国际捕食螨研发与应用的热点问题及启示

徐学农 已出版文章查询
徐学农
本平台内已出版文章查询
xnxu@ippcaas.cn
1 吕佳乐 已出版文章查询
吕佳乐
本平台内已出版文章查询
1 王恩东 已出版文章查询
王恩东
本平台内已出版文章查询
1

+ 作者地址

1农业部作物有害生物综合治理综合性重点实验室/中国农业科学院植物保护研究所,北京 100193


0
  • 摘要
  • 参考文献
  • 相关文章
  • 统计
本文对国际上有关捕食螨研究与应用的几个热点问题,包括品种筛选、与植物及害虫互作、农药对捕食螨的影响、规模化生产及田间释放与应用等进行综述,为国内捕食螨的研发提供参考,同时,也提出今后国内捕食螨研究与应用应关注的几个方面.

[1] 忻介六 .[J].生物防治通报,1985,1(01):40-43.

[2] Furtado IP;de Moraes GJ;Kreiter S;Knapp M .Search for effective natural enemies of Tetranychus evansi in south and southeast Brazil[J].Experimental & applied acarology,2006(3/4):157-174.

[3] Furtado I P;Moraes G J de;Kreiter S;Tixier M S;Knapp M .Potential of a Brazilian population of the predatory mite Phytoseiulus longipes as a biological control agent of Tetranychus evansi (Acari: Phytoseiidae, Tetranychidae).[J].Biological Control: Theory and Application in Pest Management,2007(2):139-147.

[4] Furtado IP;Toledo S;de Moraes GJ;Kreiter S;Knapp M .Search for effective natural enemies of Tetranychus evansi (Acari: Tetranychidae) in northwest Argentina[J].Experimental & applied acarology,2007(2):121-127.

[5] Escudero, LA;Ferragut, F .Life-history of predatory mites Neoseiulus californicus and Phytoseiulus persimilis (Acari : Phytoseiidae) on four spider mite species as prey, with special reference to Tetranychus evansi (Acari : Tetranychidae)[J].Biological Control,2005(3):378-384.

[6] de Vasconcelos G J N;de Moraes G J;Delalibera J I;Knapp M .[J].Experimental and Applied Acarology,2013,44:24-36.

[7] Koller M.;Knapp M.;Schausberger P. .Direct and indirect adverse effects of tomato on the predatory mite Neoseiulus californicus feeding on the spider mite Tetranychus evansi[J].Entomologia Experimentalis et Applicata,2007(3):297-305.

[8] Ferrero M;de Moraes G J;Kreiter S et al.[J].Experimental and Applied Acarology,2007,41:45-53.

[9] Ferrero, M.;Calvo, F. J.;Atuahiva, T.;Tixier, M-S.;Kreiter, S. . .Biological control of Tetranychus evansi Baker & Pritchard and Tetranychus urticae Koch by Phytoseiulus longipes Evans in tomato greenhouses in Spain [Acari: Tetranychidae, Phytoseiidae][J].Biological Control: Theory and Application in Pest Management,2011(1):30-35.

[10] van Maanen R;Vila E;Sabelis M W et al.[J].Experimental and Applied Acarology,2010,52:29-34.

[11] Morell H R;Miranda I;Ramos M et al.[J].International Journal of Acarology,2010,36(05):371-376.

[12] Sarmento R A;Rodrigues D M;Faraji F et al.[J].Experimental and Applied Acarology,2011,53:203-214.

[13] Nomikou M;Janssen A;Schraag R;Sabelis MW .Phytoseiid predators as potential biological control agents for Bemisiatabaci[J].Experimental & applied acarology,2001(4):271-291.

[14] Nomikou M;Janssen A;Schraag R;Sabelis MW .Phytoseiid predators suppress populations of Bemisia tabaci on cucumber plants with alternative food[J].Experimental & applied acarology,2002(1/2):57-68.

[15] Messelink GJ;Van Steenpaal SEF;Ramakers PMJ .Evaluation of phytoseiid predators for control of western flower thrips on greenhouse cucumber[J].BioControl: Journal of the International Organization for Biological Control,2006(6):753-768.

