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      龜紋瓢蟲和六斑月瓢蟲對(duì)農(nóng)藥的敏感性研究
      
                
      2022-02-16 23:20:25唐良德,趙海燕,郭靈杭
      
                
      關(guān)鍵詞:殺蟲劑毒力
      
                    
      唐良德,趙海燕,郭靈杭
      摘要:瓢蟲是重要的害蟲生防資源,噴施農(nóng)藥對(duì)其構(gòu)成了嚴(yán)重威脅。本文旨在探討華南3地2種常見優(yōu)勢(shì)瓢蟲(龜紋瓢蟲和六斑月瓢蟲)對(duì)常用殺蟲劑的敏感性。采用玻璃管藥膜法測(cè)定了廣州、南寧和??邶敿y瓢蟲和六斑月瓢蟲對(duì)5種農(nóng)藥的敏感性。從對(duì)藥劑的敏感性來看,龜紋瓢蟲和六斑月瓢蟲均對(duì)毒死蜱最為敏感,LC50分別在42.47~249.19 mg/L之間和57.04~224.16 mg/L之間,其次是高效氯氰菊酯和高效氯氟氰菊酯,LC50分別在162.49~496.89 mg/L之間和203.17~404.21 mg/L之間,對(duì)阿維菌素和甲氨基阿維菌素苯甲酸鹽相對(duì)不敏感,LC50分別在227.27 ~2334.51 mg/L之間和339.44~2454.93 mg/L之間;從對(duì)不同地理種群敏感性來看,龜紋瓢蟲和六斑月瓢蟲南寧種群和廣州種群對(duì)藥劑不敏感,而??诜N群相對(duì)敏感。本研究結(jié)果可為反映當(dāng)?shù)赜盟幩胶吞镩g保護(hù)天敵瓢蟲提供理論依據(jù)和用藥指導(dǎo)。
      關(guān)鍵詞:龜紋瓢蟲;六斑月瓢蟲;殺蟲劑;毒力
      中圖分類號(hào):S476文獻(xiàn)標(biāo)識(shí)碼:A
      文章編號(hào):1008-0457(2022)01-0034-007國(guó)際DOI編碼:10.15958/j.cnki.sdnyswxb.2022.01.005
      The Sensitivity of Propylaea japonica and Menochilus sexmaculata(Coleoptera:Coccinellidae) to Differential Insecticides
      Tang Liangde1,2,Zhao Haiyan3*,Guo Linghang2
      (1.Key Laboratory of Green Pesticide and Agricultural Bioengineering,Ministry of Education,Guizhou University,Guiyang,Guizhou 550025,China;2.Environment and Plant Protection Institute,Chinese Academy of Tropical Agricultural Sciences,Haikou,Hainan 571101,China;3.College of Tobacco Science/Key Laboratory of Tobacco Quality Research,Guizhou University,Guiyang,Guizhou 550025,China)
      Abstract:Ladybeetle is an important resource for insect pest biological control.However,it is now feeling threatened by various insecticides.This study aimed to obtain the sensitivity of Propylaea japonica and Menochilus sexmaculata(Coleoptera:Coccinellidae) in South China to five differential frequentlyused insecticides.Bioassays were conducted with adults of P.japonica and M.sexmaculata by using a standard glass tube residual film method.The results showed that the toxicity(LC50) of P.japonica and M.sexmaculata were most sensitive to chlorpyrifos,the LC50s were 42.47~249.19 mg/L and 57.04~224.16 mg/L,respectively,followed by pyrethroids,the LC50s were between 162.49 to 496.89 mg/L for betacypermethrin and 203.17 to 404.21 mg/L for lambdacyhalothrin on two ladybeetle species,then by abamectin and emamectin benzoate,the LC50s were among 227.27~2334.51 mg/L and 339.44~2454.93 mg/L,respectively.The results also revealed that the sensitive of ladybeetles among different geographical strains were significantly different to tested insecticides.Haikou strain was more sensitive to Nanning and Guangzhou strains.The results could be used as a reflection of the current level of use of insecticides in different regions and field protection of natural enemies ladybirds to provide theoretical basis and pesticide guidance.
