Non‐target‐site resistance to PDS‐inhibiting herbicides in a wild radish (Raphanus raphanistrum) population     

Huan Lu  Qin Yu  Heping Han  Mechelle J Owen  Stephen B Powles 《Pest management science》2020,76(6):2015-2020

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A Val‐202‐Phe α‐tubulin mutation and enhanced metabolism confer dinitroaniline resistance in a single Lolium rigidum population     

Jinyi Chen  Zhizhan Chu  Heping Han  Danica E Goggin  Qin Yu  Chad Sayer  Stephen B Powles 《Pest management science》2020,76(2):645-652

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Inheritance of resistance to 2,4‐D and chlorsulfuron in a multiple‐resistant population of Sisymbrium orientale          下载免费PDF全文

Christopher Preston  Jenna M Malone 《Pest management science》2015,71(11):1523-1528

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Mechanisms of resistance to acetyl‐coenzyme A carboxylase‐inhibiting herbicides in a Hordeum leporinum population     

Nick Matthews  Stephen B Powles  Christopher Preston 《Pest management science》2000,56(5):441-447

A failure of acetyl‐coenzyme A carboxylase (ACCase)‐inhibiting herbicides to control a population of Hordeum leporinum Link (barleygrass) occurred following eight applications of these herbicides in both crops and pastures. This population was 7.6‐fold resistant to fluazifop‐P‐butyl compared with standard susceptible populations. The population was between 3.6‐ and 3.8‐fold resistant to other ACCase‐inhibiting herbicides, except butroxydim to which it was susceptible. ACCase extracted from resistant plants and assayed in the presence of herbicides in vitro was susceptible to fluazifop acid and other aryloxyphenoxypropanoate herbicides, but was 4‐fold less sensitive to sethoxydim compared with ACCase from susceptible plants. Resistant plants metabolised fluazifop acid about 1.3‐fold more rapidly compared with susceptible plants; however, sethoxydim was metabolised equally in both populations. Resistance to fluazifop‐P‐butyl and other aryloxyphenoxypropanoate herbicides may be the result of increased herbicide detoxification, whereas resistance to sethoxydim appears to be due to a modified target enzyme. Herbicide resistance in this population is unusual in that different mechanisms appear to confer resistance to the aryloxyphenoxypropanoate and cyclohexanedione herbicides. © 2000 Society of Chemical Industry  相似文献   

Confirmation of 2,4‐D resistance and identification of multiple resistance in a Kansas Palmer amaranth (Amaranthus palmeri) population     

Vipan Kumar  Rui Liu  Grant Boyer  Phillip W Stahlman 《Pest management science》2019,75(11):2925-2933

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Characterisation of abamectin resistance in a field‐evolved multiresistant population of Plutella xylostella     

Xin Pu  Yihua Yang  Shuwen Wu  Yidong Wu 《Pest management science》2010,66(4):371-378

BACKGROUND: Plutella xylostella (L.) has evolved resistance to various kinds of insecticide in the field. Reversion and selection, cross‐resistance, inheritance and mechanisms of abamectin resistance were characterised in a field‐derived multiresistant population of P. xylostella from China. RESULTS: Compared with a susceptible Roth strain, the field‐derived TH population showed ～5000‐fold resistance to abamectin. Rapid reversion of abamectin resistance was observed in the TH population when kept without insecticide selection. The TH‐Abm strain, selected from the TH population with abamectin, developed 23 670‐fold resistance to abamectin, a high level of cross‐resistance to emamectin benzoate and low levels of cross‐resistance to spinosad and fipronil. Genetic analyses indicated that abamectin resistance in the TH‐Abm strain was autosomal, incompletely dominant and polygenic. P450 monooxygenase activities in the TH‐Abm strain were significantly elevated compared with the TH strain. Piperonyl butoxide (PBO) inhibited a small part of abamectin resistance in the TH‐Abm strain. CONCLUSION: Field‐evolved high‐level resistance to abamectin in the TH population was not stable. Selection of the TH population with abamectin resulted in an extremely high level of cross‐resistance to emamectin benzoate and low levels of cross‐resistance to spinosad and fipronil. Enhanced oxidative metabolism was involved in, but may not be the major mechanism of, polygenic abamectin resistance in the TH‐Abm strain. Copyright © 2009 Society of Chemical Industry  相似文献   

Segregation of non‐target‐site resistance to herbicides in multiple‐resistant Alopecurus myosuroides plants          下载免费PDF全文

