柑橘全爪螨两个田间种群抗性监测及羧酸酯酶生化特性研究

采用叶碟浸渍法测定了重庆北碚和万州地区柑橘全爪螨Panonychus citri(McGregor)田间种群对阿维菌素、毒死蜱、甲氰菊酯和哒螨灵的抗性水平。结果表明,同室内敏感品系相比,北碚种群对毒死蜱、甲氰菊酯和哒螨灵的相对抗性水平分别达到3倍、3倍和22倍;万州种群对阿维菌素、毒死蜱、甲氰菊酯和哒螨灵的相对抗性水平分别达到2倍、35倍、10倍和2倍。柑橘全爪螨2个地理种群的羧酸酯酶CarE的生化特性研究发现,CarE酶活的增高和毒死蜱的抗性存在一定的相关性。毒死蜱对不同地理种群柑橘全爪螨CarE的抑制效果不同,对抗性倍数较高的万州种群抑制效果最差。     

十种杀螨剂对朱砂叶螨不同发育阶段的毒力比较

【目的】为明确不同杀螨剂对朱砂叶螨Tetranychuscinnabarinus不同发育阶段的生物活性。【方法】采用浸渍法分别测定了10种杀螨剂对朱砂叶螨成螨、卵和若螨的毒力。【结果】丁氟螨酯、阿维菌素和联苯肼酯对成螨、卵和若螨的活性均较高;乙螨唑和螺螨酯对卵和若螨活性较高,但对成螨活性明显偏低;甲氰菊酯对成螨和若螨的活性优于卵;唑螨酯、哒螨灵和三唑锡对3种螨态也均具有毒杀作用,但毒力偏低。同一种杀螨剂对若螨的活性均高于成螨和卵,乙螨唑、螺螨酯、联苯肼酯、唑螨酯和炔螨特对卵的活性高于成螨,丁氟螨酯、阿维菌素、甲氰菊酯、哒螨灵和三唑锡对成螨的活性高于卵。【结论】不同杀螨剂对朱砂叶螨不同发育阶段毒力存在较大差异,田间用药防治时应根据害螨发生情况和发生阶段,选择适合的防治药剂。     

11种杀螨剂对异色瓢虫的安全性比较

本研究选用9种常用杀螨剂及2种新型杀螨剂螺虫乙酯、米尔贝霉素,在其田间推荐使用浓度范围内分别设高、中、低三个试验剂量,用喷雾法直接处理异色瓢虫幼虫、蛹、成虫,以比较药剂对该瓢虫的安全性。主要研究结果如下：1）通过调查24h、48h死亡率,发现11种杀螨剂对异色瓢虫3龄幼虫毒杀效果由高至低依次为三唑锡＞双甲脒＞阿维菌素＞甲氰菊酯＞炔螨特＞哒螨灵＞噻螨酮＞米尔贝霉素＞甲维盐＞螺螨酯=螺虫乙酯,其中螺螨酯和螺虫乙酯处理的幼虫死亡率均为0。2）除阿维菌素、甲氰菊酯和甲维盐外,其它8种杀螨剂对蛹羽化为成虫基本没影响。11种杀螨剂对刚羽化出的成虫有残毒作用,毒效由高至低依次为阿维菌素＞甲维盐＞双甲脒＞甲氰菊酯＞螺螨酯＞三唑锡＞哒螨灵＞噻螨酮＞炔螨特＞螺虫乙酯＞米尔贝霉素,其中后6种药剂处理的新羽化成虫死亡率在13.8%以下。3）双甲脒、螺螨酯、三唑锡、哒螨灵、噻螨酮、炔螨特处理成虫的死亡率为0,其余5种药剂对成虫的毒杀效果由高至低依次为阿维菌素＞甲氰菊酯＞甲维盐＞螺虫乙酯＞米尔贝霉素。为了保护异色瓢虫,田间化学防治叶螨时应根据该瓢虫发生虫态合理选用杀螨剂。     

