P. H. et al. 1999. Development of monoclonal antibody-based immunoassays to the N-methylcarbamate pesticide carbofuran. J. Agric. Food Chem., 47:2475~2485
77.Bacher, S,, Schenk, D., Imboden, H. 1999. A monoclonal antibody to the shield beetle Cassida rubiginosa (Coleoptera, Chrysomelidae): A tool for predator gut analysis. Biol. Control., 16:299~309
78.Baldwin, W. F., James, H. G., Welch, H. E. 1955. A Study of predators of mosquito larvae and pupae with a radio-active tracer. Can. Entomol., 87:350~356
79.Banks, J. N., Collins, D. W., Rizvi, R. H. et al. 1996. Immunochemical studies for the development of a rapid assay against Thrips palmi. Brighton Crop Protection Conference: Pests and Diseases-1996: Volume 3: Proc. Int. Conference, Brighton, UK, 18-21 November. 1053~1058
80. Barbas, C. F. III., Kang, A. S., Lerner, R. A. et al. 1991. Assembly of combinatorial antibody libraries on phage surface. Proc. Nati. Acad. Sci. USA., 88: 7978-7982
81. Barbas, C. F., Clackson, D. G. 1991. Assembly of combinatorial antibody libraries on phage surface: the gene III site. Proc. National Acad. Sci. USA. 88: 7978-7982
82. Barlow, C. A., Whitingham, J. A. 1986. Feeding economy of larvae of a flower fly Metasyrphus corollae (Dipt: Syrphidae): partial consumption of prey. Entomophaga, 31: 49-57
83. Bocher, M., Giersch, T., Dschmid, R. et al. 1992. Dextran, a hapten carrier in immunoassays for S-Triazines A comparison with ELISAs based on hapten-protein conjugates. J Immunol. Methods, 151: 1-8
84. Bona, M., Scheer, U., Bautz, E. K. F. 1981. Antibodies to RNA polymerase II(B)mhibit transcription in lampbrush chromosomes after microinjection into living amphibian oocytes. J. Mol. Biol., 151(1) : 81-100
85. Boreham, P. F. L., Ohiagu, C. E. 1978. The use of serology in evaluating invertebrate predator-prey relationships: a review. Bull. Entomol. Res., 68: 171-194
86. Brandon, D. L., Bonald, G. B., Anne, H. B. et al. 1992. Monoclonal antibody-Based ELISA for Thiabendazole in Liver. J. Agric. Food Chern., 40: 1722-1726
87. Brooke, M. M., Proske, H. O. 1946. Precipitin test for determining the natural predators of immature mosquitoes. J. Nati. Mal. Soc., 5:45-56
88. Cameron, E. A., Reeves, R. M. 1990. Carabidae (Coleoptera) associated with Gypsy Moth (Lymantria dispar (L.) (Lepidoptera: Lymantriidae)) populations subjected to Bacillus thuringiensis Berliner treatments in Pennsylvania. Can. Entomol., 122: 123-129
89. Campbell, C. A. M. 1978. Regulation of the Damsonhop appid ( Phorodon humali (Schrank)) on hops (Humulus lupulus L.) by predators. J. Hortic. Sci., 53: 235-242
90. Chambers, R. J., Adams, T. H. L. 1986. Quantification of the impact of hoverflies (Diptera: Syrphidae) on cereal aphids in winter wheat: an analysis of field populations. J. Appl. Ecol., 23:-904
91. Cheng, J., Holt, J. 1990. A systems analysis approach to brown planthopper control on rice in Zhejiang Province, China. I. Simulation of outbreaks. J. Appl. Ecol., 27: 85-99
92. Chiu, S. C. 1979. Biological control of the brown planthopper. Brown plnthopper-threat to rice production in Asis IRRI Philippines.
93. Chiverton, P. A. 1984. Pitfall-trap catches of the carabid beetle Pterostichus melanarius, in relation to gut contents and prey densities, in insecticide treated and untreated spring barley. Entomol. Exp. Appl., 36: 23-30
94. Cisneros, J. J., Rosenheim, J. A. 1997. Ontogenetic change of prey preferentce in the generalist preator Zelus renardii and its influence on predator-predator interactions. Ecol. Entomol., 22: 399-407
95. Clark, M. F., Adams, A. N., Thresh, J. M. et al. 1976. The detection of plum pox and other viruses in woody plants by enzyme-linked immunosorbent assay (ELISA). Acta Horticulturae, 67: 51-57
96. Clement, S. L., Grigarick, A., Way, M. O. 1977. Conditions associated with rice plant injury by chironomid midges in California. Environ. Enotmol., 6: 91-95
97. Coffman, W. P. 1978. Chironomidae. In Merritt R W, Cummins K W (eds.), An introduction to the aquatic insects of North America. Kendall/Hunt,Dubuque, Iowa, USA. 4411
98. Cohen, A. C. 1990. Feeding adaptations of some predaceous Hemiptera. Ann. Entomol. Soc. Am., 83: 1215-1223
99. Cook, A. G., Perfect, T. J. 1989. The population characteristics of the brown planthopper, Nilaparvata lungens in the Philippines. Ecol. Entomol., 14: 1-9
100. Cooke, L. 1991. Learning what pest-eaters had for lunch. Agric. Res. Wash., 39(8) : 9
101. Coulson, R. M. R. et al. 1990. Amplofication and analysis of human Dna present in mdsq2uito bloodmeals. Med. Vet. Entomol., 4: 357-366
102. Crook, N. E., Payne, C. C. 1980. Comparison of three methods of ELISA for baculoviruses. J. Gen. Virol., 46: 29-37
103. Crook, N. E., Sunderland, K. D. 1984. Detection of aphid remains in oredatory insects and spielers by ELISA. Ann. Appl. Biol., 105: 413-422
104. Davis, R. W. 1969. The production of antisera for detecting specific triclad antigens in the gut contents of predators. Oikos, 20: 248-260
105. Dempster, J. P. 1960. A quantitative study of the predators on the eggs and larvae of the broom beetle, Phytodecta olivace Forster, using the precipitin test. J. Anim. Ecol., 29: 149-167
106. Dempster, J. P. 1967. The control of Pieris rapae with DDT. I. The natural mortality of the young stages of Pieris. J. Appl. Ecol., 4: 485-500
107. Dennison, D. R, Hodkinson, I. D. 1983. Structure of the predatory beetle community in a woodland soil ecosystem. I. Prey selection. Pedobiologia, 25: 109-115
108. Denno, R. F., Perfect, T. J. (eds.).1994. Planthoppers: Their Ecology and Management. Chapman and Hall, New York/London.
109. Dhadialla, T. S., Raikhel, A. S. 1990. Biosynthesis of mosquito vitellogenin. J. Biol. Chem., 265(17) : 9924-9933
110. Doane, J. F., Scotti, P. D., Sutherland, O. R. et al. 1985. Serological identification of wiceworm and staphylinid predators of the Australian soldier fly and wireworm feeding on plant and animal food. Entomol. Exp. Appl., 38: 65-72
111. Drechsler, M., Settele, J. 2001. Predator-prey interactions in rice ecosystems: effects of guild composition, torphic relationships, and land use changes--a model study exemplified for Philippine rice terraces. Ecol. Mod., 137: 135-159
112. Edgar, W. D. 1970. Prey and feeding behaviour of adult females of the Wolf spider Pardosa amentata (Clerck). Netherlands J. Zool., 20: 487-491
113. Ehler, L. E., Long, R. F., Kinsey, M. G. et al 1997. Potential for augmentative biological control of black bean aphid in California sugarbeet. Entomophaga, 42 (1/2) : 241-256
114. Eline, P. M., Wim, H. M., Peter, G. S. et al. 1995. Immunoassays for Pesticides. Environ. Sci.
technol.,29(3) : 553-561
115. Ernsting, G., Joosse, E. N. G. 1974. Predation on two species of surface-dwelling Collembola. A study with radio-isotope labeled prey. Pedobiologia, 14: 222-231
116. Fichter, B. L., Stephen, W. P. 1979. Selection and use of host-specific antigens. Entomol. Soc. Am. Miscellaneous Publication, 11: 25-33
117. Fichter, B. L., Stephen, W. P. 1981. Time-related decay in prey antigens ingested by the predator Podisus maculiventris (Hemiptera; Pentatomidae) as detected by ELISA. Oecologia, 51: 404-407
118. Fitcher, B. L., Stephen, W. P. 1984. Time related decay of prey antigens ingested by arboreal spiders as detected by ELISA. Environ. Entomol., 13: 1583-1587
119. Foelix, R. F. 1982. Biology of spiders. Harvard University Press.
120. Ford, J. B., Giboney, F. M. 1980. Video recording techniques for studying predatory mite behaviour. Bulletin SROP/WPRS III/6. 35
121. Forsythe, T. G. 1982. Feeding mechanisms of certain ground beetles (Coleoptera: Carabidea). The Coleopterists Bulletin, 36: 26-73
122. Fox, C. J., MacLellan, C. R. 1956. Some Carabidae and Staphylinidae shown to feed on a wireworm, Agriotes sputator (L.), by the preciptin test. Can. Entomol., 88: 228-231
123. Frazer, B. D. et al. 1981. Predator reproduction and the overall pedator-prey relationship. Can. Entomol., 113:1015-1024
124. Gallagher, K. D., Kenmore, P. E., Sogawa, K. 1994. Judicial use of insecticides deter planthopper outbreaks and extend the life of resistant varieties in southeast Asian rice. In Denno R F, Perfects T J (eds.), Planthoppers, their ecology and management. Chapman and Hall, New York. USA.