[16] Arthurs S;McKenzie C L;Chen J J et al.[J].Biological control,2009,49:91-96.

[17] Steiner MY;Goodwin S;Wellham TM;Barchia IM;Spohr LJ .Biological studies of the Australian predatory mite Typhlodromips montdorensis (Schicha) (Acari : Phytoseiidae), a potential biocontrol agent for western flower thrips, Frankliniella occidentalis (Pergande) (Thysanoptera : Thripidae)[J].Australian Journal of Entomology,2003(2):124-130.

[18] Chen, TY;French, JV;Liu, TX;Da Graca, JV .Predation of Galendromus helveolus (Acari : Phytoseiidae) on Brevipalpus californicus (Acari : Tenuipalpidae)[J].Biocontrol Science and Technology,2006(7):753-759.

[19] Lawson-Balagbo LM;Gondim MG Jr;de Moraes GJ;Hanna R;Schausberger P .Life history of the predatory mites Neoseiulus paspalivorus and Proctolaelaps bickleyi, candidates for biological control of Aceria guerreronis[J].Experimental & applied acarology,2007(1):49-61.

[20] Abad-Moyano R;Pina T;Ferragut F et al.[J].Experimental and Applied Acarology,2009,47:121-132.

[21] Oliveira H;Janssen A;Pallini A;Venzon M;Fadini M;Duarte V .A phytoseiid predator from the tropics as potential biological control agent for the spider mite Tetranychus urticae Koch (Acari: Tetranychidae).[J].Biological Control: Theory and Application in Pest Management,2007(2):105-109.

[22] Carrillo D;Pen?J E;Hoy M A,Frank J H .[J].Experimental and Applied Acarology,2010,52:119-129.

[23] Duso, C.;Fanti, M.;Pozzebon, A.;Angeli, G. .Is the predatory mite <i>Kampimodromus aberrans</i> a candidate for the control of phytophagous mites in European apple orchards?[J].BioControl,2009(3):369-382.

[24] Xiao Y F;Fadamiro H Y .[J].Biological Control,2010,53(03):345-352.

[25] Farazmand, A.;Fathipour, Y.;Kamali, K. .Functional response and mutual interference of <i>Neoseiulus californicus</i> and <i>Typhlodromus bagdasarjani</i> (Acari: Phytoseiidae) on <i>Tetranychus urticae</i> (Acari: Tetranychidae).[J].International Journal of Acarology,2012(5):369-378.

[26] Fantinou, A. A.;Baxevani, A.;Drizou, F.;Labropoulos, P.;Perdikis, D.;Papadoulis, G. .Consumption rate, functional response and preference of the predaceous mite Iphiseius degenerans to Tetranychus urticae and Eutetranychus orientalis.[J].Experimental & applied acarology,2012(2):133-144.

[27] Ali M P;Naif AA;Huang D C .[J].Journalof Insect Science,2011,11:167.

[28] Kasap I;Atlihan R .[J].Experimental and Applied Acarology,2011,53:253-261.

[29] Madadi, H.;Enkegaard, A.;Brodsgaard, H.F.;Kharrazi-Pakdel, A.;Mohaghegh, J.;Ashouri, A. .Host plant effects on the functional response of Neoseiulus cucumeris to onion thrips larvae[J].Journal of Applied Entomology,2007(9/10):728-733.

[30] Badii, M H;Hernandez Ortiz, E;Flores, A E;Landeros, J .Prey stage preference and functional response of Euseius hibisci to Tetranychus urticae (Acari: Phytoseiidae, Tetranychidae).[J].Experimental & applied acarology,2004(3/4):263-273.

[31] Skirvin DJ;Fenlon JS .Plant species modifies the functional response of Phytoseiulus persimilis(Acari : Phytoseiidae) to Tetranychus urticae (Acari : Tetranychidae):implications for biological control[J].Bulletin of entomological research,2001(1):61-67.

[32] Cédola C V;Sánchez N E;Liljesthr?m G G .[J].Experimental and Applied Acarology,2001,25:819-831.

[33] Koveos D S;Broufas G D .[J].Experimental and Applied Acarology,2000,24:247-256.

[34] Skirvin D J;Fenlon J S .[J].Experimental and Applied Acarology,2003,31:37-49.