山楂叶螨对螺螨酯的抗药性及对七种杀螨剂的交互抗性

【目的】筛选山楂叶螨Amphitetranychus viennensis Zacher对螺螨酯的抗药性,并明确其对7种杀螨剂的交互抗性。【方法】采用室内生物测定的方法,研究山楂叶螨对螺螨酯的抗性发展趋势及其交互抗性。【结果】用螺螨酯筛选山楂叶螨21代,抗性上升11.65倍;抗性品系对乙螨唑存在明显的交互抗性,抗性倍数为6.30;对噻螨酮存在负交互抗性,抗性倍数为0.69;对阿维菌素、炔螨特和三唑锡不存在交互抗性,抗性倍数分别为1.15、1.25、1.78;对哒螨灵和联苯肼酯有产生交互抗性的可能,抗性倍数分别为3.46和2.79。【结论】螺螨酯防治山楂叶螨存在抗性风险,抗螺螨酯的山楂叶螨品系会产生交互抗性,上述结果可为果园科学使用螺螨酯和合理轮换用药提供理论依据。     

朱砂叶螨抗药性监测

本文采用药膜法建立了朱砂叶螨Tetranychus cinnabarinus（Boisduval）对5种杀螨剂的敏感基线,并对6个不同地理种群的朱砂叶螨进行了抗药性监测,结果表明：5种药剂杀螨活性由高到低分别为阿维菌素〉丁氟螨酯〉氧化乐果〉炔螨特〉甲氰菊酯,其对朱砂叶螨雌成螨的LC50值分别为0.08、2.19、67.89、201.19和605.27mg/L;朱砂叶螨各地理种群已对甲氰菊酯和炔螨特产生了低、中水平的抗性,其抗性倍数分别介于2.93～16.22与4.85～14.35之间,其中云南种群对这2种杀螨剂抗性最高,对氧化乐果与丁氟螨酯处于敏感性降低阶段,其抗性倍数分别介于2.35～4.26与1.56～2.11之间,对阿维菌素还未产生明显抗性;对阿维菌素和甲氰菊酯的增效剂生物测定结果表明,三类解毒酶系（多功能氧化酶、谷胱甘肽S-转移酶和酯酶）都不同程度地参与了朱砂叶螨抗药性的形成。     

橘全爪螨对双甲脒的抗性选育及其P450基因的表达差异分析

为了对双甲脒进行抗性风险评估, 弄清P450基因在橘全爪螨Panonychus citri抗药性中的作用, 在室内用双甲脒对橘全爪螨进行了抗性选育和交互抗性研究, 同时分析了橘全爪螨双甲脒抗性和敏感品系P450基因表达差异。经过12代抗性选育, 获得了橘全爪螨双甲脒抗性品系, 与敏感品系比较, 橘全爪螨对双甲脒的抗性倍数达到26.32倍。抗性风险评估表明, 橘全爪螨对双甲脒抗性遗传力h²为0.148。螺螨酯、 丁醚脲、 炔螨特和三唑锡对抗性品系的LC₅₀分别为敏感品系的16.85, 4.98, 2.13和2.05倍, 表明双甲脒抗性品系对螺螨酯、 丁醚脲、 炔螨特和三唑锡具有明显的交互抗性。阿维菌素、 苯丁锡、 哒螨灵、 矿物油对抗性品系LC₅₀分别为敏感品系的1.10, 1.21, 0.67和0.99倍, 表明双甲脒抗性品系对上述4种药剂没有显著的交互抗性。基因差异性分析发现, 抗性品系中有16条P450基因发生了上调, 27条P450基因发生了下调, 其中CYP389A6上调倍数最高［log₂ratio (RS/SS)=11.526］, CYP389A2下调倍数最高［log2ratio(RS/SS) =-12.683］, 由此推断, CYP389A6上调和CYP389A2下调可能是橘全爪螨对双甲脒产生抗性的重要原因。     