      Keywords: Propylaea japonica;Menochilus sexmaculata;insecticide;toxicity
      化學(xué)農(nóng)藥造成的有害生物抗性(resistance)、再猖獗(resurgence)和農(nóng)藥殘留(residue)的“3R”問題日益凸顯,生物防治作為替代化學(xué)防治的重要途徑越來越受到人們的關(guān)注[1]。隨著環(huán)境保護(hù)意識(shí)的增強(qiáng)與農(nóng)業(yè)可持續(xù)發(fā)展的需求,生物防治已成為不可替代的害蟲治理策略,因其安全性倍受青睞。利用天敵控制有害生物可以顯著減少農(nóng)藥用量和殘留,改善環(huán)境質(zhì)量,有利于人類身體健康,符合生態(tài)文明的理念。但是化學(xué)農(nóng)藥的廣泛大量施用并作為一種應(yīng)急管理措施仍是目前有害生物控制的重要手段,化學(xué)農(nóng)藥的施用除了產(chǎn)生“3R”問題外,還大量殺害農(nóng)林生態(tài)系統(tǒng)中的有益生物,生物防治和化學(xué)防治這一矛盾依然并將長(zhǎng)期存在。如何協(xié)調(diào)使用天敵昆蟲和化學(xué)農(nóng)藥是當(dāng)前害蟲防治面臨的一個(gè)重要問題和課題,農(nóng)藥對(duì)天敵昆蟲的影響值得關(guān)注和重視。
      瓢蟲是瓢蟲科昆蟲的總稱,其中約4/5屬于捕食性種類,主要捕食蚜蟲、粉虱、薊馬、介殼蟲、葉螨等重要有害生物,對(duì)自然調(diào)控作物有害生物的種群數(shù)量起著重要作用[23]。關(guān)于農(nóng)藥對(duì)天敵瓢蟲影響方面的研究主要體現(xiàn)在近十年3個(gè)方面的進(jìn)展:(1)通過毒力測(cè)定評(píng)價(jià)多種瓢蟲(七星瓢蟲Coccinella septempunctata[47]、異色瓢蟲 Harmonia axyridis[812]、多異瓢蟲Adonia variegate[1314]、六斑月瓢蟲Menochilus sexmaculata [1516]、龜紋瓢蟲Propylaea japonica [1718]、小黑瓢蟲Delphastus catalinae[19]、二星瓢蟲Adalia bipunctata[20]、四斑月瓢蟲Chilomenes quadriplagiata[2122]、十一星瓢蟲Coccinella undecimpunctata [13,23]、黑緣紅瓢蟲Chilocorus rubidus[24]、食螨瓢蟲Stethorus gilvifrons[25]、菱斑巧瓢蟲Oenopia conglobate[26]、孟氏隱唇瓢蟲Cryptolaemus montrouzieri[2728]、瓢蟲Eriopis connexa[29]和Tenuisvalvae notata[30]對(duì)常用農(nóng)藥品種的敏感性或抗藥性及對(duì)田間瓢蟲種群多樣性的影響[3134],即農(nóng)藥對(duì)天敵瓢蟲的安全性評(píng)價(jià);(2)通過農(nóng)藥亞致死劑量處理評(píng)價(jià)天敵瓢蟲亞致死效應(yīng),包括生長(zhǎng)發(fā)育和繁殖的適合度代價(jià)以及對(duì)控害功能的影響,如研究了農(nóng)藥對(duì)異色瓢蟲[3537]、多異瓢蟲[38]、二星瓢蟲Adalia bipunctata[39]、十一星瓢蟲[40]、E.connexa[41]和Hippodamia convergens[42]生長(zhǎng)發(fā)育和繁殖的抗性適合度代價(jià),研究了農(nóng)藥對(duì)龜紋瓢蟲[43]和異色瓢蟲[4445]的捕食作用的影響;(3)通過抗性基因鑒定和抗性遺傳選育抗性品系,已有研究對(duì)龜紋瓢蟲進(jìn)行了抗性基因分析[46]和抗性品種選育[47]以及對(duì)七星瓢蟲[48]和異色瓢蟲[49]進(jìn)行了抗藥性品系選育。