125. Gardner, W. A., Shepard, M., Noblet, R. 1981. Precipitin test for examining predator-prey interactions in soybean fields. Can. Entomol., 113: 365-369
126. Giller, P. S. 1982. The natural diets of waterbugs (Hemiptera-Heteroptera): electrophoresis as a potential method of analysis. Ecol. Entomol., 7: 233-237
127. Giller, P. S. 1984. Predator gut state and prey detectability using electrophoretic analysis of gut contents. Ecol. Entomol., 9: 157-162
128. Giller, P. S. 1986. The natural diet of the Noctonectidae: field trials using eletropthoresis. Ecol. Entomol., 11: 163-172
129. Greenston, M. H. 1977. A passive haemagglutination inhibition assay for the identification of stomach contents of invertebrate predators. J. Appl. Ecol., 14: 457-464
130. Greenstone, M, H., Hunt. J. H. 1993. Determination of prey antigen half-life in Polistes metricus using a monoclonal antibody-based immundot assay. Entomol. Exp. Appl., 68: 1-7
131. Greenstone, M. H. 1979a. Passive haemagglutination inhibition: a powerful new tool for field studier of entomophagous predators. Entomol. Soc. Am. Miscellaneous Publication, 11: 69-78
132. Greenstone, M. H. 1979b. Spider feeding behaviour optimises dietary essential amino acid composition. Nature, 181: 501-503
133. Greenstone, M. H. 1983a. Anenzyme-linked immunosorbent assay for the Amblyospora sp. of
Cluex salinarius (Microsopora: Amblyosporidae). J. Invertebr. Pathol., 41: 250-255
134. Greenstone, M. H. 1983b. Site-specificity and site tenacity in a wolf spider: a serological dietary analysis. Oecologia, 56: 79-83
135. Greenstone, M. H. 1989. Foreign exploration for predators: a proposed new methodology. Environ. Entomol., 18(2) : 195-200
136. Greenstone, M. H. 1995. Bollworn or budworm? Squash blot immunoassay distinguishes eggs of Helicoverpa zea and Heliothis virescens (Lepidoptera: Noctuidae). J. Econ. Entomol., 88: 213-218
137. Greenstone, M. H. 1996. Serological analysis of arthropod predation: past, resent and future. In: Symondson, W. O. C., Liddell, J. E. (eds.), The Ecological of Agricultural Pests. London: Chapman and Hall. 265-300
138. Greenstone, M. H., Morgan, C. E. 1989. Predation on Heliothis zea (Lipidoptera: Noctuidae): intra-specific ELLSA assay for stomach analysis. Ann. Entomol. Soc. Am., 82: 45-49
139. Greenstone, M. H., Trowell, S. C. 1994. Arthropod predation: a simplified immunodot format for predator gut analysis. Ann. Entomol. Soc. Am., 87(2) : 214-217
140. Griffiths, E., Wratten, S. D., Vickerman, G. P. 1985. Foraging by the carabid Agonum dorsale in the field. Ecol. Entomol., 10: 181-189
141. Hagler, J. R. 1998. Variation in the efficacy of several predator gut content immunoassays. Biol. Control., 12: 25-32
142. Hagler, J. R., Brower, A. C., Tu, Z. et al. 1993. Development of a monoclonal antibody to detect predation of the sweetpotato whitefly, Bemisia tabaci. Entomol. Exp. Appl., 68(3) : 231-236
143. Hagler, J. R., Buchmann, S. L., Hagler, D. A. 1995. A simple method to quantify dot blots for predator gut content analyses. J. Entomol. Sci., 30(1) : 95-98
144. Hagler, J. R., Cohen, A. C. 1990, Effects of time and temperature on digestion of purified antigen by Geocoris punctipes (HemipteraL Lygaeidae) reared on artificial diet. Ann. Entomol. Soc. Am., 83: 1177-1180
145. Hagler, J. R., Cohen, A. C. 1991. Prey selection by in vitro-reared and field reared Geocoris punctipes. Entomol. Exp. Appl., 59: 201-205
146. Hagler, J. R., Cohen, A. C., Bradley-Dunlop, D. et al. 1992. Field evaluation of predation on Lygus hesperus (Hemiptera: Miridae) using a species-and stage-specific monoclonal antibody. Environ. Entomol., 21: 896-900
147. Hagler, J. R., Cohen, A. C., Enriquez, F. J. et al, 1991. An egg-specific monoclonal antibody to Lygus hesperus. Biol. Control, 1(1) : 75-80
148. Hagler, J. R., Narajo, S. E. 1997. Measuring the sensitivity of an indirect predator gut content ELISA: detectability of prey remains in relation to predator species, temperature, time, and meal size. Biol. Control, 9: 1-8
149. Hagler, J. R., Narando, S. E., Bradley-Dunlop, D. et al. 1994. A monoclonal antibody to pink bollworm (Lepidoptera: Gelechiidae) egg antigen: a tool for predator gut analysis. Ann. Entomol. Soc. Am., 87(1) :85-90
150. Hagler, J. R., Naranjo, S. E. 1994a. A qualitatitive survey of two coleopteran predators of Bemisia tobaci and Pectinophora gossypiella using a multiple prey gut content ELISA. Environ. Entomol., 23: 193-197
151. Hagler, J. R., Naranjo, S. E. 1994b. Determining the frequency of heteropteran predation on sweetpotato whitefly and pink bollworm using multiple ELISA. Entomol. Exp. Appl., 72: 59-66
152. Hagler, J. R., Naranjo, S. E., Erichson, M. L. et al. 1997. Immunological examinations of species viriability in predator gut content assays: effects of predator: prey protein ratio on immunoassays sensitivity. Biol. Control., 9: 120-128
153. Hamann, H. J., Iwannek, K. H. 1981. The use of the indicator activation method for the labeling of tsetse flies. Zeitschrift fur angewandte Entomologie, 91: 206-212
154. Hand, L. R, Keaster, A. J. 1967. The environment of an insect field cage. J. Econ. Entomol. 60: 910-915
155. Harrison, B. D., Liu, Y. L., Khalid, S. et al. 1997. Protection and relationships of cotton leaf curl virus and allied whitefly-transmitted geminiviruses occurring in Pakistan. Ann. Appl. Biol., 130(1) : 61-75
156. Hassell, M. P., Varley, G. C. 1969. New inductive population model for insect parasites and its bearing on biological control. Nature, 223: 1133-1136
157. Hawkes, R. B. 1972. A fluorescent dye technique for marking insect eggs in predation studies. J. Econ. Entonmol., 65: 1477-1478
158. Haynes, D. L., Sisojevic P. 1966. Predatory behaviour of Philodromus rufus Walckenaer (Araneae: Thomisidae). Can. Entomol., 98: 113-133
159. Hegedus, D. D., Khachatourians, G. G. 1993. Construction of cloned DNA probes for the specific detection of the entomopathogenic fungus Beauveria bassiana in grasshoppers. J. Invertbr. Pathol., 62: 233-240
160. Heinrichs, E. A. 1994. Impact of insecticides on the resistance and resurgence of rice planthopper. In Denno R F, Perfect T J (eds.), Planthopper: Their Ecology and Management. Chapman and Hall, London. 571-598
161. Hengeveld, R. 1980. Qualitative and quantitative aspects of the food of ground beetles. A review. Neth. J. Zool., 30: 555-563
162. Henneberry, T. J., Clayton, T. E. 1985. Consumption of pink bollworm and tobacco budworm eggs by some predators commonly found in cotton fields. Envirn. Entomol., 14: 416-419
163. Heong, K. L. 1991. Management of the brown planthopper in the tropics. Proceedings of the International Seminar on Migration and Dispersal of Agricultural Insects. Tsukuba, Japan, 25-28 September 1991. National Institute of Agro-environmental Sciences, Ibaraki, Japan.
164. Hiatt, A., Cafferkey, R., Bowdish, K. 1989. Production of antibodies in transgenic plants. Nature, 342:76-78
165. Hill, S. M., Crampton, J. M. 1994. DNA-based methods for the identification of insect vectors. Ann. Trop. Med. Parasit., 88: 227-250
166. Hilsenhoff, W. L. 1991. Diversity and classification of insects and Colembola. In Thorp, J. H., Covichs, A. P. (eds.). Ecology and classification of North American freshwater invertebrates. Academic Press, San Diego, California, USA.
167. Hironori, Y., Katsuhiro, S. 1997. Cannibalism and interspecific predation in two predatory ladybirds relation to prey abundance in the field. Entomophaga, 153-163
168. Hohman, A. W., Faulkner, P. 1983. Monoclonal antibodies to baculovirus structural proteins: determination of specificities by western blot analysis. Virology, 125: 432-444
169. Holling, C. C. 1959. The component of predaton as revealed by a study of small mammal predation of European pine sawfly. Can. Entomol., 91: 293-320
170. Holt, J., Cook, A. G., Perfect, T. J. et al. 1987. Simulation analysis of brown planthopper dynamics on rice in the Philipppines. J. Appl. Ecol., 24: 87-102
171. Holt. J., Wareing, D. R., Norton, G. A. 1992. Strategies of the insecticide use to avoid resurgence of Nilaparvata lugens (Stal) (Homoptera: Delphacidae), in tropical rice: a simulation analysis. J. Econ. Entomol., 85: 1979-1989
172. Hoogenboom, H. R., Griffiths, A. D., Johnson, K. S. el al. 1991. Multi-subunit proteins on the surface of filamentous phage: methodologies for displaying antibody (Fab) heavy and light chains. Nucl. Acids Res., 19: 4133-4137
173. Howe, D. K. et al. 1992. Detection of St. Louis encephalitis virus in mosquitoes by use of the polymerase chyain reaction. J. Am. Mosq. Control Assoc., 8: 333-335
174. Huke, R. 1991. World rice statistics. International Rice Research Institute, Manila, The Philippines.
175. Huse, W. D., Sastry, L., Iverson, S. A. et al. 1989. Generation of a large combinatorial library of the immunolobulin repertorire in phage lambda. Science, 246: 1275-1281
176. Jacobi, V., Castello, J. D. 1991. Isolation of tomato mosaic virus from waters draining forest stands in Neo York state. Phytopathol., 31 (10) : 1112-1117
177. James, H. G. 1961. Some predators of Aedes stimulant and Aedes trichurus in woodland pools. Can. J. Zool., 39: 533-540
178. Jenkins, D. W. 1963. Use of radionuclides in ecological studies of insects. In Schultz V and Klement A W (eds), Radioecology. Reinhold. New York. 431-440
179. Jone, M. G. 1979. Abundance of aphids on cereals from before 1973-1977. J. Appl. Ecol., 16: 1-22
180. Kelly, D. C., Edwards, M. L., Evans, H. F. et al. 1978. The use of the enzyme-linked immunosorbent assay to detect a nuclear polygedrosis virus in Heliothis armigera larvae. J. General Virol., 40:465-469
181. Kenmore, P. E., Carino, F. O., Perez, G. A. et al. 1984. Population regulation of the rice briwn planthopper (Nilaparvata lugens Stal) with rice fields in the Philippines. J. Plant Protect. Tropics, 1: 19-38
182. Kenmore, P. E., Carino, F. O., Perez, G. A. et al. 1991. Getting policies right, keeping policies
right: Indonesia's integrated pest management policy, production, and environment. In Asia and Private Enterprise Bureau Environment and Agriculture Officers' Conference. Colombo, Sri Lanka. U.S. Agency for International Development, Washington DC. 1-5
183. Kiritani, K. et al. 1972. Quantitative evaluation of predation by spiders on the green rice leafhopper. Nephotettix cincticeps, by a sign-count method. Res. Popul. Ecol., 13: 187-200
184. Kohler, G., Milstein, C. 1975. Continuous cultures of fused cells secreting antibody of predefined specificity. Nature, 256: 495-497
185. Kuno, E. 1979. Ecology of the brown planthopper in temperate region. In Brown Planthopper: Threat to Rice Brown Production in Asia. IRRI, Los Banos, Philippines. 45-60
186. Kuperstein, M. L. 1979. Estimating carabid effectiveness in reducing the Sunnpest, Eurygaster integriceps Puton (Heteroptera: Scutelleridae) in the U.S.S.R. Entomol. Soc. Am. Miscell. Pub., 11: 80-84
187. Lawruk, T. S., gueco, A. M., Jourdan, S. W. et al. 1995. Determination of chlorothalonil in water and Agricultural products by a magnetic particle-based enzyme immunoassay. J. Agric. Food Chem.,43: 1413-1417
188. Lenz, C. J., Greenstone, M. H. 1988. Production of a monclonal antibody to the arylphorin of Heliothis zea. Arch. Insect Biochem. Physiol., 9: 167-177
189. Lesiewicz, D. S., Lesiewicz, J. L., Bradley, J. R. et al. 1982. Serological determination of carabid (Coleoptera, A dephaga) predation of corn earworm (Lepidoptera: Noctuidae) in field corn. Environ. Entomol., 11:1183-1186
190. Liddell, J. E., Symondson, W. O. C. 1996. The potential of combinatorial antibody libraries in pest-predator relationship studies. In Symondson, W. O. C., Liddell, J. E. (eds.), The Ecology of Agricultural Pests: Biochemical Approaches. Chapman and Hall, London. 347-366
191. Lister, A., Usher, M. B., Block, W. 1987. Description and quantification of field attack rates by predatory mites: an example using an electrophoresis method with a species of Antarctic mite, Oecologia, 72: 185-191
192. Littlefield, J. M. 1964. Selection of hybrids from matings of fused cell secreting antibody of presumed recombinants. Science, 145: 709-710
193. Lovei, G. L., Monostori, E., Ando, I. 1985. Digestion rate in relation to starvation in the larva of a carabid predator Poecilus cupreus. Entomol. Exp. Appl., 37:123-127
194. L5vei, G. L., Sopp, P. I., Sunderland, K. D. 1990. Digestion rate in relation to alterative feeding in three species of polyphagous predators. Ecol. Entomol., 15:293-300
195. Loxdale, H. D., Castanera, P., Brookes, C. P. 1983. Electrophoretic study of enzymes from cereal aphid populations. I Electorphoretic techniprus and staining systems for characterizing isoenzymes from six species of cereal aphid (Hemiptera: Aphididae). Bull. Entomol. Res., 73: 645-657
196. Lucas, E., Coderre, D., Brodeur, J. 1997. Instar-specific defense of Coleomegilla maculata Lengi (Col.: Coccinellidae): Influence on attack success of the intraguild predator Chrysoperla rufilabris (Neur.: Chrysopidae). Entomophaga, 42 (1/2) : 3-12
197. Lucas, E., Coderre, D., Brodeur, J. 1998. Intraguild predation among aphid predators: Charcterization and influence of extraguild prey density. Ecology, 79 (3) : 1084-1092
198. Luck, R. F, Shepard, B. M., Kenmore, P. E. 1988. Experimental methods for evaluating arthropod natural enemies. Ann. Rev. Entomol,, 33: 367-391
199. Luff, M. L. The potential of predators for pest control. Agri. Ecos. Environ., 1983, 10: 59-181
200. Lund, R. D., Turpin, F. T. 1977. Serological investigations of black cutworm larval consumption by ground beetles. Ann. Entomol. Soc. Am., 70: 322-324
201. MaCafferty, J. Andrew, D. G., Grey, W. 1990. Phage antibodies: filamentous phage displaying antibody variable domains. Nature, 348: 552-554
202. Malcox, M., Brower, D. L., Smith, R. J. 1981. A position-specific cell surface antigen in the Drosophila wing imaginal disc. Cell, 25:159-164
203. McAdam, D. P., Hill, A. S., Beasley, H. L. et al. 1992. Monoclonal and polyclonal antibodies to the organophosphate fenitrithion. 2. Antibody specificity and assay performance. J. Agric. Food Chem.,40: 1471-1474
204. McCarty, M. T., Shepard, M., Turnipseed, S. G. 1980. Identification of predaceous arthropods in soybeans by using autoradiography. Environ. Entomol., 9: 199-203
205. McDaniel, S. G., Sterling, W. L. 1979. Predator determination and efficacy on Heliothis eggs in east Texas cotton using P32. Environ. Entomol., 8: 1083-1087
206. Mclver, I. D. 1981. An examination of the unity of the precipitin test for evaluation of arthropod predator-prey relationship. Can. Entomol., 113: 213-222
207. Menken, S. B. J., Ulenberg, S. A. 1986. Allozymatic diagnosis of four economically important Liriomyza species (Diptera: Agromyzidae). Ann. Appl. Biol., 109: 41-47
208. Miller, M. C. 1979. Serology in insect predator-prey studies. Entomol. Soc. Am. Miscellaneous Publication, 11:1-84
209. Miller, M. C. 1981. Evaluation of enzyme-linked immunosorbent assay of narrow-and broad-spectrum anti-adult Southern pine beetle serum. Ann. Entomol. Soc. Am., 74: 279-282
210. Mills, N. 1997. Techniques to evaluate the efficacy of natural enemies. In Dent D R, Walton M P (eds.), Methods in ecological and Agricultural Entomology. CAB International, Wallingford. 271-291
211. Morris, R. F., Miller, C. A. 1954. The development of life tables for the spruce budworm. Can. J. Zool.,32:283-310
212. Murray, R. A., Solomon, M. G. 1978. A rapid technique for analyzing diets of invertebrate predators by eletrophoresis. Ann. Appl. Biol., 90: 7-10
213. Nakamura, M., Nakamura, K. 1977. Population dynamics of the chestnut gall wasp (Cynipidae, Hym.). 5. Estimation of the effect of predation by spiders on the mortality of imaginal wasps based of the precipitin test. Oecologia, 27: 97-116
214. Naranjo, S. E., Hagler, J. R. 2001. Toward the quantification of predation with predator gut immunoassays: A new approach integrating functional response behavior. Biol. Control, 20:
175-189
215. Nateshan, H. M., Muniyappa, V., Swanson, M. M. et al. 1996. Host range, vector relations and serological relationships of cotton leaf virus from southern India. Ann. Appl. Biol., 128(2) : 233-244
216. Nyffeler, M. 1982. Field studies on the ecological role of the spiders as insect predators in agroecosystems (abandoned grassland, meadows and cereal fields). Thesis (ETH. 7097) , Swiss Federal Institute of Technology, Zurich.