M Rosenhauer  F G Felsenstein  H‐P Piepho  M Höfer  J Petersen 《Weed Research》2015,55(3):298-308

Non‐target‐site resistance (NTSR) comprises a set of mechanisms conferring resistance to multiple modes of action. Investigation of the number of loci involved in NTSR will aid in the understanding of these resistance mechanisms. Therefore, six different multiple herbicide‐resistant Alopecurus myosuroides plants with different herbicide history were crossed in two generations with a susceptible wild type. Seeds from the backcrossing generation were studied for their segregation rate for resistance to five herbicides with four different modes of action (HRAC groups C₂, A, B and K₃). Taking into account that NTSR is a set of quantitative traits, the numbers of loci controlling NTSR were estimated using a normal mixture model fitted by the NLMIXED procedure of SAS. Each herbicide was controlled by a different number of loci comparing the six plants. In most of the cases, chlorotoluron resistance was controlled by one locus, whereas resistance to fenoxaprop‐P‐ethyl needed one or two loci. Resistance to pinoxaden was in all plants conferred by two loci. Cross‐resistance of fenoxaprop‐P‐ethyl and pinoxaden was found in all backcrossings, indicating that at least one of the two loci is responsible for both resistances. Resistance to mesosulfuron + iodosulfuron was conferred by a minimum of two loci. Results indicated that a minimum of five different loci can be involved in a multiple NTSR plant. Furthermore, the plant‐specific accumulation of NTSR loci was demonstrated. Such behaviour should be taken into account when evaluating the development and further spread of herbicide resistance.  相似文献   

Dinitroaniline herbicide resistance in a multiple‐resistant Lolium rigidum population          下载免费PDF全文

Jinyi Chen  Qin Yu  Mechelle Owen  Heping Han  Stephen Powles 《Pest management science》2018,74(4):925-932

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Determination of the inheritance,cross‐resistance and detoxifying enzyme levels of a laboratory‐selected,spiromesifen‐resistant population of the predatory mite Neoseiulus californicus (Acari: Phytoseiidae)     

Sibel Yorulmaz‐Salman  Recep Ay 《Pest management science》2014,70(5):819-826

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Trp‐1999‐Ser mutation of acetyl‐CoA carboxylase and cytochrome P450s‐involved metabolism confer resistance to fenoxaprop‐P‐ethyl in Polypogon fugax     

Ning Zhao  Lu'an Ge  Yanyan Yan  Shuang Bai  Dandan Wang  Weitang Liu  Jinxin Wang 《Pest management science》2019,75(12):3175-3183

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Imidacloprid‐susceptible Nilaparvata lugens individuals exceeded resistant individuals in a mixture population with density pressure          下载免费PDF全文

Na Yu  Jiahua Tian  Yixi Zhang  Zhong Li  Zewen Liu 《Pest management science》2018,74(1):234-239

BACKGROUND

Fitness costs associated with insecticide resistance in pest insects have mainly been studied under optimal laboratory conditions. However, resistant insects face more stressors than just insecticides in the field, and how the resistant population reacts to these stressors is of practical importance for the control of pest insects such as the brown planthopper Nilaparvata lugens. The aim of the present study was to explore the impact of population density on the competitiveness of resistant and susceptible individuals.

RESULTS

Two isogenic N. lugens populations, a highly imidacloprid‐resistant population (HZ‐R) with a resistance ratio (RR) of 227.10 and a relatively susceptible population (HZ‐S) with an RR of 2.99, were created from a field‐resistant population (HZ; RR 62.51). The high resistance levels of HZ‐R and HZ were mainly attributable to the overexpression of multiple cytochrome P450 (CYP) genes such as CYP6ER1, CYP6AY1, CYP6CW1 and CYP4CE1 compared with HZ‐S, this being supported by piperonyl butoxide synergism. HZ‐R was observed to be more resistant to thiacloprid and etofenprox compared with HZ and HZ‐S. Most interestingly, in high population density treatments, HZ‐S individuals were much more competitive than HZ‐R individuals.