      我國(guó)瓢蟲資源十分豐富,開發(fā)應(yīng)用前景廣闊,其中,龜紋瓢蟲和六斑月瓢蟲是我國(guó)瓢蟲常見優(yōu)勢(shì)種類,具有自然分布廣、田間發(fā)生量大、捕食獵物種類多、捕食量大、抗逆性強(qiáng)等特性,對(duì)害蟲自然調(diào)控作用明顯[5058]。目前已有的研究測(cè)定了有機(jī)磷類、有機(jī)氯類、擬除蟲菊酯類、新煙堿類和生物源類等多種農(nóng)藥對(duì)龜紋瓢蟲的安全性,不同地理種群對(duì)農(nóng)藥的敏感性表現(xiàn)出較大的差異[4,17,21,5960],印度學(xué)者還評(píng)價(jià)了不同農(nóng)藥品種對(duì)六斑月瓢蟲的影響[1516]。為更好地發(fā)揮優(yōu)勢(shì)瓢蟲種類的自然控害作用,協(xié)調(diào)處理好天敵瓢蟲與農(nóng)藥應(yīng)用的關(guān)系,實(shí)現(xiàn)瓢蟲控害功能的最大化。本研究測(cè)定了我國(guó)華南地區(qū)不同地理種群龜紋瓢蟲和六斑月瓢蟲對(duì)常用殺蟲劑的敏感性,以期為科學(xué)合理制定殺蟲劑使用方案,在提高害蟲防效的同時(shí)有效地保護(hù)天敵瓢蟲提供理論依據(jù)和實(shí)踐指導(dǎo)。
      1材料與方法
      1.1供試材料
      龜紋瓢蟲和六斑月瓢蟲于2019年3月-2020年11月分別采集于廣州(GZ)、南寧(NN)和??冢℉K)市郊蔬菜基地,每地采集成蟲數(shù)量不少于100頭帶回實(shí)驗(yàn)室飼養(yǎng),飼養(yǎng)寄主為豆蚜Aphis craccivora Koch,繁殖1代后的5日齡成蟲用于毒力測(cè)定。
      92%阿維菌素(abamectin,南通農(nóng)藥劑型開發(fā)中心),76%甲氨基阿維菌素苯甲酸鹽(甲維鹽)(emamectin benzoate,河北天順生物工程有限公司),97%高效氯氰菊酯(betacypermethrin,江蘇揚(yáng)農(nóng)化工集團(tuán)有限公司),97%高效氯氟氰菊酯(lambdacyhalothrin,鄭州農(nóng)田化工有限公司),97% 毒死蜱(chlorpyrifos,浙江新農(nóng)化工股份有限公司),供試藥劑均為原藥。
      1.2試驗(yàn)方法
      生物測(cè)定方法采用玻璃管藥膜法。首先用丙酮將原藥配置5個(gè)濃度梯度(含0.1% Triton X100),然后用移液槍將2 mL藥劑移入一端用食品保鮮膜系上橡皮筋封口的玻璃雙通管中(d=2.5 cm,L=25.0 cm),迅速滾動(dòng),等溶劑揮發(fā)后形成均勻的藥膜,用細(xì)針在保鮮膜上扎孔透氣,每管接入20頭瓢蟲成蟲,不提供任何食物,用棉塞塞緊,置于(26±1) ℃、光照14∶10(L∶D)、相對(duì)濕度80%的培養(yǎng)箱中。24 h后調(diào)查成蟲死亡率,以只有一只足能動(dòng)或用細(xì)毛筆輕挑不能動(dòng)者記為死亡。每濃度設(shè)4次重復(fù),以含0.1% Triton X100的丙酮處理為對(duì)照。
      1.3數(shù)據(jù)分析
      采用SPSS10.0統(tǒng)計(jì)軟件求出毒力回歸方程斜率和LC50值及其95%置信限,以置信限不重疊為差異顯著。
      2結(jié)果與分析
      2.1龜紋瓢蟲不同地理種群對(duì)殺蟲劑的敏感性