217. Oerke, E. C. et al. 1994. Crop production and crop protection: estimated losses in major food and cash crops. Elsevier Science, 830
218. Oien, C. T., Ragsdale, D. W. 1993. Susceptibility of nontarget hosts to Nosema furnacalis (Microsporida: Nosematidae), a potential biological control agent of the European Corn Borer, Ostrinia nubilalis (Lepidoptera: Pyralidae). Biol. Control., 3: 323-328
219. Ooi, P. A. C. 1991. Recommendations of the conference: IPM action plans. In Ooi P A C, Lim G S, and Ho T H et al. Intergrated pest management in the Asia-Pacific region. CAB International, Kuala Lumpur, Malaysia. 399-400
220. Orphanides, G., Gonzales, D., Bartlett, B. R. 1971. Identification and evaluation of pink bollworm predators in southern California. J. Econ. Entomol., 64: 421-424
221. Pendleton, R. C., Grundmann, A. W. 1954. Use of 32P in tracing some insect-plant relationships of the thistle, Cirsium undulatum. Ecology, 35: 187-191
222. Perfect, T. J., Cook, A. G. 1994. Rice planthopper population dynamics: A comparison between temperate and tropical regions. In Denno, R. F., Perfect, T. J. (eds.), Planthoppers: Their Ecology and Management, Chapman and Hall, New York/London. 282-301
223. Phillipson, J. 1960. The food consumption of different instars of Mitopus mono (F.) (Phalangida) under natural conditions. J. Animal Ecol., 29: 299-307
224. Pimental, D. 1986. Agroecology and economics. In Morgan M (ed). Ecological theory and integrated pest management practice. New York: Wiley. 299-319
225. Pinto, A. D. S., Land, D. M., Britto, C. et al. 2000, Experimental Trypanosoma cruzi biclonal infection in Triatoma infecstans: detection of distinct clonal genotypes using kinetioplast DNA probes. Inter. J. Paras., 30: 843-848
226. Pointing, P. J. 1966. A quantitative field study of predatory behaviour by the sheet-web spider Frontinella communis on European pine shoot moth adults. Can. J. Zool., 44: 256-273
227. Polis, G. A., Holt, R. D, 1992. Intraguild predation: the dynamics of complex trophic interactions. Tree, 7(5) : 151-155
228. Putman, W. L. 1965. Paper chromatography to detect predation on mites. Can. Entomol., 97: 439-441
229. Quant, R. L., Pearson, M. N., Rohrmann, G. F. et al. 1984. Production of polyhedrin monoclonal antibodies for distinguishing two Orgyia pseudotsugata baculoviruses. Appl. Environ. Microbiol., 48(4) : 732-736
230. Riechert, S. E. 1974. Thoughts on the ecological significance of spiders. Bioscience, 24: 352-356
231. Robert, P. L., Naser, W. 1982. Characterization of monoclonal antibodies to the Autographa californica nuclear polyhedrosis virus. Virology, 122:424-430
232. Rothschild, G. 1966. A study of a natural population of Conomelus anceps Gemar (Homoptera: Delphacidae) including observations on predation using the precipitin test, J. Anim. Ecol., 35: 413-434
233. Sandness, J. N., McMurtry, J. A. 1970. Functional response of three species of Phytoseiidae (Acarina) to prey density. Can. Entomol., 102: 692-704
234. Schmidt, D. J., Ckarkson, C. E., Swanson, T. A. et al. 1990. Monoclonal antibodies for immunoassay of avermectins. J. Agric. Food Chem., 38: 1763-1770
235. Sen, S. N., Cibulsky, R. J., Trowell, S. C. et al. 1997. Development of Heliothis antibodies for the LepTon R HTK insect diagnostic test kit. 1997 Proceedings Beltwide Cotton Conferences, New Orleans, LA, USA, January 6-10. 2: 883-884
236. Service, M. W. 1973. Mortalities of the larvae of the Anopheles gambiae Giles complex and detection of predators by the precipitin test. Bull, Entomol. Res., 62: 359-369
237. Settle, W. H., Ariawan, H., Astuti, E. T. el al. 1996. Managing tropical rice pests through conservation of generalist natural enemies and alternative prey. Ecology, 77(7) : 1975-1988
238. Shamim, M., Baig, M., Nataraju, B. et al. 1995. Evaluation of protein-A linked monoclonal antibody latex agglutination test for diagnosis of nuclear polyhedrosis virus (BmNPV) of silkworm Bombyx mori L. J. Immunoassay, 16(2) : 155-166
239. Sigsgaard, L. 1996. Serological analysis of predators of Halicoverpa armigera Hubner (Lepidoptera: Noctuidae) eggs in sorghum-pigeonpea intercropping at ICRISAT, India: a preliminary field study. In Symondson, W. O. C., Liddell, J, E. (eds.), The Ecology of Agricultural Pests. London: Chapman and Hall. 367-381
240. Solomon, M. G., Murray, R. A., Van Der Geest. 1985. Analysis of prey by means of electrophoresis. In spider Mites. Their Biology, Natrual Enemies and Control, 171-173
241. Sopp, P. I., Sunderland, K. D.1989. Some factors affecting the detection period of apgid remains in predators using ELISA. Entomol. Exp. Appl., 51: 11-20
242. Sopp, P. I., Sunderland, K. D., Felon, J. S. et al. 1992. An improved quantitative method for estimating invertebrate predation in the field using an ELISA. J. Appl. Ecol., 29: 295-302
243. Southwood, T. R. E. 1978. Ecological Methods. Chapman and Hall, London. 524
244. Stevens, M., Smith, H. G., Hallsworth, P. B. 1995. Detection of the luteoviruses, beet mild yellowing virus and beet western yellows virus, in aphids caught in sugar-beet and oilseed rape crops, 1990-1993. Ann. Appl. Biol., 127(2) : 309-320
245. Stimmann, M. W. 1974. Marking insects with rubidium: imported cabbage worm marked in the field. Environ. Entomol., 3: 327-328
246. Stuart, M. K., Barak, A. V., Burkholder, W. E. 1994. Immunological identification of Trogoderma granarium Everts (Coleoptera: Dermestidae). J. Stored Prod. Res., 30(1) : 9-16
247. Stuart, M. K., Burkholder, W. E. 1991. Monoclonal antibodies specific for Laelius pedatus (Bethylidae) and Bracon hebetor (Braconedae), two hymenopteran parasitoids of stored-products pests. Biol. Control, 1(4) : 302-308
248. Stuart, M. K., Greenstone, M. H. 1990. Beyond ELISA: a rapid, sensitive,specific immunodot assay for identification of predator stomach contents. Ann. Entomol. Soc. Am., 83(6) : 1101-1107
249. Stuart, M. K., Greenstone, M. H. 1996. Serological diagnosis of Parasitism: a monoclonal antibody-based immunodot assay for Microplitis croceipes (Hymenoptera: Braconidae). In: Symondson, W. O. C., Liddell, J. E. (eds.), The Ecology of Agricultural pests: Biochemical Spproachs. London: Chapman and Hall. 301-321
250. Stuart, M. K., Greenstone, M. H. 1997. Immunological detection of hymenopteran parasitism in Helicoverpa Zea and Heliothis virescens. Biol. Control., 8:197-202
251. Sunderland, K. D. 1977. The population dynamics of Philoscia muscorum (Crustaxea, Oniscoidea) in a dune grassland ecosystem with a serological investigation of mortality due to predation. Ph.D. thesis, Univ. Leeds
252. Sunderland, K. D. 1987. A review of methods of quantifying invertebrate predation occurring in the field. Acta Phytopathologia et Entomlologia Hungarica, 22: 13-34
253. Sunderland, K. D. 1988. Quantitative methods for detecting invertebrate predation occurring in the field. Ann. Appl. Biol., 112: 201-224
254. Sunderland, K. D. 1996. Progress in quantifying predation using antibody techniques. In Symondson, W. O. C., Liddell, T. E. (eds.), the Ecology of Agricultural Pests: Biochemical Approaches, Chapman and Hall, London. 419-455
255. Sunderland, K. D. et al. 1994. The effects of polyphagous predators on spiders and mites in cereal field. Proceedings BCPC Conference, Pests and Disease. 1151-1156
256. Sunderland, K. D., Crook, N. E., Stacey, D. L. et al. 1987. A study of feeding by polyphagous predatory on cereals aphids using ELISA and gut dissection. J. Appl. Ecol., 24: 907-933
257. Sunderland, K. D., Sutton, S. L. 1980. A serological study of arthropod predation on woodlice in a dune grassland ecosystem. J. Appl. Ecol., 49: 987-1004
258. Symodson, W. O. C., Erickson, M. L., Liddell, J. E. 1997. Species-specific detection of predation by Coleoptera on the milacid slug Tandonia budapestensis (Mollusca, Pulmonata). Biocontrol Sci. Tech., 7: 457-465
259. Symondson, W. O. C., Erickson, M. L., Liddell, J. E. 1999a. Development of a monoclonal antibody for the detection and quantification of predation on sulgs within the Arion hortensis egg (Mollusca: Pulmonata). Biol. Control, 16: 274-282
260. Symondson, W. O. C., Erickson, M. L., Liddell, J. E. et al. 1999b. Amplified detection, using an monoclonal antibody, of an aphid specific epitope exposed during digestion in the gut of a predator. Insect Biochem. Mol. Biol., 29: 873-882
261. Symondson, W. O. C., Glen, D. M., Erickson, M. L. et al. 2000. Do earthworms help to sustain the slug predator Pterostichus melanarius (Coloptera: Carabidae) within crops? Investigations using
monoclonal antibodies. Mol. Ecol., 9: 1279-1292
262. Symondson, W. O. C., Glen, D. M., Wiltshire, C. W. et al. 1996. Effect of cultivation techniques and methods of straw disposal on predation by Pterostichus melanarius (Coleoptera: Carabidae) upon slugs (Gastropoda: Pulmonata) in an arable field. J. Appl. Ecol., 33: 741-753
263. Symondson, W. O. C., Hemingway, J. 1997. Biochemical and molecular techniques. In Dent, D. R., Walton, M. P. (eds.), Methods in Ecological and Agricultural Entomology (CAB International, Oxford). 293-350
264. Symondson, W. O. C., Liddell, J. E. 1993a. A monoclonal antibody for the detection of arionid slug remains in carabid predators. Biol. Control, 3: 207-214
265. Symondson, W. O. C., Liddell, J. E. 1993b. Differential antigen decay rates during digestion of molluscan prey by carabid predators. Entomol. Exp. Appl., 69: 277-287
266. Symondson, W. O. C., Liddell, J. E. 1995. Decay rates for slug antigens within the carabid predator Pterostichus melanarius monitored with a monoclonal antibody. Entomol. Exp. Appl., 75: 245-250
267. Symondson, W. O. C., Liddell, J. E. 1996. A species-specific monoclonal antibody system for detecting the remains of Field Slugs, Deroceras reticulalum (Muller)(Mollusca: Pulmonata), in carabid beetles (Coleoptera: Carabidae). Biocontr. Sci. Tech., 6: 91-99
268. Thresh, J. M., Adams, A. N., Barbara, D. J. et al. 1977. The detection of three viruses of hop (Humulus lupulus) by enzyme-linked immunosorbent assay. Ann, Appl. Biol., 87: 57-65
269. Titova, E. V. 1970. Use of precipitin test in a study of inter-relationships between Eurygaster integriceps Put. (Heteroptera: Scutelleridae) and predatory arthropods. Entomol. Rev., 49: 155-162
270. Tobolewski, J. et al. 1992. Detection and indentification of mammalian DNA from the gut of museum specimens of ticks. J. Med. Entomol, 29: 1949-1052
271. Tod, M. E. 1973. Notes on beetle predators of mollusks. Entomolgist, 106: 196-201
272. van der Fliert E. 1993. Integrated pest management: farmer field schools generate sustainable practices. Agricultural University Wageningen, Wageningen, The Netherlands.