[35] Xue Y;Meats A;Beattie G A C et al.[J].Experimental and Applied Acarology,2009,48:291-302.

[36] Poletti M;Maia AHN;Omoto C .Toxicity of neonicotinoid insecticides to Neoseiulus californicus and Phytoseiulus macropilis (Acari : Phytoseiidae) and their impact on functional response to Tetranychus urticae (Acari : Tetranychidae)[J].Biological Control: Theory and Application in Pest Management,2007(1):30-36.

[37] Lester PJ;Harmsen R .Functional and numerical responses do not always indicate the most effective predator for biological control: an analysis of two predators in a two-prey system[J].The Journal of Applied Ecology,2002(3):455-468.

[38] Gaede K .[J].Experimental and Applied Acarology,1992,15:181-198.

[39] Ferrero, M.;Gigot, C.;Tixier, M. -S.;van Houten, Y. M.;Kreiter, S. .Egg hatching response to a range of air humidities for six species of predatory mites[J].Entomologia Experimentalis et Applicata,2010(3):237-244.

[40] de Vis R M J;de Moraes G J;Bellini M R .[J].Experimental and Applied Acarology,2006,38:25-32.

[41] Weintraub P.;Palevsky E. .Evaluation of the predatory mite, Neoseiulus californicus, for spider mite control on greenhouse sweet pepper under hot arid field conditions[J].Experimental & applied acarology,2008(1/2):29-37.

[42] Drukker B;Janssen A;Ravensberg W;Sabelis MW .Improved control capacity of the mite predator Phytoseiulus persimilis (Acari: Phytoseiidae) on tomato.[J].Experimental & applied acarology,1997(6/7):507-518.

[43] Castagnoli M;Simoni S .Effect of long-term feeding history on functional and numerical response of Neoseiulus californicus (Acari: Phytoseiidae).[J].Experimental & applied acarology,1999(3):217-234.

[44] Collier K F S;Albuquerque G S;de Lima J O G et al.[J].Experimental and Applied Acarology,2007,41:27-36.

[45] van Rijn P C J;Tanigoshi L K .[J].Experimental and Applied Acarology,1999,23:281-296.

[46] Addison JA;Hardman JM;Walde SJ .Pollen availability for predaceous mites on apple: spatial and temporal heterogeneity.[J].Experimental & applied acarology,2000(1):1-18.

[47] Duso C;Malagnini V;Pagagelli A et al.[J].BioControl,2004,49:397-415.

[48] Nomikou M;Sabelis M W;Janssen A .[J].BIOCONTROL,2010,55:253-260.

[49] English-Loeb G;Norton AP;Walker MA .Behavioral and population consequences of acarodomatia in grapes on phytoseiid mites (Mesostigmata) and implications for plant breeding[J].Entomologia Experimentalis et Applicata,2002(2/3):307-319.

[50] Matos, C H C;Pallini, A;Chaves, F F;Schoereder, J H;Janssen, A .Do domatia mediate mutualistic interactions between coffee plants and predatory mites?[J].Entomologia Experimentalis et Applicata,2006(3):185-192.

[51] Krips OE;Kleijn PW;Willems PEL;Gols GJZ;Dicke M .Leaf hairs influence searching efficiency and predation rate of the predatory mite Phytoseiulus persimilis (Acari: Phytoseiidae).[J].Experimental & applied acarology,1999(2):119-131.

[52] Duso C.;Pasini M.;Pellegrini M. .Distribution of the predatory mite Typhlodromus pyri (Acari : Phytoseiidae) on different apple cultivars[J].Biocontrol Science and Technology,2003(7):671-681.

[53] Loughner, R.;Wentworth, K.;Loeb, G.;Nyrop, J. .Leaf trichomes influence predatory mite densities through dispersal behavior[J].Entomologia Experimentalis et Applicata,2010(1):78-88.

[54] Sato, M. M.;Moraes, G. J. de;Haddad, M. L.;Wekesa, V. W. .Effect of trichomes on the predation of <i>Tetranychus urticae</i> (Acari: Tetranychidae) by <i>Phytoseiulus macropilis</i> (Acari: Phytoseiidae) on tomato, and the interference of webbing.[J].Experimental & applied acarology,2011(1):21-32.