5种杀螨剂对不同螨态荔枝叶螨的毒力评价和田间防效

为了综合评价常用杀螨剂对荔枝叶螨Oligonychus litchii的室内毒力,在室内分别采用Potter喷雾法、浸叶碟法和浸叶法测定了5种常用杀螨剂对荔枝叶螨成螨、卵和若螨的毒力,并测定了5种杀螨剂对荔枝叶螨的田间防效。室内毒力结果表明:哒螨灵、阿维菌素对荔枝叶螨成螨和若螨有较高的毒力,联苯肼酯对成螨和若螨的毒力较低,而螺螨酯和乙螨唑对成螨基本无活性,对若螨有一定的毒力;5种杀螨剂对卵的毒力大小依次为乙螨唑螺螨酯哒螨灵阿维菌素联苯肼酯。田间防效试验中,15%哒螨灵乳油和1.8%阿维菌素乳油对荔枝叶螨的总体防效较好,药后1 d防效高于70%,药后10 d防效达100%,药后20 d防效仍在90%以上,速效性和持效性均较好;240 g/L螺螨酯悬浮剂和110 g/L乙螨唑悬浮剂对荔枝叶螨药后3 d防效均低于70%,而药后20 d的防效高于90%,说明两药剂速效性较差但持效性较好;43%联苯肼酯悬浮剂药后1、3 d防效低于阿维菌素和哒螨灵,高于螺螨酯和乙螨唑,药后15 d防效开始下降。在田间防治荔枝叶螨时,若荔枝叶螨发生早期、成螨较少时建议施用螺螨酯或乙螨唑,而荔枝叶螨种群中成螨、若螨较多时推荐施用阿维菌素、哒螨灵或联苯肼酯。     

朱砂叶螨对三种杀螨剂的抗性选育与抗性风险评估

为评价朱砂叶螨Tetranychus cinnabarinus对3种杀螨剂的抗性风险,在实验室抗性品系选育基础上,应用数量遗传学中的域性状分析法,研究了朱砂叶螨北碚种群对甲氰菊酯、阿维菌素和哒螨灵3种杀螨剂的抗性现实遗传力,并对3种药剂在不同杀死率下抗性发展的速率进行了预测。结果表明：分别单一连续汰选16代后,朱砂叶螨对甲氰菊酯、阿维菌素的抗性倍数分别达26.54和4.51倍,对哒螨灵表现为敏感性降低（抗性倍数为1.16倍）;朱砂叶螨对甲氰菊酯、阿维菌素和哒螨灵的抗性现实遗传力分别为0.2472,0.1519和0.0160。在室内选择条件下,杀死率为50%～90%时,要获得10倍抗性,甲氰菊酯仅需要13～6代,阿维菌素需要约21～10代;哒螨灵需要约197～89代;在田间选择,三种药剂都将需要更长的时间。抗性筛选16代结果表明,抗性风险较高的是菊酯类的甲氰菊酯,其次是生物源农药阿维菌素,杂环类的哒螨灵抗性风险较小。试验结果可为朱砂叶螨抗性治理提供参考。     

桔全爪螨对阿维菌素和甲氰菊酯的抗性现实遗传力及风险评估

在实验室抗性选育的基础上,应用数量遗传学中的域性状分析法,研究了桔全爪螨北碚种群对阿维菌素和甲氰菊酯2种杀螨剂的抗性现实遗传力,并对2种药剂在不同杀死率下抗性发展的速率进行了预测.结果表明:用阿维菌素和甲氰菊酯分别不连续汰选11及16代后,桔全爪螨对两者的抗性分别为3.8和29.9倍,抗性现实遗传力分别为0.0475和0.1544.在室内选择条件下,杀死率为50%～90%时,要获得10倍抗性,甲氰菊酯仅需要7～16代,阿维菌素则需要12～26代.而在田间选择情况下,2种药剂都将需要更长的时间.抗性筛选结果表明,生物源农药阿维菌素的抗性风险明显低于菊酯类农药甲氰菊酯.试验结果可为桔全爪螨抗性治理提供参考.     