      如表1所示,從對(duì)藥劑敏感性而言,龜紋瓢蟲對(duì)毒死蜱最敏感,不同地理種群致死中濃度(LC50)在42.47~249.19 mg/L之間,其次是擬除蟲菊酯類殺蟲劑(高效氯氰菊酯和高效氯氟氰菊酯)LC50在162.49~496.89 mg/L之間,而對(duì)生物類農(nóng)藥(阿維菌素和甲氨基阿維菌素苯甲酸鹽)最不敏感,LC50在227.27~2334.51 mg/L之間。從不同測(cè)試地理種群而言,龜紋瓢蟲對(duì)藥劑的敏感性由高到低依次為海口種群(HKS)>廣州種群(GZS)>南寧種群(NNS)。
      2.2六斑月瓢蟲不同地理種群對(duì)殺蟲劑的敏感性
      如表2所示,六斑月瓢蟲不同地理種群對(duì)不同藥劑的敏感性變化均呈現(xiàn)出毒死蜱>擬除蟲菊酯類>生物類農(nóng)藥,不同種群的敏感性表現(xiàn)為海口種群>廣州種群>南寧種群,其趨勢(shì)與龜紋瓢蟲測(cè)定的結(jié)果一致。
      2.3龜紋瓢蟲和六斑月瓢蟲不同地理種群對(duì)殺蟲劑的敏感性對(duì)比分析如圖1所示,廣州種群龜紋瓢蟲對(duì)甲維鹽的敏感性顯著高于六斑月瓢蟲,而毒死蜱的敏感性顯著低于六斑月瓢蟲;同樣,南寧種群龜紋瓢蟲對(duì)甲維鹽的敏感性顯著高于六斑月瓢蟲;海口種群龜紋瓢蟲則對(duì)阿維菌素的敏感性顯著高于六斑月瓢蟲??傮w而言,六斑月瓢蟲對(duì)殺蟲劑的耐受性高于龜紋瓢蟲。
      3結(jié)論與討論
      由于人們對(duì)化學(xué)農(nóng)藥認(rèn)識(shí)的局限性,不合理施用化學(xué)農(nóng)藥對(duì)天敵的影響是不可估量的,大量殺傷天敵可使其減弱或失去自然控害的功能。瓢蟲是重要的天敵昆蟲類群,為了更好地利用瓢蟲控害,減少農(nóng)藥對(duì)天敵瓢蟲的殺傷作用,本文測(cè)定了2種常見優(yōu)勢(shì)瓢蟲種類龜紋瓢蟲和六斑月瓢蟲對(duì)果蔬常用殺蟲劑的敏感性。從對(duì)藥劑敏感性來看,兩種瓢蟲廣州、南寧和海口種群都對(duì)5種測(cè)試藥劑的敏感性均表現(xiàn)對(duì)有機(jī)磷類殺蟲劑毒死蜱最為敏感(LC50為42.47~249.19 mg/L),其次是擬除蟲菊酯類殺蟲劑高效氯氰菊酯和高效氯氟氰菊酯(LC50為162.49~496.89 mg/L),對(duì)生物源農(nóng)藥阿維菌素和甲維鹽最不敏感,LC50為227.27~2454.93 mg/L。從不同地理種群分析結(jié)果來看,??诜N群相對(duì)于廣州和南寧種群而言,表現(xiàn)現(xiàn)更為敏感。任相亮等 [17]采用浸蟲法評(píng)價(jià)了不同殺蟲劑對(duì)河南安陽(yáng)棉田龜紋瓢蟲的安全性,結(jié)果表明甲維鹽、吡蟲啉和高效氯氰菊酯對(duì)其毒力較高(LC50為6.46~47.13 mg/L),辛硫磷、硫丹和毒死蜱毒力較小(LC50為158.67~3848.24 mg/L)。占志雄等[21]研究表明龜紋瓢蟲對(duì)高效氯氟氰菊酯和高效氯氰菊酯的LC50值分別為0.7 mg/L和1.8 mg/L,對(duì)阿維菌素的LC50值為3.4 mg/L,表現(xiàn)極為敏感。朱福興等[4,59]測(cè)定了龜紋瓢蟲對(duì)高效氯氟氰菊酯等菊酯類殺蟲劑的毒力為3.7 ~30.6 mg/L,也表現(xiàn)較為敏感,但對(duì)毒死蜱等有機(jī)磷殺蟲劑的毒力為175.8 ~1520.9 mg/L,表現(xiàn)不敏感。宋化穩(wěn)等[60]研究發(fā)現(xiàn)龜紋瓢蟲對(duì)高效氯氟氰菊酯的LC50值為1.5 mg/L,對(duì)辛硫磷等有機(jī)磷類殺蟲劑的毒力為2.9 ~73.9 mg/L。另外,通過獵物殘毒飼喂法測(cè)定六斑月瓢蟲對(duì)不同農(nóng)藥的敏感性結(jié)果表明,啶蟲脒、噻蟲嗪、吡蟲啉對(duì)六斑月瓢蟲表現(xiàn)出高毒性,而噻嗪酮?jiǎng)t相對(duì)安全[15]。另一個(gè)田間施藥試驗(yàn)中,高效氯氟氰菊酯和吡蟲啉對(duì)六斑月瓢蟲種群數(shù)量減少不顯著,而三唑磷、噻蟲嗪、氟蟲腈、啶蟲脒對(duì)田間瓢蟲種群數(shù)量有顯著的降低[16]。