[55] Duso C;Vettorazzo E .Mite population dynamics on different grape varieties with or without phytoseiids released (Acari: Phytoseiidae)[J].Experimental & applied acarology,1999(9):741-763.

[56] Sengonca C;Khan IA;Blaeser P .The predatory mite Typhlodromus pyri (Acari : Phytoseiidae) causes feeding scars on leaves and fruits of apple[J].Experimental & applied acarology,2004(1/2):45-53.

[57] Magalh?es S;Bakker F M .[J].Experimental and Applied Acarology,2002,27:27-37.

[58] Kroon, A;Veenendaal, R L;Egas, M;Bruin, J;Sabelis, M W .Diapause incidence in the two-spotted spider mite increases due to predator presence, not due to selective predation.[J].Experimental & applied acarology,2005(1/2):73-81.

[59] Meng RX;Janssen A;Nomikou M;Zhang QW;Sabelis MW .Previous and present diets of mite predators affect antipredator behaviour of whitefly prey[J].Experimental & applied acarology,2006(2/3):113-124.

[60] Lemos F;Sarmento R A;Pallini A et al.[J].Experimental and Applied Acarology,2010,52:1-10.

[61] Choh Y;Uefune M;Takabayashi J .[J].Experimental and Applied Acarology,2010,50:1-8.

[62] Choh Y;Takabayashi J .[J].Journal of Chemical Ecology,2010,36:614-619.

[63] Krantz G W;Walter D E.A manual of Acarology[M].Texas:Tech University Press,2009

[64] van Wijk M;Wadman WJ;Sabelis MW .Morphology of the olfactory system in the predatory mite Phytoseiulus Persimilis[J].Experimental & applied acarology,2006(3/4):217-229.

[65] Dicke M;Takabayashi J;Posthumus MA;Schutte C;Krips OE .Plant-phytoseiid interactions mediated by herbivore-induced plant volatiles: variation in production of cues and in responses of predatory mites.[J].Experimental & applied acarology,1998(6):311-333.

[66] Janssen A .Plants with spider-mite prey attract more predatory mites than clean plants under greenhouse conditions.[J].Entomologia Experimentalis et Applicata,1999(2):191-198.

[67] Mayland H;Margolies D C;Charlton R E .[J].Entomologia Experimentalis et Applicata,2000,96:245-252.

[68] Llusià J;Pe?uelas J .[J].Experimental and Applied Acarology,2001,25:65-77.

[69] Melo J W S;Lima D B;Pallini A et al.[J].Experimental and Applied Acarology,2011,55:191-202.

[70] Shinmen T;Yano S;Osakabe M .[J].Experimental and Applied Acarology,2010,52:111-118.

[71] Maeda T.;Takabayashi J.;Yano S.;Takafuji A. .Effects of light on the tritrophic interaction between kidney bean plants,two-spotted spider mites and predatory mites, Amblyseius womersleyi (Acari: Phytoseiidae)[J].Experimental & applied acarology,2000(5/6):415-425.

[72] Kappers I F;Hoogerbrugge H;Bouwmeester H J et al.[J].Journal of Evolutionary Biology,2011,37:150-160.

[73] Gnanvossou D;Hanna R;Dicke M .Prey-related odor preference of the predatory mites Typhlodromalus manihoti and Typhlodromalus aripo (Acari : Phytoseiidae)[J].Experimental & applied acarology,2002(1/2):39-56.

[74] Teodoro AV;Pallini A;Oliveira C .Sub-lethal effects of fenbutatin oxide on prey location by the predatory mite Iphiseiodes zuluagai (Acari: Phytoseiidae)[J].Experimental & applied acarology,2009(4):293-299.

[75] de Boer JG;Dicke M .Experience with methyl salicylate affects behavioural responses of a predatory mite to blends of herbivore-induced plant volatiles[J].Entomologia Experimentalis et Applicata,2004(2):181-189.

[76] Shimoda T .[J].Experimental and Applied Acarology,2010,50:9-22.