273. Van, E. J. M. et al. 1990. Immunochemical Methods for Environmental Analysis. Washington D C. American Chemical Society.
274. Vanderlan, M. et al. 1991. Immunoassays for Trace Chemincal Analysis: monitoring toxic Chemials im humans, food, and the environment. Washington D C. American Chemial Society.
275. Vickerman, G. P., Sunderland, K. D. 1975. Arthropods in cereal crops: nocturnal activity, vertical distribution and aphid predation, J. Appl. Ecol., 12: 755-766
276. Vodkin, M. H. et al. 1995. PCR-based detection of arboviral RNA from mosquitoes homogenized in detergent. Biotechniques, 17:114-116
277. Volkman, L. E., Falcon, L. A. 1982. Use of monoclonal antibody in an enzyme-linked immunosorbent assay to detect the presence of Trichoplusis ni (Lepidoptera: Noctuidae)'s nuclear polyhedrosis virus polyhedrin in T. ni larvae. J. Econ. Entomol., 75(5) : 868-871
278. Wagner, J. D., Wise, D. H. 1997. Influence of prey availability and conspecifics on patch quality
for a cannibalistic forager: laboratory experiments with the wolf spider Schizocosa. Oecologia, 109: 474-482
279. Walton, M. P., Powell, W., Lokdale, H. D. et al, 1990. Electrophoresis as a tool for estimation levels of hymenpterous parasitism in field populations of the cereal aphid, Sitobion avenae. Entomol. Exp. Appl., 54: 271-279
280. Ward, E. S., Detef, G., Andrew, D. G. et al. 1989. Binding activities of a repertoire of single Ig variable domains secreted from Escherichia coli. Nature, 341: 544-546
281. Wardhani, M. A. 1992. Developments in 1PM: the Indonesian case. In Ooi, P. A. C., Lim, G. S., and Ho, T. H. et al. Intergrated pest management in the Asia-Pacific region. CAB International, Kuala Lumpur, Malaysia. 27-35
282. Weitz, B. 1952. The antigenicity of sera of man and animals in relation to the preparation of specific precipitating antisera. J. Hygiene Cambridge, 50: 275-294
283. West, A. S. 1950. The precipitin test as an entomological tool. Can. Entomol., 82 241-244
284. Whalon, M. E., Parker, B. L. 1978. Immunological identification of tarnished plant bug predators. Ann. Entomol. Soc. Am., 71: 453-456
285. Wheeler, A. G. 1974. Studies on the arthropod fauna of alfalfa: VI. Plant bugs (Miridae). Can. Entomol., 106:1267-1275
286. White, C., Eigenbrode, S. D. 2000. Leaf surface waxbloom in Pisum sativum influences predation and intra-guild interactions involving two predator species. Oecologia, 124: 252-259
287. Whitten, M. J., Oakeshott, J. G. 1991. Opportunities for modern biotechnology in control of insect pests and weeds, with special reference to developing countries. FAO Plant Protect. Bull., 39(4) : 155-181
288. Whitten, M. J., Oakshott, J. G. 1990. Biocontrol of insects and weeds. Agri. Biotech., 2: 123-142
289. Wilson, E. O. 1990. First word. Omni. 12: 6
290. Winder, L., Hirst, D. J., Carter, N. et al. 1994. Estimating predation of the grain aphid Sitobion avenae by Poly phagous predators. J. Appl. Ecol., 31: 1-12
291. Woodburn, A. T. 1990. The current rice agrochemical market. In Grayson, B. T., Green, M. B., Copping, L. B. (eds.), Pest Management in Rice. Proceedings of the Conference on Pest Management in Rice, London, England, 4-7 June 1990. Elsevier Applied Science, London, England. 15-30
292. Wratten, S. D., Bryan, K., Coombes, D. et al. 1984. Evaluation of polyphagous predators of aphids in arable crops. Proc. British Crop Protect. Council, 271-276
293. Yong, S. Y., Kring, T. J. 1991. Selection of healthy and nuclear polyhedrosis virus infected Anticarsia gemmatalis Hubner (Lepidopera: Noctuidae) as prey by nymphal Nabis roseipennis Reuter (Hemiptera: Nabidae) in laboratory and on soybean. Entomophaga, 36: 265-273
294. Young, O. P. 1989. The utilization of dead insects on the soil surface in row crop situations. Environ. Entomol., 100: 43-47
2.万方浩,陈常铭.1986.综防区和化防区稻田害虫一天敌群落组成及多样性研究.生态学报,6(2):159~169
3.孔宪涛.1997.免疫球蛋白异常的基础和临床.上海:上海科学技术文献出版社
4.戈峰,李典谟.1997.可持续农业中的害虫管理问题,昆虫知识,34(1):39~49
5.王学,王海涛,陈万荣等.1997.人抗体组合文库的构建和抗HBsAg噬菌体抗体的筛选.生物化学与生物物理学报,29(2):183~191
6.王淡.1999.基因工程抗体研究进展,中国免疫学杂志,15(5):193~195
7.叶恭银,胡萃.1989.单克隆抗体在昆虫学中的应用.生物科学动态,3:13~18
8.石根生,张孝羲.1991.单季稻区蜘蛛群落的研究——多样性、优势度、排序和聚类.中国水稻科学.5(3):114~120
9.刘红玉,陈常铭,江汉华.1997.测定节肢动物捕食者与猎物关系A蛋白双抗体夹心酶联免疫吸附技术.昆虫学报,40(2):219~224
10.刘秀梵.1994.单克隆抗体在农业上的应用.合肥:安徽科技出版社.1~47
11.汤金义,胡伯海,王建强等.1996.我国水稻迁飞性害虫猖獗成因及治理对策建议.生态学报,16(2):167~173
12.汤鉴球,张文庆.1992.用血清学方法评价稻田狼蛛对稻纵卷叶螟的控制作用.植物保护学报,19(1):1~6
13.汤鉴球,周汉辉.1983.用血清学方法研究稻田蜘蛛的捕食效应.昆虫天敌,5(4):207~214
14.何俊华,陈学新,马云等.1991.中国水稻害虫天敌名录.北京:科学出版社.4~20
15.吴六俫,王洪全,尹长民等.1988.稻田狼蛛种群数量变动的研究.动物学报,34(1):58~63
16.吴进才,陆自强,杨金生等.1993.稻田主要捕食性天敌的栖境生态位与捕食作用分析.昆虫学报,36(3):323~331
17.吴进才,陆自强,1993.稻田节肢动物群落营养物种的初步研究.农业科学集刊,1:234~238
18.吴进才,胡国文,唐健等.1994.稻田中性昆虫对群落食物网的调控作用.生态学报,14(4):381~386
19.张文庆,古德祥,汤鉴球.1991.自然条件下拟环纹豹蛛对三化螟成虫捕食作用的评价.昆虫天敌,13(1):5~10
20.张文庆,古德祥,周汉辉等.1992.天敌作用定量评价的一种方法.青年生态学者论丛(二).北京:中国科技出版社.207~212
21.张古忍,张文庆,古德祥.1996a.用ELISA检测稻飞虱的捕食性天敌.中山大学学报(自然科学版),35(5):171~176
22.张古忍,古德祥,张文庆.1996b.酶联免疫吸附试验在捕食作用研究中的方法与应用.中国生物防治,12(1):33~38
23.张古忍,张文庆,古德祥.1997.用ELISA研究稻田节肢类捕食者对稻飞虱的捕食作用.昆虫学报,40(2):171~176
24.张光裕,Kaupp W J.1988.用单克降抗体结合酶联免疫吸附试验检测云杉卷叶蛾幼虫体内的核多角体病毒.病毒学报,4(1):61~64
25.张励力,韩洪彦,段佩若等.APAAP免疫印迹技术对抗副流感病毒1,3型单克隆抗体识别抗原表位的研究.中国免疫学杂志,1994,10(6):353~355
26.李彪,朱承谟,吴祥甫.1998.抗癌胚抗原单链抗体基因的构建及高效表达.生物化学与生物物理学报,30(4):369~373
27.李代芹,陈建,赵敬钊.1989.确定棉蚜捕食性蜘蛛种类的血清学方法的可行性研究.生态学杂志,8(6):58~62
28.李汝铎,丁锦华,胡国文,苏德明主编.1996.褐飞虱及其种群管理.上海:复旦大学出版社
29.李隆术,王开洪.1981.稻田昆虫群落及主要种群动态的研究.西南农学院学报,81(2):1~16
30.李德葆,周雪平,许建平等.1996.基因工程操作技术,上海:上海科学技术出版社.146~151
31.李毅,陈章良.1995.植物病毒胞间运动的分子生物学和细胞学研究进展,植物生理学通讯,31(6):463~469
32.杜正文.1991.中国水稻病虫害综合防治策略与技术.北京:农业出版社.29~168
33.杜念兴.1995.兽医免疫学.北京:中国农业出版社.32~58
34.杨冠形,吴祥甫.1996.嵌合抗体轻链基因在家蚕细胞中重组与表达.生物化学与生物物理学报,28(6):653~657
35.汪谦.1997.现代医学实验方法.北京:人民卫生出版社,730~738
36.邹运鼎,陈高潮,孟庆雷等.1999.饥饿对七星瓢虫捕食作用的影响.生态学报,19(1):113~117
37.陆自强,胡广淦,陈丽芳等.1995.用单克隆抗体结合酶联免疫吸附试验检测棉铃虫幼虫体内的核多角体病毒.中国生物防治,11(1):36~39
38.陈建国,胡萃,马可.1988.应用菜粉蝶颗粒体病毒单克隆抗体对不同株病毒进行抗原分析.病毒学报,4(2):137~141
39.陈建国,胡萃.1992.抗家蚕浓核症病毒单克隆抗体实用化研究.浙江农业大学学报,18(1):7~10
40.陈建明,程家安,何俊华.1992.黑肩绿盲蝽的国内外研究概况.昆虫知识,29(6):370~372
41.陈常铭,宋慧英.1988.水稻害虫综合治理中的生物防治.农牧渔业部全国植物保护总站主编,中国水稻病虫害综合防治进展,杭州:浙江科学技术出版社.100~116
42.周汉辉.1986.用血清学方法评价稻田昆虫天敌对飞虱的捕食作用.生物防治通报,2(4):155~157
43.周汉辉.1989.血清法探讨天敌对三种稻田昆虫的抑制作用.植物保护学报,16(1):7~11
44.周汉辉.1992.天敌对三化螟的捕食功能的血清学评价.植物昆虫学报,19(3):193~197
45.周集中,陈常铭.1986a.黑肩绿盲蝽对褐飞虱的捕食作用及其模拟模型研究.湖南农业科学,(6):22~25
46.周集中,陈常铭.1986b.拟环纹豹蛛对褐飞虱的捕食作用及其模拟模型的研究Ⅰ:功能反应.生物防治通报,2(1):2~9
47.庞保平,程家安,毛雪琴.2000.猎物可测定时间与捕食量和温度的关系.植物保护学报,27(1):7~11
48.庞保平,程家安,陈正贤.1999.酶联免疫吸附试验方法的比较.中国生物防治,15(1):31~34
49.庞保平,程家安,陈正贤等.2001.白背飞虱单克隆抗体的制备及其特性的研究.昆虫学报,44(1):21~26
50.庞保平,程家安.2000.单克隆抗体及其在节肢动物捕食作用研究中的应用.生态学杂志,19(3):32~35
51.庞保平.1998.白背飞虱单克隆抗体的制备及其在捕食作用研究中的应用.浙江农业大学博士论文
52.庞雄飞,侯任环,梁广文等.1981.稻纵卷叶螟防治策略探讨(一)稻纵卷叶螟生命表及其主要死亡因子分析.华南农学院学报,2(4):71~84
53.庞雄飞,梁广文,曾玲.1984.昆虫天敌作用的评价.生态学报,4(1):46~56
54.庞雄飞,梁广文.1982.稻纵卷叶螟防治策略的探讨(二)儿种重要生态因子与种群数量的关系及海陵第二代种群动态模拟.华南农学院学报,3(2):13~27
55.胡广淦,陆自强,杭三保等.1993.单克隆技术在昆虫病毒研究中的应用,生物防治通报,9(2):76~79
56.胡国文,郭玉杰,李绍石等.1996.减少稻田用药的理论依据和实践.昆虫知识,33(1):3~7
57.赵士熙,吴中孚,杨章华.1991.水稻3种飞虱生态位研究.福建农学院学报,20(4):385~390
58.赵伟春,陈正贤.单克隆抗体在昆虫学研究中的应用.程家安和唐振华主编,昆虫分子科学.北京:科学出版社.印刷中
59.赵伟春,程家安.2000.单克隆抗体在害虫综合治理中的应用.科技通报,16(增):26~32
60.郝树广,张孝羲,程遐年等.1998.稻田节肢动物群落营养及优势功能集团的组成与多样性动态.昆虫学报,41(4):343~352
61.徐宜为.1991.免疫检测技术(第二版).北京:科学出版社.174~176
