Chinese Journal of Applied Entomology ›› 2020, Vol. 57 ›› Issue (1): 181-188.doi: 10.7679/j.issn.2095-1353.2020.01.020
Ran-Ran SUN1,2(), Xiao-Wei LI2, Jin-Ming ZHANG2, Zhi-Jun ZHANG2, Li-Meng ZHANG3,4, Yao-Bin LÜ1,2,***()
Received:
2019-12-25
Accepted:
2020-01-10
Online:
2020-01-31
Published:
2020-07-03
Contact:
Yao-Bin Lü
E-mail:1253715529@qq.com;luybcn@163.com
Ran-Ran SUN, Xiao-Wei LI, Jin-Ming ZHANG, Zhi-Jun ZHANG, Li-Meng ZHANG, Yao-Bin LÜ. Comparison of two types of aggregation pheromone dispensers for trapping Frankliniella occidentalis (Thysanoptera: Thripidae)[J]. Chinese Journal of Applied Entomology, 2020, 57(1): 181-188.
Fig. 1 The release dynamics of the two aggregation pheromone compounds loaded in rubber septa and PVC hollow fibers A. Neryl (S)-2-methylbutanoate; B. (R)-lavandulyl acetate.
Fig. 2 The release amount and ratio of N(S)2MB to (R)-LA [N(S)2MB/(R)-LA] for the optimal blend of N(S)2MB and (R)-LA (10 000 ng: 1 250 ng) from two different dispensers A. Rubber septa; B. PVC hollow fibers. N(S)2MB: Neryl (S)-2-methylbutanoate; (R)-LA: (R)-lavandulyl acetate.
Fig. 3 Total number of Frankliniella occidentalis adults caught in traps baited with different dispensers loaded with aggregation pheromones Histograms with different letters indicate significant difference among treatments on the same day.
[1] | Alfarocid E, Esparciaalcázar AI, Moya P, Femeniaferrer B, Sharman K, Merelo JJ , 2009. Modeling pheromone dispensers using genetic programming//Evoworkshops 2009 on Applications of Evolutionary Computing: Evocomnet, Evoenvironment, Evofin, Evogames, Evohot, Evoiasp, Evointeraction, Evomusart, Evonum, Evostoc, Evotranslog, Tübingen, Germany, April 15-17. Berlin: Heidelberg: Springer-Verlag. 635-644. |
[2] | Broughton S, Cousins DA, Rahman T , 2015. Evaluation of semiochemicals for their potential application in mass trapping of Frankliniella occidentalis (Pergande) in roses. Crop Protection, 67:130-135. |
[3] | Broughton S, Herron GA , 2007. Frankliniella occidentalis (Pergande) (Thysanoptera: Thripidae) chemical control: Insecticide efficacy associated with the three consecutive spray strategy. Australian Journal of Entomology, 46(2):140-145. |
[4] | Brown DF, Knight AL, Howell JF, Sell CR, Krysan JL, Weiss M , 1992. Emission characteristics of a polyethylene pheromone dispenser for mating disruption of codling moth (Lepidoptera: Tortricidae). Journal of Economic Entomology, 85(3):910-917. |
[5] |
Bruce TJ, Hooper AM, Ireland L, Jones OT, Martin JL, Smart LE, Oakley J, Wadhams LJ , 2007. Development of a pheromone trap monitoring system for orange wheat blossom midge, Sitodiplosis mosellana, in the UK. Pest Management Science, 63(1):49-56.
doi: 10.1002/ps.1307 URL pmid: 17078014 |
[6] |
Butler LI, Mcdonough LM , 1981. Insect sex pheromones: Evaporation rates of alcohols and acetates from natural rubber septa. Journal of Chemical Ecology, 7(3):627-633.
doi: 10.1007/BF00987710 URL pmid: 24420601 |
[7] |
Cork A, Alam SN, Das A, Das CS, Ghosh GC, Farman DI, Hall DR, Maslen NR, Vedham K, Phythian SJ, Rouf FMA, Srinivasan K , 2001. Female sex pheromone of brinjal fruit and shoot borer, Leucinodes orbonalis blend optimization. Journal of Chemical Ecology, 27(9):1867-1877.
