棉蚜对吡虫啉抗性的初步研究

用吡虫啉对棉蚜进行室内抗性筛选,用药处理25次后抗性是筛选前的20.03倍;2007年对田间棉蚜进行抗性调查,发现不同地区种群对吡虫啉的抗性差异显著,江苏南京种群最为敏感,河南安阳、山东泰安和北京地区棉蚜与之相比,抗性分别为2.21、7.63和9.53倍;抗、感品系解毒酶活力分析发现,抗性品系的谷胱甘肽S-转移酶活性增加很少(比活力1.12倍),但酯酶活力显著高于敏感品系(比活力1.71倍);增效试验结果表明,顺丁烯二酸二乙酯(DEM)在抗、感品系中对吡虫啉均没有明显的增效作用,而磷酸三苯酯(TPP)和增效醚(PBO)虽然在敏感品系中对吡虫啉的增效作用较小(SR 1.24和1.29),但在抗性品系中的增效作用显著增高(SR 2.13和1.74);此外还发现,吡虫啉处理可提高棉蚜群体的酯酶活力。由此认为,棉蚜至少具有对吡虫啉产生中等水平抗性的风险,其抗性可能是由于棉蚜的酯酶和P450单加氧酶的解毒能力提高所致。     

三种新烟碱类杀虫剂在土壤中的残留降解及影响因子

建立了吡虫啉、啶虫脒和噻虫嗪在土壤中的高效液相色谱-串联质谱（HPLC-MS/MS）检测方法。样品经乙腈提取和QuEChERS法净化后,采用HPLC-MS/MS检测,外标法定量,在0.01~1.0 mg/kg添加水平下,3种新烟碱类杀虫剂在土壤中的回收率在89%~103%之间,相对标准偏差（RSD）在1.3%~10.3%之间,定量限均为0.01 mg/kg。采用建立的方法,在室内模拟条件下,研究了土壤微生物、温度、土壤含水量及农药初始浓度对土壤中吡虫啉、啶虫脒和噻虫嗪降解的影响。结果表明:土壤微生物是影响农药残留降解的首要因素,灭菌处理土壤中农药残留降解速率明显低于非灭菌土壤。此外,环境温度、土壤含水量、初始浓度等因素也会对农药残留降解产生不同影响,土壤含水量为最大持水量的60%左右时降解最快,半衰期分别为15.6、7.2和25.8 d;农药初始浓度越高,降解速度越慢;在5~35℃范围内,随着温度的升高,降解速度加快。     

Antifeedant and sublethal effects of imidacloprid on Asian citrus psyllid,Diaphorina citri

BACKGROUND: Asian citrus psyllid (ACP), Diaphorina citri Kuwayama, transmits the causal bacteria of the devastating citrus disease huanglongbing (HLB). Because of the variation in spatial and temporal uptake and systemic distribution of imidacloprid applied to citrus trees and its degradation over time in citrus trees, ACP adults and nymphs are exposed to concentrations that may not cause immediate mortality but rather sublethal effects. The objective of this laboratory study was to determine the effects of sublethal concentrations of imidacloprid on ACP life stages. RESULTS: Feeding by ACP adults and nymphs on plants treated daily with a sublethal concentration (0.1 µg mL^?1) of imidacloprid significantly decreased adult longevity (8 days), fecundity (33%) and fertility (6%), as well as nymph survival (12%) and developmental rate compared with untreated controls. The magnitude of these negative effects was directly related to exposure duration and concentration. Furthermore, ACP adults that fed on citrus leaves treated systemically with lethal and sublethal concentrations of imidacloprid excreted significantly less honeydew (7–94%) compared with controls in a concentration‐dependent manner suggesting antifeedant activity of imidacloprid. CONCLUSIONS: Sublethal concentrations of imidacloprid negatively affect development, reproduction, survival and longevity of ACP, which likely contributes to population reductions over time. Also, reduced feeding by ACP adults on plants treated with sublethal concentrations of imidacloprid may potentially decrease the capacity of ACP to successfully acquire and transmit the HLB causal pathogen. Copyright © 2009 Society of Chemical Industry     