[77] Gadino, A. N.;Walton, V. M.;Lee, J. C. .Evaluation of methyl salicylate lures on populations of Typhlodromus pyri (Acari: Phytoseiidae) and other natural enemies in western Oregon vineyards.[J].Biological Control: Theory and Application in Pest Management,2012(1):48-55.

[78] Enigl M;Schausberger P .[J].Experimental and Applied Acarology,2007,42:75-85.

[79] Schütte C;Dicke M .[J].Experimental and Applied Acarology,2008,46:307-328.

[80] Schütte C;Poitevin O;Negash T et al.[J].Experimental and Applied Acarology,2006,39:85-103.

[81] Schütte C;Poitevin O;Dicke M .[J].Biocontrol Science and Technology,2008,18(01):1-19.

[82] Nomikou M;Meng R X;Sabelis M W et al.[J].Experimental and Applied Acarology,2005,36:263-275.

[83] Koveos DS;Broufas GD .Feeding history affects the response of the predatory mite Typhlodromus kerkirae (Acari: Phytoseiidae) to volatiles of plants infested with spider mites.[J].Experimental & applied acarology,1999(5):429-436.

[84] Schausberger P .Inter- and intraspecific predation on immatures by adult females in Euseius finlandicus, Typhlodromus pyri and Kampimodromus aberrans (Acari: Phytoseiidae).[J].Experimental & applied acarology,1997(3):131-150.

[85] Schausberger P .Predation preference of Typhlodromus pyri and Kampimodromus aberrans (Acari: Phytoseiidae) when offered con- and heterospecific immature life stages.[J].Experimental & applied acarology,1999(5):389-398.

[86] Palevsky E;Reuveny H;Okonis O;Gerson U .Comparative behavioural studies of larval and adult stages of the phytoseiids (Acari: Mesostigmata) Typhlodromus athiasae and Neoseiulus californicus.[J].Experimental & applied acarology,1999(6):467-485.

[87] Zannou I D;Hanna R;de Moraes G J et al.[J].Experimental and Applied Acarology,2005,37:27-42.

[88] MacRae IV;Croft BA .Intra- and interspecific predation by adult female Metaseiulus occidentalis and Typhlodromus pyri (Acari: Phytoseiidae) when provisioned with varying densities and ratios of Tetranychus urticae (Acari: Tetranychidae) and phytoseiid larvae.[J].Experimental & applied acarology,1997(4):235-245.

[89] Abad-Moyano R;Urbaneja A;Hoffmann D et al.[J].Experimental and Applied Acarology,2010,50:329-341.

[90] Abad-Moyano R;Urbaneja A;Schausberger P .[J].Experimental and Applied Acarology,2010,50:23-34.

[91] Kavousi A;Talebi K .[J].Experimental and Applied Acarology,2003,31:51-58.

[92] Alzoubi S;?obanoglu S .[J].International Journal of Acarology,2010,36(03):267-272.

[93] James D G .[J].Experimental and Applied Acarology,2003,31:275-281.

[94] Kim S S;Yoo S S .[J].BIOCONTROL,2002,47:563-573.

[95] Ochiai N;Mizuno M;Mimori N;Miyake T;Dekeyser M;Canlas LJ;Takeda M .Toxicity of bifenazate and its principal active metabolite, diazene, to Tetranychus urticae and Panonychus citri and their relative toxicity to the predaceous mites, Phytoseiulus persimilis and Neoseiulus californicus[J].Experimental & applied acarology,2007(3):181-197.

[96] Irigaray F J S;Zalom F G .[J].Experimental and Applied Acarology,2006,38:299-305.

[97] Bostanian N J;Thistlewood H M A;Hardman J M et al.[J].Experimental and Applied Acarology,2009,47:63-69.

[98] Hamedi N;Fathipour Y;Saber M .[J].Experimental and Applied Acarology,2011,53:29-40.

[99] Park J J;Kim M;Lee J H et al.[J].Experimental and Applied Acarology,2011,54:243-259.

[100] Bowie MH;Worner SP;Krips OE;Penman DR .Sublethal effects of esfenvalerate residues on pyrethroid resistantTyphlodromus pyri (Acari : Phytoseiidae) and its prey Panonychus ulmi andTetranychus urticae (Acari : Tetranychidae)[J].Experimental & applied acarology,2001(4):311-319.