CONCLUSION

Imidacloprid‐resistant individuals of N. lugens are less competitive than their susceptible counterparts under density pressure. © 2017 Society of Chemical Industry  相似文献   

Within‐population variation in resistance of Digitaria sanguinalis to Ustilago syntherismae resulting from different modes of seed germination and environment     

M. T. Mas  A. M. C. Verdú 《Plant pathology》2014,63(1):140-147

In annual plants affected by inflorescence‐invading smut pathogens, avoidance of infection is crucial, while in the event of infection, the existence of different degrees of tolerance could also affect the interaction dynamics. Two experiments were performed with Digitaria sanguinalis spikelets vacuum inoculated with ustilospores of Ustilago syntherismae. In the first experiment, they were sown in pots and mature plants were checked to detect internal hyphae. Observations revealed the presence of symptomless mycelium in a few plants. In the second experiment the spikelets, from two different lots, were grown in a chamber. The objective was to explore the importance of two factors in the degree of seedling infection, one genotypic – type of germination (TG; radicular or coleoptilar) and one environmental – 48 h dark treatment (DT) applied just after germination. Analysis of the infection frequency showed that all the main effects (seed lot origin, TG and DT) were significant, while interactions were not. For TG, the estimated least square mean infection percentages were 66% for radicular germination and 46% for coleoptilar germination. Darkness increased seedling infection by 25%. Differences between TG, DT and their relationship with mesocotyl length exposed to the germinating spores are discussed.  相似文献   

The origin of herbicide‐resistant Chenopodium album: analysis of genetic variation and population structure     

J APER  J DE RIEK  E MECHANT  B DE CAUWER  R BULCKE  D REHEUL 《Weed Research》2010,50(3):235-244

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Evolution of resistance to HPPD‐inhibiting herbicides in a wild radish population via enhanced herbicide metabolism     

Huan Lu  Qin Yu  Heping Han  Mechelle J Owen  Stephen B Powles 《Pest management science》2020,76(5):1929-1937

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Field‐evolved resistance to four modes of action of herbicides in a single kochia (Kochia scoparia L. Schrad.) population          下载免费PDF全文

Vijay K Varanasi  Amar S Godar  Randall S Currie  Anita J Dille  Curtis R Thompson  Phillip W Stahlman  Mithila Jugulam 《Pest management science》2015,71(9):1207-1212

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A novel triple amino acid substitution in the EPSPS found in a high‐level glyphosate‐resistant Amaranthus hybridus population from Argentina     

Valeria E Perotti  Alvaro S Larran  Valeria E Palmieri  Andrea K Martinatto  Clarisa E Alvarez  Daniel Tuesca  Hugo R Permingeat 《Pest management science》2019,75(5):1242-1251

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Target‐site mutation associated with cross‐resistance to ALS‐inhibiting herbicides in late watergrass (Echinochloa oryzicola Vasing.)     

Nikolaos S Kaloumenos  Sofia L Chatzilazaridou  Photini V Mylona  Alexios N Polidoros  Ilias G Eleftherohorinos 《Pest management science》2013,69(7):865-873

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Identification of a novel phenamacril‐resistance‐related gene by the cDNA‐RAPD method in Fusarium asiaticum          下载免费PDF全文

Weichao Ren  Hu Zhao  Wenyong Shao  Weiwei Ma  Jianxin Wang  Mingguo Zhou  Changjun Chen 《Pest management science》2016,72(8):1558-1565

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Herbicide‐resistant weed management: focus on glyphosate     

Hugh J Beckie 《Pest management science》2011,67(9):1037-1048

This review focuses on proactive and reactive management of glyphosate‐resistant (GR) weeds. Glyphosate resistance in weeds has evolved under recurrent glyphosate usage, with little or no diversity in weed management practices. The main herbicide strategy for proactively or reactively managing GR weeds is to supplement glyphosate with herbicides of alternative modes of action and with soil‐residual activity. These herbicides can be applied in sequences or mixtures. Proactive or reactive GR weed management can be aided by crop cultivars with alternative single or stacked herbicide‐resistance traits, which will become increasingly available to growers in the future. Many growers with GR weeds continue to use glyphosate because of its economical broad‐spectrum weed control. Government farm policies, pesticide regulatory policies and industry actions should encourage growers to adopt a more proactive approach to GR weed management by providing the best information and training on management practices, information on the benefits of proactive management and voluntary incentives, as appropriate. Results from recent surveys in the United States indicate that such a change in grower attitudes may be occurring because of enhanced awareness of the benefits of proactive management and the relative cost of the reactive management of GR weeds. Copyright © 2011 Society of Chemical Industry  相似文献   

Resistance to PPO‐inhibiting herbicide in Palmer amaranth from Arkansas          下载免费PDF全文

Reiofeli A Salas  Nilda R Burgos  Patrick J Tranel  Shilpa Singh  Les Glasgow  Robert C Scott  Robert L Nichols 《Pest management science》2016,72(5):864-869

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