Snodgrass G L, Gore J, Abel C A, Jackson R
Southern Insect Management Research Unit, Stoneville, MS 38776, USA.
J Econ Entomol. 2009 Apr;102(2):699-707. doi: 10.1603/029.102.0231.
A monitoring program that used a glass-vial bioassay to detect acephate resistance in populations of the tarnished plant bug, Lygus lineolaris (Palisot de Beauvois) (Heteroptera: Miridae), was carried out with weed-collected populations from 20 sites in the delta of Arkansas, Louisiana, and Mississippi. Additional results from field tests using recommended rates of formulated acephate in cotton showed that plant bug populations with resistance ratio (RR50) values > 3.0 for acephate (from the glass-vial bioassay) would be difficult to control in the field. Over a 4-yr-period from 2001 through 2004, only one population tested with the glass-vial bioassay was found with an RR50 value > 3.0 for acephate, but six populations having RR50 values > 3.0 were found in the delta in 2005. In fall 2005, an additional 10 populations from the hill region (the cotton growing areas outside the delta) were tested and four of these populations had RR50 values > 3.0. The number of populations with RR50 values > 3.0 increased to five of 10 and 18 of 20 in the hills and delta, respectively, in fall 2006. Laboratory tests using resistant populations found that resistance to acephate was not sex-linked and the alleles controlling the resistance were semidominant in nature. Because of the large increase in resistant populations and the nature of the resistance found in this study, along with control problems experienced by growers in 2006, entomologists in the mid-South strongly recommended that alternation of insecticide classes in field treatments for plant bug control be used by growers in 2007. This control strategy probably helped control plant bugs in the hills of MS where plant bug pressure was low in 2007, and only one population was found in the fall with an RR50 value > 3.0. Plant bug pressure was very high in many parts of the delta in 2007, and 15 of the 20 populations tested in the fall had RR50 values > 3.0. In one field test in cotton, a population with multiple resistance was tested and not effectively controlled in treatments using recommended rates of carbamate, organophosphate, and pyrethroid insecticides. Alternation of insecticide classes may not work very well when populations are present that are resistant to three of the four main classes of cotton insecticides. New insecticides in different classes are badly needed for control of tarnished plant bugs in cotton in the mid-South.
利用玻璃管生物测定法监测牧草盲蝽(Lygus lineolaris (Palisot de Beauvois),半翅目:盲蝽科)种群对乙酰甲胺磷抗性的项目,在阿肯色州、路易斯安那州和密西西比州三角洲地区20个地点采集的杂草上的种群中展开。在棉花田中使用推荐剂量的制剂型乙酰甲胺磷进行田间试验的其他结果表明,对乙酰甲胺磷抗性比率(RR50)值>3.0的牧草盲蝽种群(来自玻璃管生物测定法)在田间难以控制。在2001年至2004年的4年期间,用玻璃管生物测定法检测的种群中,仅发现一个种群对乙酰甲胺磷的RR50值>3.0,但2005年在三角洲地区发现6个种群的RR50值>3.0。2005年秋季,对山区(三角洲以外的棉花种植区)另外10个种群进行了检测,其中4个种群的RR50值>3.0。2006年秋季,山区10个种群中有5个、三角洲地区20个种群中有18个种群的RR50值>3.0。利用抗性种群进行的实验室试验发现,对乙酰甲胺磷的抗性与性别无关,控制抗性的等位基因在本质上是半显性的。由于抗性种群大幅增加以及本研究中发现的抗性特性,再加上种植者在2006年遇到的防治问题,美国中南部的昆虫学家强烈建议种植者在2007年对牧草盲蝽进行田间防治时采用交替使用不同类别杀虫剂的方法。这种防治策略可能有助于控制密西西比州山区的牧草盲蝽,2007年该地区牧草盲蝽压力较低,秋季仅发现一个种群的RR50值>3.0。2007年三角洲地区许多地方的牧草盲蝽压力非常高,秋季检测的20个种群中有15个种群的RR50值>3.0。在一项棉花田间试验中,对一个具有多重抗性的种群进行了检测,在使用推荐剂量的氨基甲酸酯类、有机磷类和拟除虫菊酯类杀虫剂进行处理时,该种群未得到有效控制。当存在对四种主要棉花杀虫剂中的三种具有抗性的种群时,交替使用不同类别杀虫剂可能效果不佳。美国中南部急需不同类别的新型杀虫剂来防治棉花中的牧草盲蝽。