62.郭玉杰,王念英,蒋金炜等.1995.中性昆虫在稻田节肢动物群落中作为捕食者营养桥梁作用的研究,中国生物防治,11(1):5~9
63.高春先,顾秀慧,贝亚维等.1988.褐稻虱再猖獗原因的探讨.生态学报,8:156~163
64.黄葵,郭予元,谢云陆.1992,应用酶联免疫及附试验(ELISA)鉴定粘虫的捕食性天敌.植物保护学报,19(3):207-212
65.彭成旺,宗良炳.1989.用反向间接血凝实验坚定棉蚜的捕食性天敌.植物保护学报,16(2):93~97
66.程家安,祝增荣,李红叶等.1998.浙江省农作物有害生物治理——新世纪的挑战与对策.程家安和周伟军主编.跨世纪农业发展研究.北京:中国环境科学出版社.56~63
67.程家安,祝增荣,娄永根.1995.连作晚稻前期施药种类利时间对褐飞虱种群动态的影响,中国水稻科学,9(2):108~114
68.程家安.1996.水稻害虫.北京:中国农业出版社.
69.蒋明星,祝增荣,程家安.2000.浙西北山区单季稻田节肢动物群落的多样性.浙江大学学报(农业与生命科学版),26(3):283~286
70.蔡文启,王荣,覃秉益等.1989.电融合产生黄瓜花叶病毒的单克隆抗体.微生物学报,29:444~451
71.Agusti, N., Aramburu, J., Gabarra, R. 1999. Immunological detection of Helicoverpa armigera (Lepidoptera: Noctuidae) Ingested by Heteropteran predators: Time-related decay and Effect of meal size on detection period. Ann. Entomol. Soc. Am., 92(1): 56~62
72.Alexander, E. K., Marvin, H. G., Douglas, J. S. et al. 1994. Synthesis of haptens and derivation of monoclonal antibodies for immunoassay of the phenylurea herbicide diuron. J. Agric. Food Chem., 42:301~309
73.Allen, W. R., Hagley, E. A. C. 1982. Evaluation of immunoelectroosmophoresis on cellulose polyacetate for assessing predation of Lepidoptera(Tortricidae) by coleoptera (Carabidae) species.Can. Entomol., 114:1047~1054
74.Anne, L. Q., Nodet, P., Haelters, J. et al. 1998. Hapten synthesis for a monoclonal antibody based ELISA for Deltamethrim. J. Agric. Food Chem., 46:1670~1676
75.Antonio, A., Juan, J. M., Fastemeh, M. et al. 1997. Hapten Synthesis and production of monoclonal antibodies to DDT and related compounds. J. Agric. Food Chem., 45:3694~3702
76.Antonio, A., Maria, J. M., Jean, P. H. et al. 1999. Development of monoclonal antibody-based immunoassays to the N-methylcarbamate pesticide carbofuran. J. Agric. Food Chem., 47:2475~2485
77.Bacher, S,, Schenk, D., Imboden, H. 1999. A monoclonal antibody to the shield beetle Cassida rubiginosa (Coleoptera, Chrysomelidae): A tool for predator gut analysis. Biol. Control., 16:299~309
78.Baldwin, W. F., James, H. G., Welch, H. E. 1955. A Study of predators of mosquito larvae and pupae with a radio-active tracer. Can. Entomol., 87:350~356
79.Banks, J. N., Collins, D. W., Rizvi, R. H. et al. 1996. Immunochemical studies for the development of a rapid assay against Thrips palmi. Brighton Crop Protection Conference: Pests and Diseases-1996: Volume 3: Proc. Int. Conference, Brighton, UK, 18-21 November. 1053~1058
80. Barbas, C. F. III., Kang, A. S., Lerner, R. A. et al. 1991. Assembly of combinatorial antibody libraries on phage surface. Proc. Nati. Acad. Sci. USA., 88: 7978-7982
81. Barbas, C. F., Clackson, D. G. 1991. Assembly of combinatorial antibody libraries on phage surface: the gene III site. Proc. National Acad. Sci. USA. 88: 7978-7982
82. Barlow, C. A., Whitingham, J. A. 1986. Feeding economy of larvae of a flower fly Metasyrphus corollae (Dipt: Syrphidae): partial consumption of prey. Entomophaga, 31: 49-57
83. Bocher, M., Giersch, T., Dschmid, R. et al. 1992. Dextran, a hapten carrier in immunoassays for S-Triazines A comparison with ELISAs based on hapten-protein conjugates. J Immunol. Methods, 151: 1-8
84. Bona, M., Scheer, U., Bautz, E. K. F. 1981. Antibodies to RNA polymerase II(B)mhibit transcription in lampbrush chromosomes after microinjection into living amphibian oocytes. J. Mol. Biol., 151(1) : 81-100
85. Boreham, P. F. L., Ohiagu, C. E. 1978. The use of serology in evaluating invertebrate predator-prey relationships: a review. Bull. Entomol. Res., 68: 171-194
86. Brandon, D. L., Bonald, G. B., Anne, H. B. et al. 1992. Monoclonal antibody-Based ELISA for Thiabendazole in Liver. J. Agric. Food Chern., 40: 1722-1726
87. Brooke, M. M., Proske, H. O. 1946. Precipitin test for determining the natural predators of immature mosquitoes. J. Nati. Mal. Soc., 5:45-56
88. Cameron, E. A., Reeves, R. M. 1990. Carabidae (Coleoptera) associated with Gypsy Moth (Lymantria dispar (L.) (Lepidoptera: Lymantriidae)) populations subjected to Bacillus thuringiensis Berliner treatments in Pennsylvania. Can. Entomol., 122: 123-129
89. Campbell, C. A. M. 1978. Regulation of the Damsonhop appid ( Phorodon humali (Schrank)) on hops (Humulus lupulus L.) by predators. J. Hortic. Sci., 53: 235-242
90. Chambers, R. J., Adams, T. H. L. 1986. Quantification of the impact of hoverflies (Diptera: Syrphidae) on cereal aphids in winter wheat: an analysis of field populations. J. Appl. Ecol., 23:-904
91. Cheng, J., Holt, J. 1990. A systems analysis approach to brown planthopper control on rice in Zhejiang Province, China. I. Simulation of outbreaks. J. Appl. Ecol., 27: 85-99
92. Chiu, S. C. 1979. Biological control of the brown planthopper. Brown plnthopper-threat to rice production in Asis IRRI Philippines.
93. Chiverton, P. A. 1984. Pitfall-trap catches of the carabid beetle Pterostichus melanarius, in relation to gut contents and prey densities, in insecticide treated and untreated spring barley. Entomol. Exp. Appl., 36: 23-30
94. Cisneros, J. J., Rosenheim, J. A. 1997. Ontogenetic change of prey preferentce in the generalist preator Zelus renardii and its influence on predator-predator interactions. Ecol. Entomol., 22: 399-407
95. Clark, M. F., Adams, A. N., Thresh, J. M. et al. 1976. The detection of plum pox and other viruses in woody plants by enzyme-linked immunosorbent assay (ELISA). Acta Horticulturae, 67: 51-57
96. Clement, S. L., Grigarick, A., Way, M. O. 1977. Conditions associated with rice plant injury by chironomid midges in California. Environ. Enotmol., 6: 91-95
97. Coffman, W. P. 1978. Chironomidae. In Merritt R W, Cummins K W (eds.), An introduction to the aquatic insects of North America. Kendall/Hunt,Dubuque, Iowa, USA. 4411
98. Cohen, A. C. 1990. Feeding adaptations of some predaceous Hemiptera. Ann. Entomol. Soc. Am., 83: 1215-1223
99. Cook, A. G., Perfect, T. J. 1989. The population characteristics of the brown planthopper, Nilaparvata lungens in the Philippines. Ecol. Entomol., 14: 1-9
100. Cooke, L. 1991. Learning what pest-eaters had for lunch. Agric. Res. Wash., 39(8) : 9
101. Coulson, R. M. R. et al. 1990. Amplofication and analysis of human Dna present in mdsq2uito bloodmeals. Med. Vet. Entomol., 4: 357-366
102. Crook, N. E., Payne, C. C. 1980. Comparison of three methods of ELISA for baculoviruses. J. Gen. Virol., 46: 29-37
103. Crook, N. E., Sunderland, K. D. 1984. Detection of aphid remains in oredatory insects and spielers by ELISA. Ann. Appl. Biol., 105: 413-422
104. Davis, R. W. 1969. The production of antisera for detecting specific triclad antigens in the gut contents of predators. Oikos, 20: 248-260
105. Dempster, J. P. 1960. A quantitative study of the predators on the eggs and larvae of the broom beetle, Phytodecta olivace Forster, using the precipitin test. J. Anim. Ecol., 29: 149-167
106. Dempster, J. P. 1967. The control of Pieris rapae with DDT. I. The natural mortality of the young stages of Pieris. J. Appl. Ecol., 4: 485-500
107. Dennison, D. R, Hodkinson, I. D. 1983. Structure of the predatory beetle community in a woodland soil ecosystem. I. Prey selection. Pedobiologia, 25: 109-115
108. Denno, R. F., Perfect, T. J. (eds.).1994. Planthoppers: Their Ecology and Management. Chapman and Hall, New York/London.