[101] Rhodes EM;Liburd OE;Kelts C;Rondon SI;Francis RR .Comparison of single and combination treatments of Phytoseiulus persimilis, Neoseiulus californicus, and Acramite (bifenazate) for control of twospotted spider mites in strawberries[J].Experimental & applied acarology,2006(3/4):213-225.

[102] Calvo, F.J.;Bolckmans, K.;Belda, J.E. .Development of a biological control-based Integrated Pest Management method for Bemisia tabaci for protected sweet pepper crops[J].Entomologia Experimentalis et Applicata,2009(1):9-18.

[103] Hountondji F C C;Yaninek J S;de Moraes G J et al.[J].BioControl,2006,38:141-149.

[104] Holt KM;Opit GP;Nechols JR;Margolies DC .Testing for non-target effects of spinosad on twospotted spider mites and their predator Phytoseiulus persimilis under greenhouse conditions[J].Experimental & applied acarology,2006(2/3):141-149.

[105] Rahman, T.;Broughton, S.;Spafford, H. .Effect of spinosad and predatory mites on control of <i>Frankliniella occidentalis</i> in three strawberry cultivars.[J].Entomologia Experimentalis et Applicata,2011(2):154-161.

[106] Amor, F.;Medina, P.;Bengochea, P.;Canovas, M.;Vega, P.;Correia, R.;Garcia, F.;Gomez, M.;Budia, F.;Vinuela, E.;Lopez, J. A. .Effect of emamectin benzoate under semi-field and field conditions on key predatory biological control agents used in vegetable greenhouses.[J].Biocontrol Science and Technology,2012(1/2):219-232.

[107] Shih CIT. .Automatic mass-rearing of Amblyseius womersleyi (Acari : Phytoseiidae)[J].Experimental & applied acarology,2001(5):425-440.

[108] Ogawa Y;Osakabe M .Development, long-term survival, and the maintenance of fertility in Neoseiulus californicus (Acari: Phytoseiidae) reared on an artificial diet.[J].Experimental & applied acarology,2008(3/4):123-136.

[109] De Silva P H;Fernando L C P .[J].Experimental and Applied Acarology,2008,44:37-42.

[110] Morewood W D .[J].Experimental and Applied Acarology,1992,13:231-236.

[111] Ghazy, N. A.;Suzuki, T.;Shah, M.;Amano, H.;Ohyama, K. .Using high relative humidity and low air temperature as a long-term storage strategy for the predatory mite <i>Neoseiulus californicus</i> (Gamasida: Phytoseiidae).[J].Biological Control: Theory and Application in Pest Management,2012(3):241-246.

[112] Ghazy N A;Suzuki T;Amano H.[J].Journal of Applied Entomology,2012

[113] Riddick, E. W.;Wu, Z. X. .Potential long-term storage of the predatory mite <i>Phytoseiulus persimilis</i>.[J].BioControl,2010(5):639-644.

[114] Luczynski A;Nyrop JP;Shi A .Pattern of female reproductive age classes in mass-reared populations of Phytoseiulus persimilis (Acari: Phytoseiidae) and its influence on population characteristics and quality of predators following cold storage[J].Biological Control: Theory and Application in Pest Management,2008(2):159-166.

[115] Lester PJ;Thistlewood HMA;Harmsen R .Some effects of pre-release host-plant on the biological control of Panonychus ulmi by the predatory mite Amblyseius fallacis.[J].Experimental & applied acarology,2000(1):19-33.

[116] Weintraub P G;Kleitman S;Alchanatis V et al.[J].Experimental and Applied Acarology,2007,42:23-35.

[117] Mochizuki M .[J].BioControl,2003,48:207-221.

[118] Freire R A P;de Moraes G J;Silva E S et al.[J].Experimental and Applied Acarology,2007,42:87-93.

[119] Ali O;Dunne R;Brennan P .Effectiveness of the predatory mite Hypoaspis miles (Acari: Mesostigmata: Hypoaspidae) in conjunction with pesticides for control of the mushroom fly Lycoriella solani (Diptera: Sciaridae).[J].Experimental & applied acarology,1999(1):65-77.