陕西苹果园山楂叶螨抗药性监测

【目的】明确陕西省苹果园的山楂叶螨Tetranychus viennensis Zacher种群对5种药剂的抗性水平。【方法】采用玻片浸渍法,建立了山楂叶螨室内饲养的相对敏感种群对5种杀虫剂的敏感基线,同时从陕西乾县、礼泉、兴平、澄城、安塞、淳化、凤翔和扶风8个不同地区的苹果园采集山楂叶螨,分析这些田间种群的抗药性水平。【结果】山楂叶螨室内相对敏感种群对阿维菌素的敏感性最高,对毒死蜱敏感性最低;各种群对哒螨灵已产生了13.29~69.63倍的抗性;对高效氯氟氰菊酯已经产生了7.99~46.74倍的抗性;除兴平种群对阿维菌素表现为低抗水平外(抗性倍数7.63),其余种群对阿维菌素表现为敏感或者敏感性下降(抗性倍数1.89~3.94);除扶风种群对毒死蜱抗性水平处于敏感性下降的阶段外,其它7个种群对毒死蜱的均处于敏感阶段;各种群对噻虫嗪均处于敏感阶段。【结论】山楂叶螨室内相对敏感种群对5种不同杀虫剂的敏感性不同;各田间种群对哒螨灵和高效氯氟氰菊酯两种药剂已经产生了不同水平的抗药性,除兴平种群对阿维菌素产生低抗水平抗性外,其余田间种群对阿维菌素、毒死蜱和噻虫嗪抗性均表现为敏感或者敏感性下降;田间防治时应该减少哒螨灵和高效氯氟氰菊酯两种药剂的使用,同时注意不同农药的轮换使用,以此延缓山楂叶螨对杀虫剂产生高水平抗药性。     

Multiple resistance and biochemical mechanisms of pyridaben resistance in Tetranychus urticae (Acari: Tetranychidae)

A field colony of Tetranychus urticae (Koch) (Acari: Tetranychidae) resistant to pyridaben was selected with pyridaben successively for 20 generations to produce the PR-20 strain. Resistance and multiple resistance levels of the PR-20 strain to 15 acaricides were determined using a spray bioassay. The PR-20 strain was extremely resistant to pyridaben (resistance ratio [RR] = 240]. The strain exhibited extremely strong resistance to fenpyroximate (RR=373) and acrinathrin (RR=329) and strong resistance to benzoximate (RR=84). An RR = 10-40 was observed with abamectin, fenazaquin, fenbutatin oxide, fenpropathrin, and tebufenpyrad. The PR-20 strain showed low levels of resistance (RR <10) to azocyclotin, bromopropylate, chlorfenapyr, dicofol, milbemectin, and propargite. Synergist experiments with different metabolic inhibitors revealed that piperonyl butoxide (PBO), a mixed function oxidase (MFO) inhibitor, had the greatest effect on pyridaben resistance. PBO significantly caused pyridaben resistance in the PR-20 strain to drop to the full susceptibility level of the susceptible (S) strain. However, there was no significant difference in MFO activities measured using a model substrate between the S and PR-20 strains. These results suggest that use of certain acaricides with little multiple resistance or PBO will be useful for the management of pyridaben resistance in the field.     

Resistance of Brevipalpus phoenicis (Geijskes) (Acari: Tenuipalpidae) to acaricides that inhibit cellular respiration in citrus: cross-resistance and fitness cost

Acaricides that inhibit cellular respiration play an important role in the control of Brevipalpus phoenicis (Geijskes) in citrus groves in Brazil. Studies were conducted to evaluate: (a) the variability in the susceptibility among B. phoenicis populations collected from citrus groves to cyhexatin, azocyclotin, propargite and sulphur; (b) cross-resistance relationships between propargite and azocyclotin, cyhexatin, dinocap, pyridaben and sulphur; and (c) the fitness cost associated with propargite resistance in B. phoenicis under laboratory conditions. A residual-type contact bioassay was used to characterize the susceptibility. The susceptibility was estimated with diagnostic concentrations based LC(95) of each acaricide. The cross-resistance was evaluated by characterizing the concentration-mortality responses of susceptible (S) and propargite-resistant (Propargite-R) strains. The fitness cost was evaluated by measuring the biological parameters of S and Propargite-R strains on citrus fruits at 25 +/- 1 degrees C and fotophase of 14h. Significant differences in the susceptibility of B. phoenicis were detected at diagnostic concentration of cyhexatin (survivorship from 16.3% to 80.5%), azocyclotin (from 3.0% to 15.0%), propargite (from 1.0% a 71.6%) and sulphur (from 9.0% to 82.6%). A low intensity of cross-resistance was detected between propargite and the acaricides azocyclotin (1.8-fold), cyhexatin (4.6-fold), dinocap (3.5-fold) and pyridaben (3.5-fold). On the other hand, the intensity of cross-resistance to sulphur (> 111-fold) was very high. There was no fitness cost associated with B. phoenicis resistance to propargite, based on biological parameters evaluated. Therefore, the use of these acaricides should also be done very carefully in resistance management of B. phoenicis to acaricides.     