      上述研究結(jié)果與本試驗(yàn)的結(jié)果有較大的差異,可能由以下三個(gè)方面的原因所致:一是不同地理種群對(duì)農(nóng)藥敏感性的差異;二是反映不同時(shí)間尺度天敵瓢蟲對(duì)農(nóng)藥敏感性的差異;三是不同生物測(cè)定方法呈現(xiàn)的天敵瓢蟲對(duì)農(nóng)藥敏感性的差異。雖然上述研究結(jié)果存在較大的差異,但不妨礙理解天敵瓢蟲不同地理種群對(duì)不同藥劑品種所表現(xiàn)出的敏感性差異,其實(shí)質(zhì)是反映各地用藥選擇壓(強(qiáng)度)與瓢蟲耐(抗)藥性互作的結(jié)果。例如,通過研究發(fā)現(xiàn)龜紋瓢蟲福州種群在不同時(shí)間序列(2004年、2009年和2012年)上對(duì)不同藥劑的抗藥性表現(xiàn)出明顯的差異,其中對(duì)毒死蜱產(chǎn)生了9~16倍的抗性,對(duì)甲胺磷產(chǎn)生了13~2083倍抗性,對(duì)氰戊菊酯產(chǎn)生了32~230倍的抗性,對(duì)阿維菌素產(chǎn)生了4~49倍的抗性,表明龜紋瓢蟲對(duì)藥劑的抗(耐)藥性在用藥選擇壓下時(shí)間序列上的累積效應(yīng)。值得說明的是,毒死蜱雖已在蔬菜上禁用[61],但在其他未禁用作物上仍可以使用,因而本研究仍測(cè)定了瓢蟲對(duì)該藥劑的敏感性。本試驗(yàn)結(jié)果呈現(xiàn)的是無論龜紋瓢蟲和六斑月瓢蟲均對(duì)毒死蜱表現(xiàn)敏感,而又以??诜N群最為敏感,因而在生產(chǎn)實(shí)踐中謹(jǐn)慎使用。這些研究結(jié)果可為當(dāng)?shù)刂贫茖W(xué)合理保護(hù)天敵昆蟲選擇性用藥方案提供理論指導(dǎo)和參考。
      參考文獻(xiàn):
      [1]任順祥,陳學(xué)新.生物防治[M].北京:中國(guó)農(nóng)業(yè)出版社,2011.
      [2]龐虹,任順祥,曾濤,等.中國(guó)瓢蟲特種多樣性及其利用[M].廣州:廣東科技出版社,2004.
      [3]龐虹.捕食性瓢蟲的利用[J].昆蟲天敵,1996,18(4):3036(增刊).
      [4]朱福興,王金信,劉峰,等.瓢蟲對(duì)殺蟲劑的敏感性研究[J].昆蟲學(xué)報(bào),1998,41(4):359365.
      [5]劉慧平,韓巨才,徐琴,等.殺蟲劑對(duì)甘藍(lán)蚜與七星瓢蟲的毒力及選擇性研究[J].中國(guó)生態(tài)農(nóng)業(yè)學(xué)報(bào),2006,14(3):160162.
      [6]郭志芯,蔣紅云,張?zhí)m,等.四種殺蟲劑對(duì)七星瓢蟲和松毛蟲赤眼蜂的負(fù)效應(yīng)[J].中國(guó)生物防治學(xué)報(bào),2019,35(4):542547.
      [7]陳吉祥,于偉麗,蘇磊,等.6種復(fù)配殺蟲劑對(duì)七星瓢蟲的毒力測(cè)定及風(fēng)險(xiǎn)評(píng)估[J].環(huán)境昆蟲學(xué)報(bào),2021,43(5):12651272.
      [8]馬艷,呂政,潘登明.幾種殺蟲劑對(duì)異色瓢蟲(Leis axyridis Pallas)不同蟲態(tài)的毒力測(cè)定[J].中國(guó)棉花,2001,28(7):1920.