109. Dhadialla, T. S., Raikhel, A. S. 1990. Biosynthesis of mosquito vitellogenin. J. Biol. Chem., 265(17) : 9924-9933
110. Doane, J. F., Scotti, P. D., Sutherland, O. R. et al. 1985. Serological identification of wiceworm and staphylinid predators of the Australian soldier fly and wireworm feeding on plant and animal food. Entomol. Exp. Appl., 38: 65-72
111. Drechsler, M., Settele, J. 2001. Predator-prey interactions in rice ecosystems: effects of guild composition, torphic relationships, and land use changes--a model study exemplified for Philippine rice terraces. Ecol. Mod., 137: 135-159
112. Edgar, W. D. 1970. Prey and feeding behaviour of adult females of the Wolf spider Pardosa amentata (Clerck). Netherlands J. Zool., 20: 487-491
113. Ehler, L. E., Long, R. F., Kinsey, M. G. et al 1997. Potential for augmentative biological control of black bean aphid in California sugarbeet. Entomophaga, 42 (1/2) : 241-256
114. Eline, P. M., Wim, H. M., Peter, G. S. et al. 1995. Immunoassays for Pesticides. Environ. Sci.
technol.,29(3) : 553-561
115. Ernsting, G., Joosse, E. N. G. 1974. Predation on two species of surface-dwelling Collembola. A study with radio-isotope labeled prey. Pedobiologia, 14: 222-231
116. Fichter, B. L., Stephen, W. P. 1979. Selection and use of host-specific antigens. Entomol. Soc. Am. Miscellaneous Publication, 11: 25-33
117. Fichter, B. L., Stephen, W. P. 1981. Time-related decay in prey antigens ingested by the predator Podisus maculiventris (Hemiptera; Pentatomidae) as detected by ELISA. Oecologia, 51: 404-407
118. Fitcher, B. L., Stephen, W. P. 1984. Time related decay of prey antigens ingested by arboreal spiders as detected by ELISA. Environ. Entomol., 13: 1583-1587
119. Foelix, R. F. 1982. Biology of spiders. Harvard University Press.
120. Ford, J. B., Giboney, F. M. 1980. Video recording techniques for studying predatory mite behaviour. Bulletin SROP/WPRS III/6. 35
121. Forsythe, T. G. 1982. Feeding mechanisms of certain ground beetles (Coleoptera: Carabidea). The Coleopterists Bulletin, 36: 26-73
122. Fox, C. J., MacLellan, C. R. 1956. Some Carabidae and Staphylinidae shown to feed on a wireworm, Agriotes sputator (L.), by the preciptin test. Can. Entomol., 88: 228-231
123. Frazer, B. D. et al. 1981. Predator reproduction and the overall pedator-prey relationship. Can. Entomol., 113:1015-1024
124. Gallagher, K. D., Kenmore, P. E., Sogawa, K. 1994. Judicial use of insecticides deter planthopper outbreaks and extend the life of resistant varieties in southeast Asian rice. In Denno R F, Perfects T J (eds.), Planthoppers, their ecology and management. Chapman and Hall, New York. USA.
125. Gardner, W. A., Shepard, M., Noblet, R. 1981. Precipitin test for examining predator-prey interactions in soybean fields. Can. Entomol., 113: 365-369
126. Giller, P. S. 1982. The natural diets of waterbugs (Hemiptera-Heteroptera): electrophoresis as a potential method of analysis. Ecol. Entomol., 7: 233-237
127. Giller, P. S. 1984. Predator gut state and prey detectability using electrophoretic analysis of gut contents. Ecol. Entomol., 9: 157-162
128. Giller, P. S. 1986. The natural diet of the Noctonectidae: field trials using eletropthoresis. Ecol. Entomol., 11: 163-172
129. Greenston, M. H. 1977. A passive haemagglutination inhibition assay for the identification of stomach contents of invertebrate predators. J. Appl. Ecol., 14: 457-464
130. Greenstone, M, H., Hunt. J. H. 1993. Determination of prey antigen half-life in Polistes metricus using a monoclonal antibody-based immundot assay. Entomol. Exp. Appl., 68: 1-7
131. Greenstone, M. H. 1979a. Passive haemagglutination inhibition: a powerful new tool for field studier of entomophagous predators. Entomol. Soc. Am. Miscellaneous Publication, 11: 69-78
132. Greenstone, M. H. 1979b. Spider feeding behaviour optimises dietary essential amino acid composition. Nature, 181: 501-503
133. Greenstone, M. H. 1983a. Anenzyme-linked immunosorbent assay for the Amblyospora sp. of
Cluex salinarius (Microsopora: Amblyosporidae). J. Invertebr. Pathol., 41: 250-255
134. Greenstone, M. H. 1983b. Site-specificity and site tenacity in a wolf spider: a serological dietary analysis. Oecologia, 56: 79-83
135. Greenstone, M. H. 1989. Foreign exploration for predators: a proposed new methodology. Environ. Entomol., 18(2) : 195-200
136. Greenstone, M. H. 1995. Bollworn or budworm? Squash blot immunoassay distinguishes eggs of Helicoverpa zea and Heliothis virescens (Lepidoptera: Noctuidae). J. Econ. Entomol., 88: 213-218
137. Greenstone, M. H. 1996. Serological analysis of arthropod predation: past, resent and future. In: Symondson, W. O. C., Liddell, J. E. (eds.), The Ecological of Agricultural Pests. London: Chapman and Hall. 265-300
138. Greenstone, M. H., Morgan, C. E. 1989. Predation on Heliothis zea (Lipidoptera: Noctuidae): intra-specific ELLSA assay for stomach analysis. Ann. Entomol. Soc. Am., 82: 45-49
139. Greenstone, M. H., Trowell, S. C. 1994. Arthropod predation: a simplified immunodot format for predator gut analysis. Ann. Entomol. Soc. Am., 87(2) : 214-217
140. Griffiths, E., Wratten, S. D., Vickerman, G. P. 1985. Foraging by the carabid Agonum dorsale in the field. Ecol. Entomol., 10: 181-189
141. Hagler, J. R. 1998. Variation in the efficacy of several predator gut content immunoassays. Biol. Control., 12: 25-32
142. Hagler, J. R., Brower, A. C., Tu, Z. et al. 1993. Development of a monoclonal antibody to detect predation of the sweetpotato whitefly, Bemisia tabaci. Entomol. Exp. Appl., 68(3) : 231-236
143. Hagler, J. R., Buchmann, S. L., Hagler, D. A. 1995. A simple method to quantify dot blots for predator gut content analyses. J. Entomol. Sci., 30(1) : 95-98
144. Hagler, J. R., Cohen, A. C. 1990, Effects of time and temperature on digestion of purified antigen by Geocoris punctipes (HemipteraL Lygaeidae) reared on artificial diet. Ann. Entomol. Soc. Am., 83: 1177-1180
145. Hagler, J. R., Cohen, A. C. 1991. Prey selection by in vitro-reared and field reared Geocoris punctipes. Entomol. Exp. Appl., 59: 201-205
146. Hagler, J. R., Cohen, A. C., Bradley-Dunlop, D. et al. 1992. Field evaluation of predation on Lygus hesperus (Hemiptera: Miridae) using a species-and stage-specific monoclonal antibody. Environ. Entomol., 21: 896-900
147. Hagler, J. R., Cohen, A. C., Enriquez, F. J. et al, 1991. An egg-specific monoclonal antibody to Lygus hesperus. Biol. Control, 1(1) : 75-80
148. Hagler, J. R., Narajo, S. E. 1997. Measuring the sensitivity of an indirect predator gut content ELISA: detectability of prey remains in relation to predator species, temperature, time, and meal size. Biol. Control, 9: 1-8
149. Hagler, J. R., Narando, S. E., Bradley-Dunlop, D. et al. 1994. A monoclonal antibody to pink bollworm (Lepidoptera: Gelechiidae) egg antigen: a tool for predator gut analysis. Ann. Entomol. Soc. Am., 87(1) :85-90
150. Hagler, J. R., Naranjo, S. E. 1994a. A qualitatitive survey of two coleopteran predators of Bemisia tobaci and Pectinophora gossypiella using a multiple prey gut content ELISA. Environ. Entomol., 23: 193-197
151. Hagler, J. R., Naranjo, S. E. 1994b. Determining the frequency of heteropteran predation on sweetpotato whitefly and pink bollworm using multiple ELISA. Entomol. Exp. Appl., 72: 59-66
152. Hagler, J. R., Naranjo, S. E., Erichson, M. L. et al. 1997. Immunological examinations of species viriability in predator gut content assays: effects of predator: prey protein ratio on immunoassays sensitivity. Biol. Control., 9: 120-128
153. Hamann, H. J., Iwannek, K. H. 1981. The use of the indicator activation method for the labeling of tsetse flies. Zeitschrift fur angewandte Entomologie, 91: 206-212
154. Hand, L. R, Keaster, A. J. 1967. The environment of an insect field cage. J. Econ. Entomol. 60: 910-915
155. Harrison, B. D., Liu, Y. L., Khalid, S. et al. 1997. Protection and relationships of cotton leaf curl virus and allied whitefly-transmitted geminiviruses occurring in Pakistan. Ann. Appl. Biol., 130(1) : 61-75
156. Hassell, M. P., Varley, G. C. 1969. New inductive population model for insect parasites and its bearing on biological control. Nature, 223: 1133-1136
157. Hawkes, R. B. 1972. A fluorescent dye technique for marking insect eggs in predation studies. J. Econ. Entonmol., 65: 1477-1478
158. Haynes, D. L., Sisojevic P. 1966. Predatory behaviour of Philodromus rufus Walckenaer (Araneae: Thomisidae). Can. Entomol., 98: 113-133
159. Hegedus, D. D., Khachatourians, G. G. 1993. Construction of cloned DNA probes for the specific detection of the entomopathogenic fungus Beauveria bassiana in grasshoppers. J. Invertbr. Pathol., 62: 233-240
160. Heinrichs, E. A. 1994. Impact of insecticides on the resistance and resurgence of rice planthopper. In Denno R F, Perfect T J (eds.), Planthopper: Their Ecology and Management. Chapman and Hall, London. 571-598
161. Hengeveld, R. 1980. Qualitative and quantitative aspects of the food of ground beetles. A review. Neth. J. Zool., 30: 555-563
162. Henneberry, T. J., Clayton, T. E. 1985. Consumption of pink bollworm and tobacco budworm eggs by some predators commonly found in cotton fields. Envirn. Entomol., 14: 416-419
163. Heong, K. L. 1991. Management of the brown planthopper in the tropics. Proceedings of the International Seminar on Migration and Dispersal of Agricultural Insects. Tsukuba, Japan, 25-28 September 1991. National Institute of Agro-environmental Sciences, Ibaraki, Japan.
164. Hiatt, A., Cafferkey, R., Bowdish, K. 1989. Production of antibodies in transgenic plants. Nature, 342:76-78
165. Hill, S. M., Crampton, J. M. 1994. DNA-based methods for the identification of insect vectors. Ann. Trop. Med. Parasit., 88: 227-250
166. Hilsenhoff, W. L. 1991. Diversity and classification of insects and Colembola. In Thorp, J. H., Covichs, A. P. (eds.). Ecology and classification of North American freshwater invertebrates. Academic Press, San Diego, California, USA.