ESTMATION OF REALIZED HERITABILITY OF RESISTANCE TO FENPROPATHRIN, ABAMECTIN, PYRIDABEN AND THEIR MIXTURES IN ACARICIDE-SELECTED STRAINS OF TETRANYCHUS CINNABARINUS (BOIDUVAL)

Abstract Threshold trait analysis was used to estimate realized heritability (h²) of resistance to five acaricides (three single acaricide and two mixtures) and resistance risk in Tetranychus cinnabarinus (Boiduval). Tetranychus cinnabarinus collected from the field of Beibei, Chongqing reared more than 60 generations under pesticide free conditions and considered susceptible. Successively selected for about 30 generations, the strain had a 65.55-, 5.82-, 1.23-, 5.20- and 1.42-fold increase in resistance to fenpropathrin, abamectin, pyridaben, pyridaben-abamectin (pyridaben: abamectin = 7.4:0.1, m/m) and fenpropathrin-abamectin (fenpropathrin: abamectin = 8.9:0.1, m/m), respectively. The realized heritability of resistance to fenpropathrin, abamectin, pyridaben, pyridaben-abamectin (pyridaben: abamectin = 7.4:0.1, m/m) and fenpropathrin-abamectin (fenpropathrin: abamectin = 8.9:0.1, m/m) is 0.2167, 0.0967, 0.0130, 0.0800 and 0.0172, respectively. Under the selected condition, a 10-fold increase in resistance would be expected 15 generations for fenpropathrin, 34 generations for abamectin, 333 generations for pyridaben, 42 generations for pyridaben-abamectin (pyridaben: abamectin = 7.4:0.1, m/m) and 200 generations for fenpropathrin-abametcin (fenpropathrin: abamectin = 8.9:0.1, m/m). The highest resistance risk of the five acaricides in Tetranychus cinnabarinus was fenpropathrin, then abamection, pyridaben-abamectin (pyridaben: abamectin = 7.4: 0.1, m/m), fenpropathrin- abamectin (fenpropathrin: abamectin = 8.9:0.1, m/m) and that to pyridaben was the lowest. The mixture of pyridaben and abamectin is not useful in delaying development of resistance in the pest to the two single acaricide while the mixture of fenpropathrin and abamectin could do it.     

朱砂叶螨对甲氰菊酯、阿维菌素,哒螨灵及其混剂抗性遗传力的分析(英文)

采用域性状分析法 ,估算了朱砂叶螨对 5种杀螨剂 (3种单剂和 2种混剂 )的抗性现实遗传力 ,并对 5种药剂的抗性风险进行了评估。把采自重庆北碚田间的朱砂叶螨种群 ,在室内不施药情况下饲养 6 0余代 ,以此作为抗性筛选的敏感品系。分别单一连续汰选近 30代 ,朱砂叶螨对甲氰菊酯、阿维菌素、哒螨灵、哒螨 -阿维 (哒螨灵 :阿维菌素 =7 4 :0 1,m m)和甲氰 -阿维 (甲氰菊酯 :阿维菌素 =8 9:0 1,m m)的抗性分别达 6 5 5 5、5 82、1 2 3、5 2 0和 1 4 2 倍 ;抗性现实遗传力分别为 0 2 16 7、0 0 96 7、0 0 130、0 0 80 0和 0 0 172。在实验室选择条件下 ,预计抗性增长 10倍时 ,甲氰菊酯、阿维菌素、哒螨灵、哒螨 -阿维 (哒螨灵 :阿维菌素 =7 4 :0 1,m m)和甲氰 -阿维 (甲氰菊酯 :阿维菌素 =8 9:0 1,m m)分别需要 15、34、333、4 2和 2 0 0代。甲氰菊酯抗性风险较高 ,其次是阿维菌素、哒螨 -阿维 (哒螨灵 :阿维菌素 =7 4 :0 1,m m)、甲氰 阿维 (甲氰菊酯 :阿维菌素 =8 9:0 1,m m) ,哒螨灵抗性风险较低。混剂哒螨 阿维 (哒螨灵 :阿维菌素 =7 4 :0 1,m m)不能延缓朱砂叶螨对两单剂哒螨灵和阿维菌素的抗性发展 ,而混剂甲氰 阿维 (甲氰菊酯 :阿维菌素 =8 9:0 1,m m)却能有效延缓朱砂叶螨对两单剂     