doi: 10.1023/a:1010416927282 URL pmid: 11545376 |
[8] | Covaci A, Oltean I, Pop A , 2012. Evaluation of pheromone lure as mass-trapping tools for western flower thrips. Bulletin UASVM Agriculture, 69(1):333-334. |
[9] | Cross JV, Hall DR, Shaw P, Anfora G , 2009. Exploitation of the sex pheromone of apple leaf midge Dasineura mali Kieffer (Diptera: Cecidomyiidae): Part 2. Use of sex pheromone traps for pest monitoring. Crop Protection, 28(2):128-133. |
[10] | Funderburk J , 2009. Management of the western flower thrips (Thysanoptera: Thripidae) in fruiting vegetables. Florida Entomologist, 92(1):1-6. |
[11] |
Gao YL, Lei ZR, Reitz SR , 2012. Western flower thrips resistance to insecticides: Detection, mechanisms and management strategies. Pest Management Science, 68(8):1111-1121.
doi: 10.1002/ps.3305 URL pmid: 22566175 |
[12] | Geng SS, Li XW, Zhang JM, Zhang ZJ, Lu YB , 2017. Field testing of aggregation pheromones of Frankliniella occidentalis and F. intonsa (Thysanoptera: Thripidae) and their roles in interspecific interaction. Acta Entomologica Sinica, 60(12):1447-1456. |
[ 耿双双, 李晓维, 章金明, 张治军, 吕要斌 , 2017. 西花蓟马和花蓟马聚集信息素田间引诱试验及其在种间互作中的作用. 昆虫学报, 60(12):1447-1456.] | |
[13] |
Golub M, Weatherston J, Benn MH , 1983. Measurement of release rates of gossyplure from controlled release formulations by mini- airflow method. Journal of Chemical Ecology, 9(3):323-333.
doi: 10.1007/BF00988452 URL pmid: 24407402 |
[14] |
Hall DR, Farman DI, Cross JV, Pope TW, Ando T, Yamamoto M , 2009. ( S)-2-Acetoxy-5-Undecanone, female sex pheromone of the raspberry cane midge, Resseliella theobaldi (Barnes). Journal of Chemical Ecology, 35(2):230-242.
URL pmid: 19169750 |
[15] |
Hamilton JGC, Hall DR, Kirk WDJ , 2005. Identification of a male- produced aggregation pheromone in the western flower thrips Frankliniella occidentalis. Journal of Chemical Ecology, 31(6):1369-1379.
doi: 10.1007/s10886-005-1351-z URL pmid: 16222777 |
[16] | Heuskin S, Verheggen FJ, Haubruge E, Wathelet JP, Lognay G , 2011. The use of semiochemical slow-release devices in integrated pest management strategies. Biotechnologie Agronomie Societe et Environnement, 15(3):459-470. |
[17] |
Hofmeyr JH, Burger BV , 1995. Controlled-release pheromone dispenser for use in traps to monitor flight activity of false codling moth. Journal of Chemical Ecology, 21(3):355-363.
doi: 10.1007/BF02036723 URL pmid: 24234066 |
[18] | Kehat M, Anshelevich L, Dunkelblum E, Fraishtat P, Greenberg S , 1994. Sex pheromone traps for monitoring the codling moth: Effect of dispenser type, and field aging of dispenser, pheromone dose and type of trap on male captures. Entomologia Experimentalis et Applicate, 70(1):55-62. |
[19] | Kirk WDJ , 2017. The aggregation pheromones of thrips (Thysanoptera) and their potential for pest management. International Journal of Tropical Insect Science, 37(2):41-49. |
[20] | Kirk WDJ, Terry LI , 2003. The spread of the western flower thrips Frankliniella occidentalis (Pergande). Agricultural & Forest Entomology, 5(4):301-310. |
[21] | Li DG, Shang XY, Reitz S, Nauen R, Lei ZR, Lee SH, Gao YL , 2016. Field resistance to spinosad in western flower thrips Frankliniella occidentalis (Thysanoptera: Thripidae). Journal of Integrative Agriculture, 15(12):2803-2808. |
[22] |
Li X, Geng S, Zhang Z, Zhang J, Li W, Huang J, Lin W, Bei Y, Lu Y , 2019. Species-specific aggregation pheromones contribute to coexistence in two closely related thrips species. Bulletin of Entomological Research, 109(1):119-126.