      [9]吳紅波,張帆,王素琴,等.幾種常用殺蟲劑對(duì)異色瓢蟲的敏感性測(cè)定[J].中國(guó)生物防治學(xué)報(bào),2007(3):213217.
      [10]席敦芹.5種藥劑對(duì)異色瓢蟲安全性測(cè)定試驗(yàn)[J].農(nóng)藥,2008,47(1):5054.
      [11]常劍,溫麗娜,林莉,等.煙田常用殺蟲藥劑對(duì)異色瓢蟲成蟲的安全性評(píng)價(jià)[J].動(dòng)物學(xué)研究,2011,32:8488.
      [12]潘悅,董石飛,毛春堂,等.幾種化學(xué)農(nóng)藥對(duì)煙蚜的毒性及其對(duì)異色瓢蟲的安全性評(píng)價(jià)[J].云南農(nóng)業(yè)大學(xué)學(xué)報(bào)(自然科學(xué)),2015,30(1):142146.
      [13]姚永生,趙芳,馮宏祖,等.阿克泰等殺蟲劑對(duì)棉蚜和瓢蟲的毒力測(cè)定[J].江西棉花,2008,30(3):1619.
      [14]王鎖牢,李廣闊,高海峰,等.4種殺蟲劑對(duì)麥蚜天敵的安全性評(píng)價(jià)[J].新疆農(nóng)業(yè)科學(xué),2013,50(12):22542257.
      [15]Pandi G G P,Paul B,Vivek S,Shankarganesh K.Relative toxicity of insecticides against Coccinellid beetle,Cheilomenes sexmaculata(Fabricius) [J].Annals of Plant Protection Sciences,2013,21(1):1720.
      [16]Saner D V,Kabre G B,Shinde Y A.Impact of newer insecticides on ladybird beetles(Menochilus Sexmaculatus L.) in hybrid cotton[J].Journal of Industrial Pollution Control,2014,30(2):251253.
      [17]任相亮,姜偉麗,馬亞杰,等.6種殺蟲劑對(duì)棉田龜紋瓢蟲成蟲的毒力測(cè)定及安全性評(píng)價(jià)[J].中國(guó)棉花,2016,43(2):2426,31.
      [18]Wu G,Wang Y,Wang J N,et al.Vitality and stability of insecticide resistance in adult Propylaea japonica(Coleoptera:Coccinellidae) [J].Journal of Insect Science,2018,18(6):110.
      [19]荊英,董文霞,黃建.殺蟲劑對(duì)煙粉虱捕食性天敵小黑瓢蟲的毒力測(cè)定[J].江蘇農(nóng)業(yè)科學(xué),2014,42(7):110112.
      [20]Jalali M A,Van L T,Tirry L,et al.Toxicity of selected insecticides to the twospot ladybird Adalia bipunctata[J].Phytoparasitica,2009,37:323326.
      [21]占志雄,邱良妙,吳瑋,等.殺蟲劑對(duì)龍眼角頰木虱與天敵瓢蟲的毒力及選擇性研究[J].福建農(nóng)業(yè)學(xué)報(bào),2009,24(1):35 39.
      [22]Wu G,Miyata T,Kang C Y,et al.Insecticide toxicity and synergism by enzyme inhibitors in 18 species of pest insect and natural enemies in crucifer vegetable crops[J].Pest Management.Science,2007,63:500510.
      [23]Ahmad M,Rafiq M,Arif M,et al.Toxicity of some commonly used insecticides against Coccinella undecimpunctata(Coleoptera:Coccinellidae) [J].Pakistan Journal of Zoology,2011,43(6):11611165.
      [24]黃保宏,尤強(qiáng)生.黑緣紅瓢蟲對(duì)6種殺蟲劑的敏感性測(cè)定[J].昆蟲知識(shí),2006,43(5):648652.
      [25]Hephizli P,Kumral N A.Determination of susceptibility to insecticides and acaricides along with enzymatic characteristics in the different ladybird beetle Stethorus gilvifrons(Muls.)(Coleoptera:Coccinellidae) populations[J].Turkiye Entomoloji Dergisi,2012,36(4):571584.
      [26]Kabiri M,Besheli B A,Basirat M.A comparison of the toxicity of the botanical insecticide Sirinol and two chemical insecticides Mospilan and Consult on two natural enemies of the pistachio psyllid coccinellid predator Oenopia conglobate[J].African Journal of Biotechnology,2012,11(74):1388813895.