Multiple Resistance and Biochemical Mechanisms of Dicofol Resistance in Tetranychus urticae (Acari: Tetranychidae)

A field colony of Tetranychus urticae (Koch) resistant to dicofol was selected with dicofol successively for 20 generations to produce the DR-20 strain. Resistance and multiple resistance levels of the DR-20 strain to 15 acaricides were determined using a spray bioassay. The DR-20 strain was extremely resistant to dicofol [resistance ratio (RR), 465]. The strain showed extremely strong resistance to acrinathrin (RR, 373) and benzoximate (RR, 197) and strong resistance to bromopropylate (RR, 136), fenbutatin oxide (RR, 65), fenpropathrin (RR, 70), fenpyroximate (RR, 68), and pyridaben (RR, 63). A RR of 11–29 was observed with abamectin, fenazaquin, milbemectin, propagite, and tebufenpyrad. The DR-20 strain exhibited low levels of resistance (RR<3) to azocyclotin and chlorfenapyr. In comparative assays with detoxifying enzymes, the DR-20 strain showed 4.7-fold higher activity in p-nitroanisole-O-demethylation and 1.6-fold higher activities in both α- and β-naphthyl acetate hydrolysis. Synergist experiments with different metabolic inhibitors revealed that piperonyl butoxide, iprobenfos, triphenyl phosphate, and 4, 4-dichloro-α-methyl benzhydrol had little or no synergistic activity in the susceptible and DR-20 strains. These results suggest that employment of certain acaricides with little multiple resistance will be useful for the management of dicofol resistance in the field.     

Development of acaricide resistance in Pacific spider mite (<Emphasis Type="Italic">Tetranychus pacificus</Emphasis>) from California vineyards

In recent years, grape growers in California reported failures of acaricides against Tetranychus pacificus McGregor. We collected T. pacificus populations from four vineyards and tested them for resistance to bifenazate, propargite and pyridaben. In addition, we sequenced part of the cytochrome b gene of bifenazate-resistant and -susceptible T. pacificus to test for the presence of mutations reported to confer resistance to the congeneric T. urticae. None of the mutations conferring resistance to bifenazate in T. urticae were present in resistant T. pacificus. Resistance levels ranged from full susceptibility to statistically significant 11-fold resistance to pyridaben, sevenfold resistance to bifenazate and fourfold resistance to propargite compared to a susceptible population. Despite the relatively low levels of resistance detected, we estimated that under the conditions of our study the highest field rates of bifenazate and pyridaben application would cause less than 58 and 66% mortality of adult females in the most resistant populations, respectively. In contrast, field rates of propargite application would cause close to 100% mortality in the least susceptible population. These results highlight a potential link between resistance development and reduced field effectiveness for bifenazate and pyridaben. Finally, T. pacificus may be more tolerant to bifenazate and propargite than T. urticae, since the LC₅₀ values for the susceptible population of T. pacificus were several times higher than LC₅₀’s reported for susceptible T. urticae.     

Mode of inheritance of resistance to three new acaricides in the Kanzawa spider mite Tetranychus kanzawai Kishida (Acari:Tetranychidae)

The genetics of resistance to three new types of acaricide tebufenpyrad, fenpyroximate and pyridaben was studied by crossing a resistant (R) with a susceptible (S) strain of Tetranychus kanzawai Kishida. The resistance ratios calculated from the LC50s of the R and S strains were 97, 1265 and 134 for tebufenpyrad, fenpyroximate and pyridaben, respectively. The responses to the three acaricides in F1 females from reciprocal crosses between the R and S strains showed that the modes of inheritance of resistance to tebufenpyrad, fenpyroximate and pyridaben were intermediate, incompletely dominant and completely recessive, respectively. Furthermore, the responses of F2 females from the reciprocal crosses indicated that the resistance to the three acaricides was under monogenic control.Exp Appl Acarol 22: 699708 © 1998 Kluwer Academic Publishers