URL pmid: 29781420 |
[23] | Li XW, Sun RR, Zhang JM, Zhang ZJ, Zhang LM, Lü YB , 2020. The release rates of thrips aggregation pheromones from two dispensers and the selection of storage temperature. Journal of Plant Protection, 47(1):26-34. |
[ 李晓维, 孙冉冉, 章金明, 张治军, 张立猛, 吕要斌 , 2020. 载体中蓟马聚集信息素组分的释放速率测定及其储藏温度筛选. 植物保护学报, 47(1):26-34.] | |
[24] | Li XW, Sun RR, Zhang JM, Zhang ZJ, Lü YB , 2017. Mating behavior and aggregation pheromone release rhythm of Frankliniella occidentalis (Thysanoptera: Thripidae) adults during photophase. Acta Entomologica Sinica, 60(12):1439-1446. |
[ 李晓维, 孙冉冉, 章金明, 张治军, 吕要斌 , 2017. 西花蓟马成虫昼间交配习性和聚集信息素释放节律. 昆虫学报, 60(12):1439-1446.] | |
[25] | Lucas A, Cerón AH, Pallarés C, Abellán A, Cano JJ, Llamas M , 2014. Posibilidades del control tecnológico de trips (Frankliniella occidentalis) en uva de mesa. Experiencias en la región de Murcia. Revista De Fruticultura, 9:32-42. |
[26] | Lü YB, Zhang JM, Li WD, Zhang ZJ, Bei YW, Zhang PJ, Huang F, Lin WC , 2015. Attractants of Western Flower Thrips. China Patent. CN 104381255 A. 2015-03-04. |
[ 吕要斌, 章金明, 郦卫弟, 张治军, 贝亚维, 张蓬军, 黄芳, 林文彩 , 2014. 一种用于引诱西花蓟马的试剂. 中国. CN 104381255 A. 2014-11-02.] | |
[27] | Lü YB, Zhang ZJ, Wu QJ, Du YZ, Zhang HR, Yu Y, Wang ED, Wang MH, Wang MQ, Tong XL, Lv LH, Tan XQ, Fu WD , 2011. Research progress of the monitoring, forecast and sustainable management of invasive alien pest Frankliniella occidentalis in China. Chinese Journal of Appllied Entomology, 48(3):488-496. |
[ 吕要斌, 张治军, 吴青君, 杜予州, 张宏瑞, 于毅, 王恩东, 王鸣华, 王满囷, 童晓立, 吕利华, 谭新球, 付卫东 , 2011. 外来入侵害虫西花蓟马防控技术研究与示范. 应用昆虫学报, 48(3):488-496.] | |
[28] | Môttus E, Nômm V, Williams IH, Liblikas I , 1997. Optimization of pheromone dispensers for diamondback moth Plutella xylostella. Journal of Chemical Ecology, 23(9):2145-2159. |
[29] |
Mcdonough LM, Aller WC, Knight AL , 1992. Performance characteristics of a commercial controlled-release dispenser of sex pheromone for control of codling moth (Cydia pomonella) by mating disruption. Journal of Chemical Ecology, 18(12):2177-2189.
doi: 10.1007/BF00984945 URL pmid: 24254866 |
[30] |
Morse JG, Hoddle MS , 2006. Invasion biology of thrips. Annual Review of Entomology, 51:67-89.