[120] Xu X N.Combined releases of predators for biological control of spider mites Tetranychus urticae Koch and western flower thrips Frankliniella occidentalis (Pergande)[M].Cuvillier Verlag G?ttingen,Germany,2004:109.

[121] Fraulo AB;Liburd OE .Biological control of twospotted spider mite, Tetranychus urticae, with predatory mite, Neoseiulus californicus, in strawberries[J].Experimental & applied acarology,2007(2):109-119.

[122] Greco N M;Sánchez N E;Liljesthr?m G G .[J].Experimental and Applied Acarology,2005,37:57-66.

[123] Hoddle MS;Aponte O;Kerguelen V;Heraty J .Biological control of Oligonychus perseae (Acari: Tetranychidae) on avocado: I. Evaluating release timings, recovery and efficacy of six commercially available phytoseiids[J].International Journal of Acarology,1999(3):211-219.

[124] Gontijo L M;Margolies D C;Nechols J R et al.[J].Biological Control,2010,53:136-141.

[125] Buitenhuis R;Shipp L;Scott-Dupree C .[J].Biological Control,2011,52:110-114.

[126] Casey, CA;Parrella, MP .Evaluation of a mechanical dispenser and interplant bridges on the dispersal and efficacy of the predator, Phytoseiulus persimilis (Acari : Phytoseiidae) in greenhouse cut roses[J].Biological Control,2005(1):130-136.

[127] Calvo, F. J.;Bolckmans, K.;Belda, J. E. .Control of Bemisia tabaci and Frankliniella occidentalis in cucumber by Amblyseius swirskii[J].BioControl: Journal of the International Organization for Biological Control,2011(2):185-192.

[128] Messelink G J;van Maanen R;van Holstein-Saj R et al.[J].BioControl,2010,55:387-398.

[129] Xu X;Borgemeister C;Poehling H M .[J].Biological Control,2006,36(01):57-64.

[130] Do?ramaci M;Arthurs S P;Chen J J et al.[J].Biological Control,2011,59:340-347.

[131] Skirvin, D;Kravar-Garde, L;Reynolds, K;Jones, J;Williams, MD .The influence of pollen on combining predators to control Frankliniella occidentalis in ornamental chrysanthemum crops[J].Biocontrol Science and Technology,2006(1):99-105.

[132] Chow, A;Chau, A;Heinz, KM .Compatibility of Orius insidiosus (Hemiptera : Anthocoridae) with Amblyseius (Iphiseius) degenerans (Acari : Phytoseiidae) for control of Frankliniella occidentalis (Thysanoptera : Thripidae) on greenhouse roses[J].Biological Control,2008(2):259-270.

[133] Rahman, T.;Spafford, H.;Broughton, S. .Use of spinosad and predatory mites for the management of <i>Frankliniella occidentalis</i> in low tunnel-grown strawberry.[J].Entomologia Experimentalis et Applicata,2012(3):258-270.

[134] Onzo A;Hanna R;Janssen A;Sabelis MW .Interactions between two neotropical phytoseiid predators on cassava plants and consequences for biological control of a shared spider mite prey: a screenhouse evaluation[J].Biocontrol Science and Technology,2004(1):63-76.

[135] Mailloux J;Bellec F L;Kreiter S et al.[J].Experimental and Applied Acarology,2010,52:275-290.

[136] de Villiers M;Pringle K L .[J].Experimental and Applied Acarology,2011,53:121-137.

[137] Grafton-Cardwell, EE;Bugg, RL;Ouyang, Y .Leguminous cover crops to enhance population development of Euseius tularensis (Acari: Phytoseiidae) in citrus[J].Biological Control,1999(1):73-80.

[138] Liu CZ;Yan L;Li HR;Wang G .Effects of predator-mediated apparent competition on the population dynamics of Tetranychus urticae on apples[J].BioControl: Journal of the International Organization for Biological Control,2006(4):453-463.

[139] Xiao Y F;Avery P;Chen J J;McKenzie C et al.[J].Biological Control,2013,63:279-286.

[140] 肖英方,毛润乾,沈国清,Lance S.Osbome.害虫生物防治新技术--载体植物系统[J].中国生物防治学报,2012(01):1-8.



期刊热词
  • + 更多
  • 字体大小