167. Hironori, Y., Katsuhiro, S. 1997. Cannibalism and interspecific predation in two predatory ladybirds relation to prey abundance in the field. Entomophaga, 153-163
168. Hohman, A. W., Faulkner, P. 1983. Monoclonal antibodies to baculovirus structural proteins: determination of specificities by western blot analysis. Virology, 125: 432-444
169. Holling, C. C. 1959. The component of predaton as revealed by a study of small mammal predation of European pine sawfly. Can. Entomol., 91: 293-320
170. Holt, J., Cook, A. G., Perfect, T. J. et al. 1987. Simulation analysis of brown planthopper dynamics on rice in the Philipppines. J. Appl. Ecol., 24: 87-102
171. Holt. J., Wareing, D. R., Norton, G. A. 1992. Strategies of the insecticide use to avoid resurgence of Nilaparvata lugens (Stal) (Homoptera: Delphacidae), in tropical rice: a simulation analysis. J. Econ. Entomol., 85: 1979-1989
172. Hoogenboom, H. R., Griffiths, A. D., Johnson, K. S. el al. 1991. Multi-subunit proteins on the surface of filamentous phage: methodologies for displaying antibody (Fab) heavy and light chains. Nucl. Acids Res., 19: 4133-4137
173. Howe, D. K. et al. 1992. Detection of St. Louis encephalitis virus in mosquitoes by use of the polymerase chyain reaction. J. Am. Mosq. Control Assoc., 8: 333-335
174. Huke, R. 1991. World rice statistics. International Rice Research Institute, Manila, The Philippines.
175. Huse, W. D., Sastry, L., Iverson, S. A. et al. 1989. Generation of a large combinatorial library of the immunolobulin repertorire in phage lambda. Science, 246: 1275-1281
176. Jacobi, V., Castello, J. D. 1991. Isolation of tomato mosaic virus from waters draining forest stands in Neo York state. Phytopathol., 31 (10) : 1112-1117
177. James, H. G. 1961. Some predators of Aedes stimulant and Aedes trichurus in woodland pools. Can. J. Zool., 39: 533-540
178. Jenkins, D. W. 1963. Use of radionuclides in ecological studies of insects. In Schultz V and Klement A W (eds), Radioecology. Reinhold. New York. 431-440
179. Jone, M. G. 1979. Abundance of aphids on cereals from before 1973-1977. J. Appl. Ecol., 16: 1-22
180. Kelly, D. C., Edwards, M. L., Evans, H. F. et al. 1978. The use of the enzyme-linked immunosorbent assay to detect a nuclear polygedrosis virus in Heliothis armigera larvae. J. General Virol., 40:465-469
181. Kenmore, P. E., Carino, F. O., Perez, G. A. et al. 1984. Population regulation of the rice briwn planthopper (Nilaparvata lugens Stal) with rice fields in the Philippines. J. Plant Protect. Tropics, 1: 19-38
182. Kenmore, P. E., Carino, F. O., Perez, G. A. et al. 1991. Getting policies right, keeping policies
right: Indonesia's integrated pest management policy, production, and environment. In Asia and Private Enterprise Bureau Environment and Agriculture Officers' Conference. Colombo, Sri Lanka. U.S. Agency for International Development, Washington DC. 1-5
183. Kiritani, K. et al. 1972. Quantitative evaluation of predation by spiders on the green rice leafhopper. Nephotettix cincticeps, by a sign-count method. Res. Popul. Ecol., 13: 187-200
184. Kohler, G., Milstein, C. 1975. Continuous cultures of fused cells secreting antibody of predefined specificity. Nature, 256: 495-497
185. Kuno, E. 1979. Ecology of the brown planthopper in temperate region. In Brown Planthopper: Threat to Rice Brown Production in Asia. IRRI, Los Banos, Philippines. 45-60
186. Kuperstein, M. L. 1979. Estimating carabid effectiveness in reducing the Sunnpest, Eurygaster integriceps Puton (Heteroptera: Scutelleridae) in the U.S.S.R. Entomol. Soc. Am. Miscell. Pub., 11: 80-84
187. Lawruk, T. S., gueco, A. M., Jourdan, S. W. et al. 1995. Determination of chlorothalonil in water and Agricultural products by a magnetic particle-based enzyme immunoassay. J. Agric. Food Chem.,43: 1413-1417
188. Lenz, C. J., Greenstone, M. H. 1988. Production of a monclonal antibody to the arylphorin of Heliothis zea. Arch. Insect Biochem. Physiol., 9: 167-177
189. Lesiewicz, D. S., Lesiewicz, J. L., Bradley, J. R. et al. 1982. Serological determination of carabid (Coleoptera, A dephaga) predation of corn earworm (Lepidoptera: Noctuidae) in field corn. Environ. Entomol., 11:1183-1186
190. Liddell, J. E., Symondson, W. O. C. 1996. The potential of combinatorial antibody libraries in pest-predator relationship studies. In Symondson, W. O. C., Liddell, J. E. (eds.), The Ecology of Agricultural Pests: Biochemical Approaches. Chapman and Hall, London. 347-366
191. Lister, A., Usher, M. B., Block, W. 1987. Description and quantification of field attack rates by predatory mites: an example using an electrophoresis method with a species of Antarctic mite, Oecologia, 72: 185-191
192. Littlefield, J. M. 1964. Selection of hybrids from matings of fused cell secreting antibody of presumed recombinants. Science, 145: 709-710
193. Lovei, G. L., Monostori, E., Ando, I. 1985. Digestion rate in relation to starvation in the larva of a carabid predator Poecilus cupreus. Entomol. Exp. Appl., 37:123-127
194. L5vei, G. L., Sopp, P. I., Sunderland, K. D. 1990. Digestion rate in relation to alterative feeding in three species of polyphagous predators. Ecol. Entomol., 15:293-300
195. Loxdale, H. D., Castanera, P., Brookes, C. P. 1983. Electrophoretic study of enzymes from cereal aphid populations. I Electorphoretic techniprus and staining systems for characterizing isoenzymes from six species of cereal aphid (Hemiptera: Aphididae). Bull. Entomol. Res., 73: 645-657
196. Lucas, E., Coderre, D., Brodeur, J. 1997. Instar-specific defense of Coleomegilla maculata Lengi (Col.: Coccinellidae): Influence on attack success of the intraguild predator Chrysoperla rufilabris (Neur.: Chrysopidae). Entomophaga, 42 (1/2) : 3-12
197. Lucas, E., Coderre, D., Brodeur, J. 1998. Intraguild predation among aphid predators: Charcterization and influence of extraguild prey density. Ecology, 79 (3) : 1084-1092
198. Luck, R. F, Shepard, B. M., Kenmore, P. E. 1988. Experimental methods for evaluating arthropod natural enemies. Ann. Rev. Entomol,, 33: 367-391
199. Luff, M. L. The potential of predators for pest control. Agri. Ecos. Environ., 1983, 10: 59-181
200. Lund, R. D., Turpin, F. T. 1977. Serological investigations of black cutworm larval consumption by ground beetles. Ann. Entomol. Soc. Am., 70: 322-324
201. MaCafferty, J. Andrew, D. G., Grey, W. 1990. Phage antibodies: filamentous phage displaying antibody variable domains. Nature, 348: 552-554
202. Malcox, M., Brower, D. L., Smith, R. J. 1981. A position-specific cell surface antigen in the Drosophila wing imaginal disc. Cell, 25:159-164
203. McAdam, D. P., Hill, A. S., Beasley, H. L. et al. 1992. Monoclonal and polyclonal antibodies to the organophosphate fenitrithion. 2. Antibody specificity and assay performance. J. Agric. Food Chem.,40: 1471-1474
204. McCarty, M. T., Shepard, M., Turnipseed, S. G. 1980. Identification of predaceous arthropods in soybeans by using autoradiography. Environ. Entomol., 9: 199-203
205. McDaniel, S. G., Sterling, W. L. 1979. Predator determination and efficacy on Heliothis eggs in east Texas cotton using P32. Environ. Entomol., 8: 1083-1087
206. Mclver, I. D. 1981. An examination of the unity of the precipitin test for evaluation of arthropod predator-prey relationship. Can. Entomol., 113: 213-222
207. Menken, S. B. J., Ulenberg, S. A. 1986. Allozymatic diagnosis of four economically important Liriomyza species (Diptera: Agromyzidae). Ann. Appl. Biol., 109: 41-47
208. Miller, M. C. 1979. Serology in insect predator-prey studies. Entomol. Soc. Am. Miscellaneous Publication, 11:1-84
209. Miller, M. C. 1981. Evaluation of enzyme-linked immunosorbent assay of narrow-and broad-spectrum anti-adult Southern pine beetle serum. Ann. Entomol. Soc. Am., 74: 279-282
210. Mills, N. 1997. Techniques to evaluate the efficacy of natural enemies. In Dent D R, Walton M P (eds.), Methods in ecological and Agricultural Entomology. CAB International, Wallingford. 271-291
211. Morris, R. F., Miller, C. A. 1954. The development of life tables for the spruce budworm. Can. J. Zool.,32:283-310
212. Murray, R. A., Solomon, M. G. 1978. A rapid technique for analyzing diets of invertebrate predators by eletrophoresis. Ann. Appl. Biol., 90: 7-10
213. Nakamura, M., Nakamura, K. 1977. Population dynamics of the chestnut gall wasp (Cynipidae, Hym.). 5. Estimation of the effect of predation by spiders on the mortality of imaginal wasps based of the precipitin test. Oecologia, 27: 97-116
214. Naranjo, S. E., Hagler, J. R. 2001. Toward the quantification of predation with predator gut immunoassays: A new approach integrating functional response behavior. Biol. Control, 20:
175-189
215. Nateshan, H. M., Muniyappa, V., Swanson, M. M. et al. 1996. Host range, vector relations and serological relationships of cotton leaf virus from southern India. Ann. Appl. Biol., 128(2) : 233-244
216. Nyffeler, M. 1982. Field studies on the ecological role of the spiders as insect predators in agroecosystems (abandoned grassland, meadows and cereal fields). Thesis (ETH. 7097) , Swiss Federal Institute of Technology, Zurich.
217. Oerke, E. C. et al. 1994. Crop production and crop protection: estimated losses in major food and cash crops. Elsevier Science, 830
218. Oien, C. T., Ragsdale, D. W. 1993. Susceptibility of nontarget hosts to Nosema furnacalis (Microsporida: Nosematidae), a potential biological control agent of the European Corn Borer, Ostrinia nubilalis (Lepidoptera: Pyralidae). Biol. Control., 3: 323-328
219. Ooi, P. A. C. 1991. Recommendations of the conference: IPM action plans. In Ooi P A C, Lim G S, and Ho T H et al. Intergrated pest management in the Asia-Pacific region. CAB International, Kuala Lumpur, Malaysia. 399-400
220. Orphanides, G., Gonzales, D., Bartlett, B. R. 1971. Identification and evaluation of pink bollworm predators in southern California. J. Econ. Entomol., 64: 421-424
221. Pendleton, R. C., Grundmann, A. W. 1954. Use of 32P in tracing some insect-plant relationships of the thistle, Cirsium undulatum. Ecology, 35: 187-191
222. Perfect, T. J., Cook, A. G. 1994. Rice planthopper population dynamics: A comparison between temperate and tropical regions. In Denno, R. F., Perfect, T. J. (eds.), Planthoppers: Their Ecology and Management, Chapman and Hall, New York/London. 282-301
223. Phillipson, J. 1960. The food consumption of different instars of Mitopus mono (F.) (Phalangida) under natural conditions. J. Animal Ecol., 29: 299-307
224. Pimental, D. 1986. Agroecology and economics. In Morgan M (ed). Ecological theory and integrated pest management practice. New York: Wiley. 299-319
225. Pinto, A. D. S., Land, D. M., Britto, C. et al. 2000, Experimental Trypanosoma cruzi biclonal infection in Triatoma infecstans: detection of distinct clonal genotypes using kinetioplast DNA probes. Inter. J. Paras., 30: 843-848
226. Pointing, P. J. 1966. A quantitative field study of predatory behaviour by the sheet-web spider Frontinella communis on European pine shoot moth adults. Can. J. Zool., 44: 256-273
227. Polis, G. A., Holt, R. D, 1992. Intraguild predation: the dynamics of complex trophic interactions. Tree, 7(5) : 151-155
228. Putman, W. L. 1965. Paper chromatography to detect predation on mites. Can. Entomol., 97: 439-441
229. Quant, R. L., Pearson, M. N., Rohrmann, G. F. et al. 1984. Production of polyhedrin monoclonal antibodies for distinguishing two Orgyia pseudotsugata baculoviruses. Appl. Environ. Microbiol., 48(4) : 732-736
230. Riechert, S. E. 1974. Thoughts on the ecological significance of spiders. Bioscience, 24: 352-356
231. Robert, P. L., Naser, W. 1982. Characterization of monoclonal antibodies to the Autographa californica nuclear polyhedrosis virus. Virology, 122:424-430
