Appraising the role of anti-thermal activity of beta-cyclodextrin on selective insecticides against Thrips tabaci (Thysanoptera: Thripidae)

Acta Phytopathologica Et Entomologica Hungarica Pub Date : 2022-06-03 DOI:10.1556/038.2022.00141

Wael M. Khamis, Ehsan M. Abdel-Moety

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Abstract

Evaluation studies investigated the leverage effects of beta-cyclodextrin (β-CD) on the long-termed toxicity of cypermethrin 25% EC, sulfoxaflor 24% SC, acetamiprid 20% SL and chlorfenapyr 24% SC against adults of Thrips tabaci laboratory strain (Thysanoptera: Thripidae) (Lindeman, 1889) from 8 up to 40 °C. Laboratory studies showed no toxicity for β-CD alone at all tested concentrations. Concentrations of β-CD at 1.25 and 2.50 gm L−1 had potent leverage effects on the LC50s of cypermethrin within 30–35 °C and sulfuxoflor at 40 °C. β-CD at 0.5 gm L−1 had no leverage effect on tested insecticides. All the tested concentrations of β-CD decreased the toxicity of acetamiprid. Semi-field trials (≥28 °C) along 12 days declared that β-CD (equivalent to 1.25 gm L−1) increased the overall mean mortality percentages of 0.5 FRs of cypermethrin (73.08%) and sulfoxaflor (54.74%) compared to their 0.5 FRs alone of 63.70 and 44.30%, respectively in season 2020. While in season 2021, only cypermethrin at 0.5 FR + β-CD (74.45%) surpassed its 0.5FR (61.83%). Lethal times (LT50) values in semi-field trials showed a prolonged residual toxicity periods for the 0.5 FRs of cypermethrin + β-CD (8.58 days) and sulfoxaflor + β-CD (4.80 days) compared to their 0.5 FRs of 6.65 and 3.24 days, respectively in season, 2020. Furthermore, LT50 values of the 0.5 FRs of cypermethrin + β-CD (9.02 days) and sulfoxaflor + β-CD (7.34 days) exceeded their 0.5 FRs of 6.24 and 4.07 days, respectively in 2021. Thus β-CD could realize leverage efficacy and longer-termed toxicity for cypermethrin and sulfoxaflor in high temperatures.

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-环糊精对选择性杀虫剂对烟蓟马的抗热活性评价

评估研究调查了β-环糊精（β-CD）对25%氯氰菊酯EC、24%磺基沙氟隆SC、20%啶虫脒SL和24%氯芬那吡SC对毒蜥实验室菌株（Thysanoptera：Thripidae）（Lindeman，1889）成虫的长期毒性的杠杆作用，从8到40 °C。实验室研究表明，在所有测试浓度下，单独使用β-CD均无毒性。1.25和2.50时的β-CD浓度克 L−1 在30–35范围内对氯氰菊酯的LC50具有强大的杠杆作用 °C和40时的硫含量 °C。0.5时的β-CD 克 L−1 对测试的杀虫剂没有杠杆作用。所有测试浓度的β-CD都降低了啶虫脒的毒性。半现场试验（≥28 °C）在12天内宣布β-CD（相当于1.25 gm L−1）增加了氯氰菊酯（73.08%）和磺基恶氟脲（54.74%）的0.5 FR的总体平均死亡率，而2020年季节仅使用它们的0.5 FR分别为63.70%和44.30%。而在2021年季节，只有0.5 FR+β-CD的氯氰菊酯（74.45%）超过了其0.5 FR（61.83%）。半田间试验中的致死时间（LT50）值显示，氯氰菊酯+β-CD（8.58天）和磺基恶氟脲+β-CD（4.80天）的0.5 FR残留毒性期延长，而2020年季节的0.5 FR分别为6.65天和3.24天。此外，2021年，氯氰菊酯+β-CD（9.02天）和磺基恶氟脲+β-CD（7.34天）的0.5FR的LT50值分别超过了6.24天和4.07天的0.5FR。因此，β-CD可以在高温条件下对氯氰菊酯和氟氯氰菊酯产生增效作用和长期毒性。

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来源期刊

Acta Phytopathologica Et Entomologica Hungarica Agricultural and Biological Sciences-Plant Science

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： The journal publishes papers on the infectious diseases of plants, damages caused by insects and deals with the basic aspects of chemical and biological protection. Within its field of interest additional topics such as resistance against plant diseases, and physiological, biochemical and molecular questions of plant resistance and susceptibility are also discussed. Publishes book reviews and advertisements.