URL pmid: 16332204 |
[31] |
Olaniran OA, Sudhakar AVS, Drijfhout FP, Dublon IAN, Hall DR, Hamilton JGC, Kirk WDJ , 2013. A male-predominant cuticular hydrocarbon, 7-methyltricosane, is used as acontact pheromone in the western flower thrips Frankliniella occidentalis. Journal of Chemical Ecology, 39(4):559-568.
doi: 10.1007/s10886-013-0272-5 URL pmid: 23519504 |
[32] | Reitz SR , 2009. Biology and ecology of the western flower thrips (Thysanoptera: Thripidae): The making of a pest. Florida Entomologist, 92(1):7-13. |
[33] | Sampson C , 2014. Management of the western flower thrips on strawberry. PhD dissertation. UK: Keele University. |
[34] |
Sampson C, Kirk WDJ , 2013. Can mass trapping reduce thrips damage and is it economically viable? Management of the Western flower thrips in strawberry. PLoS ONE, 8(11):e80787.
doi: 10.1371/journal.pone.0080787 URL pmid: 24282554 |
[35] |
Shaver TN, Hendricks DE, Jr LJ , 1989. Influence of (Z)-11- hexadecen-1-ol on field performance of Heliothis virescens pheromone in a PVC dispenser as evidenced by trap capture. Journal of Chemical Ecology, 15(5):1637-1644.
doi: 10.1007/BF01012390 URL pmid: 24272105 |
[36] |
Stipanovic AJ, Hennessy PJ, And FXW, Takahashi Y , 2004. Microparticledispensers for the controlled release of insect pheromones. Journal of Agricultural & Food Chemistry, 52(8):2301-2308.
doi: 10.1021/jf0352576 URL pmid: 15080637 |
[37] |
Teerling CR, Pierce HD, Borden JH, Gillespie DR , 1993. Identification and bioactivity of alarm pheromone in the western flower thrips, Frankliniella occidentalis. Journal of Chemical Ecology, 19(4):681-697.
URL pmid: 24249010 |
[38] |
VrkoČ J, KoneČný K, Valterová I, Hrdý I , 1988. Rubber substrates and their influence on isomerization of conjugated dienes in pheromone dispensers. Journal of Chemical Ecology, 14(5):1347-1358.
URL pmid: 24276284 |
[39] |
Wang ZH, Gong YJ, Jin GH, Li BY, Chen JC, Kang ZJ, Zhu L, Gao YL, Reitz S, Wei SJ , 2016. Field-evolved resistance to insecticides in the invasive western flower thrips Frankliniella occidentalis (Pergande) (Thysanoptera: Thripidae) in China. Pest Management Science, 72(7):1440-1444.
URL pmid: 26617067 |
[40] | Wu S, Tang L, Fang F, Li D, Yuan X, Lei Z, Gao Y , 2018. Chapter seven-screening, efficacy and mechanisms of microbial control agents against sucking pest insects as thrips// Smagghe G(ed.). Advances in Insect Physiology. London: Academic Press. 201-219. |
[41] |
Zhang A, Kuang LF, Maisin N, Karumuru B, Hall DR, Virdiana I, Lambert S, Bin PH, Wang S, Hebbar P , 2008. Activity evaluation of cocoa pod borer sex pheromone in cacao fields. Environmental Entomology, 37(3):719-724.
doi: 10.1603/0046-225x(2008)37[719:aeocpb]2.0.co;2 URL pmid: 18559177 |
[42] |
Zhang PJ, Zhu XY, Lu YB , 2011. Behavioural and chemical evidence of a male-produced aggregation pheromone in the flower thrips Frankliniella intonsa. Physiological Entomology, 36(4):317-320.
doi: 10.1111/pen.2011.36.issue-4 URL |
[43] | Zhang YJ, Wu QJ, Xu BY, Zhu GR , 2003. The occurrence of a dangerous alien invasive pest, western flower thrips (Frankliniella occidentalis), in Beijing. Plant Protection, 29(4):58-59. |
[ 张友军, 吴青君, 徐宝云, 朱国仁 , 2003. 危险性外来入侵生物——西花蓟马在北京发生危害. 植物保护, 29(4):58-59.] |
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