232. Rothschild, G. 1966. A study of a natural population of Conomelus anceps Gemar (Homoptera: Delphacidae) including observations on predation using the precipitin test, J. Anim. Ecol., 35: 413-434
233. Sandness, J. N., McMurtry, J. A. 1970. Functional response of three species of Phytoseiidae (Acarina) to prey density. Can. Entomol., 102: 692-704
234. Schmidt, D. J., Ckarkson, C. E., Swanson, T. A. et al. 1990. Monoclonal antibodies for immunoassay of avermectins. J. Agric. Food Chem., 38: 1763-1770
235. Sen, S. N., Cibulsky, R. J., Trowell, S. C. et al. 1997. Development of Heliothis antibodies for the LepTon R HTK insect diagnostic test kit. 1997 Proceedings Beltwide Cotton Conferences, New Orleans, LA, USA, January 6-10. 2: 883-884
236. Service, M. W. 1973. Mortalities of the larvae of the Anopheles gambiae Giles complex and detection of predators by the precipitin test. Bull, Entomol. Res., 62: 359-369
237. Settle, W. H., Ariawan, H., Astuti, E. T. el al. 1996. Managing tropical rice pests through conservation of generalist natural enemies and alternative prey. Ecology, 77(7) : 1975-1988
238. Shamim, M., Baig, M., Nataraju, B. et al. 1995. Evaluation of protein-A linked monoclonal antibody latex agglutination test for diagnosis of nuclear polyhedrosis virus (BmNPV) of silkworm Bombyx mori L. J. Immunoassay, 16(2) : 155-166
239. Sigsgaard, L. 1996. Serological analysis of predators of Halicoverpa armigera Hubner (Lepidoptera: Noctuidae) eggs in sorghum-pigeonpea intercropping at ICRISAT, India: a preliminary field study. In Symondson, W. O. C., Liddell, J, E. (eds.), The Ecology of Agricultural Pests. London: Chapman and Hall. 367-381
240. Solomon, M. G., Murray, R. A., Van Der Geest. 1985. Analysis of prey by means of electrophoresis. In spider Mites. Their Biology, Natrual Enemies and Control, 171-173
241. Sopp, P. I., Sunderland, K. D.1989. Some factors affecting the detection period of apgid remains in predators using ELISA. Entomol. Exp. Appl., 51: 11-20
242. Sopp, P. I., Sunderland, K. D., Felon, J. S. et al. 1992. An improved quantitative method for estimating invertebrate predation in the field using an ELISA. J. Appl. Ecol., 29: 295-302
243. Southwood, T. R. E. 1978. Ecological Methods. Chapman and Hall, London. 524
244. Stevens, M., Smith, H. G., Hallsworth, P. B. 1995. Detection of the luteoviruses, beet mild yellowing virus and beet western yellows virus, in aphids caught in sugar-beet and oilseed rape crops, 1990-1993. Ann. Appl. Biol., 127(2) : 309-320
245. Stimmann, M. W. 1974. Marking insects with rubidium: imported cabbage worm marked in the field. Environ. Entomol., 3: 327-328
246. Stuart, M. K., Barak, A. V., Burkholder, W. E. 1994. Immunological identification of Trogoderma granarium Everts (Coleoptera: Dermestidae). J. Stored Prod. Res., 30(1) : 9-16
247. Stuart, M. K., Burkholder, W. E. 1991. Monoclonal antibodies specific for Laelius pedatus (Bethylidae) and Bracon hebetor (Braconedae), two hymenopteran parasitoids of stored-products pests. Biol. Control, 1(4) : 302-308
248. Stuart, M. K., Greenstone, M. H. 1990. Beyond ELISA: a rapid, sensitive,specific immunodot assay for identification of predator stomach contents. Ann. Entomol. Soc. Am., 83(6) : 1101-1107
249. Stuart, M. K., Greenstone, M. H. 1996. Serological diagnosis of Parasitism: a monoclonal antibody-based immunodot assay for Microplitis croceipes (Hymenoptera: Braconidae). In: Symondson, W. O. C., Liddell, J. E. (eds.), The Ecology of Agricultural pests: Biochemical Spproachs. London: Chapman and Hall. 301-321
250. Stuart, M. K., Greenstone, M. H. 1997. Immunological detection of hymenopteran parasitism in Helicoverpa Zea and Heliothis virescens. Biol. Control., 8:197-202
251. Sunderland, K. D. 1977. The population dynamics of Philoscia muscorum (Crustaxea, Oniscoidea) in a dune grassland ecosystem with a serological investigation of mortality due to predation. Ph.D. thesis, Univ. Leeds
252. Sunderland, K. D. 1987. A review of methods of quantifying invertebrate predation occurring in the field. Acta Phytopathologia et Entomlologia Hungarica, 22: 13-34
253. Sunderland, K. D. 1988. Quantitative methods for detecting invertebrate predation occurring in the field. Ann. Appl. Biol., 112: 201-224
254. Sunderland, K. D. 1996. Progress in quantifying predation using antibody techniques. In Symondson, W. O. C., Liddell, T. E. (eds.), the Ecology of Agricultural Pests: Biochemical Approaches, Chapman and Hall, London. 419-455
255. Sunderland, K. D. et al. 1994. The effects of polyphagous predators on spiders and mites in cereal field. Proceedings BCPC Conference, Pests and Disease. 1151-1156
256. Sunderland, K. D., Crook, N. E., Stacey, D. L. et al. 1987. A study of feeding by polyphagous predatory on cereals aphids using ELISA and gut dissection. J. Appl. Ecol., 24: 907-933
257. Sunderland, K. D., Sutton, S. L. 1980. A serological study of arthropod predation on woodlice in a dune grassland ecosystem. J. Appl. Ecol., 49: 987-1004
258. Symodson, W. O. C., Erickson, M. L., Liddell, J. E. 1997. Species-specific detection of predation by Coleoptera on the milacid slug Tandonia budapestensis (Mollusca, Pulmonata). Biocontrol Sci. Tech., 7: 457-465
259. Symondson, W. O. C., Erickson, M. L., Liddell, J. E. 1999a. Development of a monoclonal antibody for the detection and quantification of predation on sulgs within the Arion hortensis egg (Mollusca: Pulmonata). Biol. Control, 16: 274-282
260. Symondson, W. O. C., Erickson, M. L., Liddell, J. E. et al. 1999b. Amplified detection, using an monoclonal antibody, of an aphid specific epitope exposed during digestion in the gut of a predator. Insect Biochem. Mol. Biol., 29: 873-882
261. Symondson, W. O. C., Glen, D. M., Erickson, M. L. et al. 2000. Do earthworms help to sustain the slug predator Pterostichus melanarius (Coloptera: Carabidae) within crops? Investigations using
monoclonal antibodies. Mol. Ecol., 9: 1279-1292
262. Symondson, W. O. C., Glen, D. M., Wiltshire, C. W. et al. 1996. Effect of cultivation techniques and methods of straw disposal on predation by Pterostichus melanarius (Coleoptera: Carabidae) upon slugs (Gastropoda: Pulmonata) in an arable field. J. Appl. Ecol., 33: 741-753
263. Symondson, W. O. C., Hemingway, J. 1997. Biochemical and molecular techniques. In Dent, D. R., Walton, M. P. (eds.), Methods in Ecological and Agricultural Entomology (CAB International, Oxford). 293-350
264. Symondson, W. O. C., Liddell, J. E. 1993a. A monoclonal antibody for the detection of arionid slug remains in carabid predators. Biol. Control, 3: 207-214
265. Symondson, W. O. C., Liddell, J. E. 1993b. Differential antigen decay rates during digestion of molluscan prey by carabid predators. Entomol. Exp. Appl., 69: 277-287
266. Symondson, W. O. C., Liddell, J. E. 1995. Decay rates for slug antigens within the carabid predator Pterostichus melanarius monitored with a monoclonal antibody. Entomol. Exp. Appl., 75: 245-250
267. Symondson, W. O. C., Liddell, J. E. 1996. A species-specific monoclonal antibody system for detecting the remains of Field Slugs, Deroceras reticulalum (Muller)(Mollusca: Pulmonata), in carabid beetles (Coleoptera: Carabidae). Biocontr. Sci. Tech., 6: 91-99
268. Thresh, J. M., Adams, A. N., Barbara, D. J. et al. 1977. The detection of three viruses of hop (Humulus lupulus) by enzyme-linked immunosorbent assay. Ann, Appl. Biol., 87: 57-65
269. Titova, E. V. 1970. Use of precipitin test in a study of inter-relationships between Eurygaster integriceps Put. (Heteroptera: Scutelleridae) and predatory arthropods. Entomol. Rev., 49: 155-162
270. Tobolewski, J. et al. 1992. Detection and indentification of mammalian DNA from the gut of museum specimens of ticks. J. Med. Entomol, 29: 1949-1052
271. Tod, M. E. 1973. Notes on beetle predators of mollusks. Entomolgist, 106: 196-201
272. van der Fliert E. 1993. Integrated pest management: farmer field schools generate sustainable practices. Agricultural University Wageningen, Wageningen, The Netherlands.
273. Van, E. J. M. et al. 1990. Immunochemical Methods for Environmental Analysis. Washington D C. American Chemical Society.
274. Vanderlan, M. et al. 1991. Immunoassays for Trace Chemincal Analysis: monitoring toxic Chemials im humans, food, and the environment. Washington D C. American Chemial Society.
275. Vickerman, G. P., Sunderland, K. D. 1975. Arthropods in cereal crops: nocturnal activity, vertical distribution and aphid predation, J. Appl. Ecol., 12: 755-766
276. Vodkin, M. H. et al. 1995. PCR-based detection of arboviral RNA from mosquitoes homogenized in detergent. Biotechniques, 17:114-116
277. Volkman, L. E., Falcon, L. A. 1982. Use of monoclonal antibody in an enzyme-linked immunosorbent assay to detect the presence of Trichoplusis ni (Lepidoptera: Noctuidae)'s nuclear polyhedrosis virus polyhedrin in T. ni larvae. J. Econ. Entomol., 75(5) : 868-871
278. Wagner, J. D., Wise, D. H. 1997. Influence of prey availability and conspecifics on patch quality
for a cannibalistic forager: laboratory experiments with the wolf spider Schizocosa. Oecologia, 109: 474-482
279. Walton, M. P., Powell, W., Lokdale, H. D. et al, 1990. Electrophoresis as a tool for estimation levels of hymenpterous parasitism in field populations of the cereal aphid, Sitobion avenae. Entomol. Exp. Appl., 54: 271-279
280. Ward, E. S., Detef, G., Andrew, D. G. et al. 1989. Binding activities of a repertoire of single Ig variable domains secreted from Escherichia coli. Nature, 341: 544-546
281. Wardhani, M. A. 1992. Developments in 1PM: the Indonesian case. In Ooi, P. A. C., Lim, G. S., and Ho, T. H. et al. Intergrated pest management in the Asia-Pacific region. CAB International, Kuala Lumpur, Malaysia. 27-35
282. Weitz, B. 1952. The antigenicity of sera of man and animals in relation to the preparation of specific precipitating antisera. J. Hygiene Cambridge, 50: 275-294
283. West, A. S. 1950. The precipitin test as an entomological tool. Can. Entomol., 82 241-244
284. Whalon, M. E., Parker, B. L. 1978. Immunological identification of tarnished plant bug predators. Ann. Entomol. Soc. Am., 71: 453-456
285. Wheeler, A. G. 1974. Studies on the arthropod fauna of alfalfa: VI. Plant bugs (Miridae). Can. Entomol., 106:1267-1275
286. White, C., Eigenbrode, S. D. 2000. Leaf surface waxbloom in Pisum sativum influences predation and intra-guild interactions involving two predator species. Oecologia, 124: 252-259
287. Whitten, M. J., Oakeshott, J. G. 1991. Opportunities for modern biotechnology in control of insect pests and weeds, with special reference to developing countries. FAO Plant Protect. Bull., 39(4) : 155-181
288. Whitten, M. J., Oakshott, J. G. 1990. Biocontrol of insects and weeds. Agri. Biotech., 2: 123-142
289. Wilson, E. O. 1990. First word. Omni. 12: 6
290. Winder, L., Hirst, D. J., Carter, N. et al. 1994. Estimating predation of the grain aphid Sitobion avenae by Poly phagous predators. J. Appl. Ecol., 31: 1-12
291. Woodburn, A. T. 1990. The current rice agrochemical market. In Grayson, B. T., Green, M. B., Copping, L. B. (eds.), Pest Management in Rice. Proceedings of the Conference on Pest Management in Rice, London, England, 4-7 June 1990. Elsevier Applied Science, London, England. 15-30
292. Wratten, S. D., Bryan, K., Coombes, D. et al. 1984. Evaluation of polyphagous predators of aphids in arable crops. Proc. British Crop Protect. Council, 271-276
293. Yong, S. Y., Kring, T. J. 1991. Selection of healthy and nuclear polyhedrosis virus infected Anticarsia gemmatalis Hubner (Lepidopera: Noctuidae) as prey by nymphal Nabis roseipennis Reuter (Hemiptera: Nabidae) in laboratory and on soybean. Entomophaga, 36: 265-273
294. Young, O. P. 1989. The utilization of dead insects on the soil surface in row crop situations. Environ. Entomol., 100: 43-47