      [27]Alexander A,Krishnamoorthy S V,Kuttalam S.Toxicity of insecticides to the coccinellid predators,Cryptolaemus montrouzieri Mulsant and Scymnus coccivora Ayyar of papaya mealybug,Paracoccus marginatus Williams and Granara de Willink[J].Journal of Biological Control,2013,27(1):1823.
      [28]Patil A M,Korat D M,Sangle P M.Relative Toxicity of Certain Insecticides to Australian Ladybird Beetle,Cryptolaemus montrouzieri Mulsant[J].Trends in Biosciences,2015,8(14):35853587.
      [29]Spíndola A F,SilvaTorres C S A,Rodrigues A R S,et al.Survival and behavioural responses of the predatory ladybird beetle,Eriopis connexa populations susceptible and resistant to a pyrethroid insecticide[J].Bulletin of Entomological Research,2013,103(4):485494.
      [30]Barbosa P R R,Oliveira M D,Barros E M,et al.Differential impacts of six insecticides on a mealybug and its coccinellid predator[J].Ecotoxicology and Environmental Safety,2018,147:963971.
      [31]Babu K S,Singh B,Mhaske B,et al.Clothianidin,a new neonicotinoid insecticide for the management of foliar aphid complex of wheat in India and its safety to coccinellid predators[J].Cereal Research Communications,2012,40(2):296303.
      [32]Mohd A S,Akhtar A K.Assessment of coccinellid biodiversity under pesticide pressure in horticulture ecosystems[J].Indian Journal of Entomology,2014,76(2):107116.
      [33]Anand G K S,Sharma R K,Shankarganesh K.Efficacy of Newer Insecticides against Leaf Hopper and Whitefly Infesting Brinjal and its Effect on Coccinellids[J].Pesticide Research Journal,2014,25(1):611.
      [34]Sumalatha B V,Kadam D R,Jayewar N E,et al.Bioefficacy of newer insecticides against onion thrips(Thrips tabaci L.) and their effect on ladybird beetle[J].Agriculture Update,2017,12(Special1):182188.
      [35]Xiao D,Zhao J,Guo X,et al.Sublethal effect of betacypermethrin on development and fertility of the Asian multicoloured ladybird beetle Harmonia axyridis[J].Journal of Applied Entomology,2016,140(8):598608.
      [36]Jana N,Michal S,Zdenek F F,et al.Effects of socalled "environmentally friendly" agrochemicals on the harlequin ladybird Harmonia axyridis(Coleoptera:Coccinelidae) [J].European Journal of Entomology,2019,116:173177.
      [37]Dai C C,Ricupero M,Wang Z Q,et al.Transgenerational Effects of a Neonicotinoid and a Novel Sulfoximine Insecticide on the Harlequin Ladybird[J].Insects,2021,12(8):681.
      [38]Rahmani S,Bandani A R.Pirimicarb,an aphid selective insecticide,adversely affects demographic parameters of the aphid predator Hippodamia variegata(Goeze)(Coleoptera:Coccinellidae) [J].Journal of Plant Protection Research,2016,56(4):353363.
      [39]Depalo L,Lanzoni A,Masetti A,et al.Lethal and Sublethal Effects of Four Insecticides on the Aphidophagous Coccinellid Adalia bipunctata(Coleoptera:Coccinellidae) [J].Journal of Economic Entomology,2017,110(6),26622671.
      [40]馬雪,韓英,韓旭,等.十一星瓢蟲取食3種殺蟲劑亞致死濃度處理棉蚜對(duì)其生長(zhǎng)發(fā)育和繁殖的影響[J].新疆農(nóng)業(yè)科學(xué),2020,57(6):11131119.
      [41]Lira R,Rodrigues A R S,Torres J B.Fitness Advantage in Heterozygous Ladybird Beetle Eriopis connexa(Germar) Resistant to LambdaCyhalothrin[J].Neotropical Entomology,2016,45(5):573579.
      [42]Santos K F A,Zanuzo Z O,de Morais M R,et al.The impact of six insecticides commonly used in control of agricultural pests on the generalist predator Hippodamia convergens(Coleoptera:Coccinellidae) [J].Chemosphere,2017,186:218226.