吡虫啉对豌豆蚜的亚致死效应

室内测定了吡虫啉的亚致死剂量（LC20、LC30、LC40）对豌豆蚜的生长发育、繁殖和种群参数的影响。结果表明,随着吡虫啉亚致死剂量的增加,豌豆蚜F0代成蚜的寿命显著缩短,产蚜量显著降低。亚致死剂量也使F1代种群的内禀增长率、净增殖率和周限增长率降低,而发育历期、平均世代周期和种群加倍时间延长。     

河北省不同地区棉蚜对吡虫啉等杀虫剂抗药性发展动态研究

2004—2007年间,测定了氧化乐果、灭多威、吡虫啉和啶虫脒等杀虫剂对河北省不同地区棉蚜的毒力。与敏感基线比较,河北省各地棉蚜对灭多威的抗药性始终处于中、高抗水平,抗性倍数最高达94.04倍;对氧化乐果的抗药性发展较快,但基本仍处于中、低抗水平,其抗性倍数为2.15～20.76;河北省各地棉蚜种群对新烟碱类杀虫剂吡虫啉和啶虫脒的抗药性差异波动较大,对啶虫脒的差异最大可达25.83倍。     

两种纳米农药及其原药对亚洲柑橘木虱的毒力比较

亚洲柑橘木虱Diaphorina citri Kuwayama是黄龙病的传播媒介,快速、高效地防治媒介昆虫是黄龙病综合防治最重要的技术措施。纳米农药不但能够提高药效、降低化学农药用量,而且提高使用安全性和生物利用度。为了明确纳米农药对亚洲柑橘木虱的防治效果,本实验选用纳米阿维菌素水悬浮剂、纳米阿维.吡虫啉水悬浮剂及其对应原药进行毒力测定,并比较同质量浓度下的杀虫效果,结果表明：1、两种纳米农药的毒力均高于对应原药,其中纳米阿维.吡虫啉水悬浮剂的毒力最强,其处理后第三天LC₅₀为0.0054mg/L,LC₉₅为2.1019mg/L;2、处理后48h、72h相比于24h,纳米阿维.吡虫啉在同质量浓度,死亡率的上升幅度极大,1.25-20 mg/L在72h时导致的死亡率达93%-100%,与200 mg/L无显著差异,而原药随时间推移死亡率虽有所上升,但幅度较小;3、纳米阿维菌素及其原药在处理后3-4d才开始出现死亡,虽然起初纳米阿维菌素防效不及原药,但在随后3d提效速度较快,并在防效上也超过原药;4、阿维.吡虫啉与阿维菌素相比,无论是纳米农药还是原药,其发挥药效较快,而且杀虫效果较好。     

Honey Bees (Hymenoptera: Apidae) Decrease Foraging But Not Recruitment After Neonicotinoid Exposure

Honey bees (Linnaeus, Hymenoptera: Apidae) are widely used as commercial pollinators and commonly forage in agricultural and urban landscapes containing neonicotinoid-treated plants. Previous research has demonstrated that honey bees display adverse behavioral and cognitive effects after treatment with sublethal doses of neonicotinoids. In laboratory studies, honey bees simultaneously increase their proportional intake of neonicotinoid-treated solutions and decrease their total solution consumption to some concentrations of certain neonicotinoids. These findings suggest that neonicotinoids might elicit a suboptimal response in honey bees, in which they forage preferentially on foods containing pesticides, effectively increasing their exposure, while also decreasing their total food intake; however, behavioral responses in semifield and field conditions are less understood. Here we conducted a feeder experiment with freely flying bees to determine the effects of a sublethal, field-realistic concentration of imidacloprid (IMD) on the foraging and recruitment behaviors of honey bees visiting either a control feeder containing a sucrose solution or a treatment feeder containing the same sucrose solution with IMD. We report that IMD-treated honey bees foraged less frequently (–28%) and persistently (–66%) than control foragers. Recruitment behaviors (dance frequency and dance propensity) also decreased with IMD, but nonsignificantly. Our results suggest that neonicotinoids inhibit honey bee foraging, which could potentially decrease food intake and adversely affect colony health.