      [43]邱良妙,占志雄.5種殺蟲劑亞致死劑量對(duì)龜紋瓢蟲捕食作用的影響[J].熱帶作物學(xué)報(bào),2012,33(10):18721876.
      [44]趙明,沈國(guó)清,陸貽通,等.低劑量吡蟲啉對(duì)異色瓢蟲的Hormesis效應(yīng)及其抗氧化酶活性的影響[J].揚(yáng)州大學(xué)學(xué)報(bào)(農(nóng)業(yè)與生命科學(xué)版),2012,33(4):7780,102.
      [45]王佳佳,付雪,王雪,等.吡蟲啉對(duì)異色瓢蟲種群控害功能的影響[J].應(yīng)用昆蟲學(xué)報(bào),2019,56(5):10881097.
      [46]Tang L D,Wang X M,Jin F L,et al.De Novo SequencingBased Transcriptome and Digital Gene Expression Analysis Reveals Insecticide ResistanceRelevant Genes in Propylaea japonica (Thunberg)(Coleoptea:Coccinellidae) [J].PLoS ONE,2014,9(6):e100946.
      [47]Tang L D,Qiu B L,Cuthbertson A G S,et al.Status of insecticide resistance and selection for imidacloprid resistance in the ladybird beetle Propylaea japonica(Thunberg) [J].Pesticide Biochemistry and Physiology,2015,123:8792.
      [48]金劍雪,李鳳良,程英,等.七星瓢蟲的抗藥性選育及其生物學(xué)特性研究[J].中國(guó)生物防治學(xué)報(bào),2014,30(1):4550.
      [49]楊洪,袁瑞,張帆.異色瓢蟲對(duì)三種殺蟲劑的抗性選育[J].植物保護(hù)學(xué)報(bào),2011,38(5):479480.
      [50]任順祥,王興民,龐虹,等.中國(guó)瓢蟲原色圖鑒[M].北京:科學(xué)出版社,2009:212.
      [51]張世澤,仵均祥,張強(qiáng),等.龜紋瓢蟲生物生態(tài)學(xué)特性及飼養(yǎng)利用研究進(jìn)展[J].干旱地區(qū)農(nóng)業(yè)研究,2004,22(4):206210.
      [52]Zhang S Z,Li J J,Shan H W,et al.Influence of five aphid species on development and reproduction of Propylaea japonica(Coleoptera:Coccinellidae) [J].Biological Control,2012,62:135139.
      [53]Gao F,Jifon J,Liu X H,et al.An energy budget approach for evaluating the biocontrol potential of cotton aphid(Aphis gossypii) by the ladybeetle Propylaea japonica[J].Entomologia Experimentalis et Applicata,2010,136:7279.
      [54]Tang L D,Wu J H,Ali S,et al.The influence of different aphid prey species on the biology and life table parameters of Propylaea japonica[J].Biocontrol Science and Technology,2013,23(6):624636.
      [55]章士美,江永成,沈榮武.六斑月瓢蟲研究簡(jiǎn)報(bào)[J].昆蟲天敵,1980,2(4):1316.
      [56]龐虹.六斑月瓢蟲的色斑變異[J].昆蟲天敵,1990,12(2):8284.
      [57]王祥林,陳文靜,蘇達(dá)明.溫度對(duì)六斑月瓢蟲生長(zhǎng)發(fā)育及繁殖的影響[J].西南林業(yè)大學(xué)學(xué)報(bào),2012,32(4):7680.
      [58]張平貴,楊志興,楊洪,等.煙田天敵昆蟲載體植物的適宜性評(píng)價(jià)[J].山地農(nóng)業(yè)生物學(xué)報(bào),2020,39(6):1621.
      [59]朱福興,王金信,劉峰,等.常用殺蟲劑對(duì)蘋果黃蚜、龜紋瓢蟲的毒力及其選擇性測(cè)定[J].植物保護(hù)學(xué)報(bào),1998,25(1):9394.
      [60]宋化穩(wěn),慕立義,王金信.13種殺蟲劑對(duì)龜紋瓢蟲及大草蛉的毒力研究[J].農(nóng)藥科學(xué)與管理,2001,22(6):1718.
      [61]周建昌,馬秋玲,盧春霞,等.蔬菜中毒死蜱農(nóng)藥殘留現(xiàn)狀和禁用后監(jiān)管的探討[J].浙江農(nóng)業(yè)科學(xué),2016,57(12):21012102.
      

      
                        
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