ライフサイエンスコーパス: insect pest

1 Myzus persicae), an agronomically important insect pest.

2 al, oomycete, and bacterial pathogens and an insect pest.

3 f microbial control organisms for the target insect pest.

4 mes of commercial fruits susceptible to this insect pest.

5 can help guide management of this widespread insect pest.

6 ly interface for real time identification of insect pest.

7 taneum as a viable means of controlling this insect pest.

8 novel crop protection strategy against this insect pest.

9 e sustainable management of this devastating insect pest.

10 rom worldwide populations of an agricultural insect pest.

11 e a means of engineering plant resistance to insect pests.

12 oassayed for resistance to five lepidopteran insect pests.

13 networks that fine-tune plant resistance to insect pests.

14 a plants to study its effect on lepidopteran insect pests.

15 for control of both agricultural and medical insect pests.

16 iendly options for cost-effective control of insect pests.

17 redators that attack them as well as various insect pests.

18 lay an important natural role in controlling insect pests.

19 m and is deployed as a biological control of insect pests.

20 methods, could protect valuable assets from insect pests.

21 n diploid, haplodiploid, and parthenogenetic insect pests.

22 ential for control of commercially important insect pests.

23 Phenacoccus solenopsis, and Bemisia tabaci) insect pests.

24 control agent that is active against several insect pests.

25 s useful for controlling the reproduction of insect pests.

26 t that could be used to control agricultural insect pests.

27 ts in helping to control Anopheles and other insect pests.

28 in developing new strategies for controlling insect pests.

29 atodes and are used around the world to kill insect pests.

30 practical significance for the management of insect pests.

31 rotein controls certain lepidopterous cotton insect pests.

32 sticide against a spectrum of stored-produce insect pests.

33 ime in their availability and suitability to insect pests.

34 rates and offer effective control of certain insect pests.

35 molecules against Coleopteran and Hemipteran insect pests.

36 on and different spectra of activity against insect pests.

37 on as potential biological control agents of insect pests.

38 be used as a general strategy for control of insect pests.

39 targets for controlling a group of notorious insect pests.

40 ed sticky traps are commonly used to monitor insect pests.

41 giensis (Bt) are used globally to manage key insect pests.

42 fits and are important globally for managing insect pests.

43 trol strategies designed to suppress harmful insect pests.

44 y species-specific approaches for control of insect pests.

45 eraction between plants and piercing/sucking insect pests.

46 s that are implicated in resistance in other insect pests.

47 e employed as such for biological control of insect pests.

48 uzzles and provide new tools for controlling insect pests.

49 elies on the use of agrochemicals to control insect pests.

50 rategies against many agriculture and forest insect pests.

51 synthetic chemical tools in the for control insect pests.

52 ains in other major medical and agricultural insect pests.

53 ng a diverse range of agricultural and other insect pests.

54 ngus-insecticide integration against sucking insect pests.

55 lications for the control of highly damaging insect pests.

56 non-lethal effects for biological control of insect pests.

57 ingiensis (Bt) are grown worldwide to manage insect pests.

58 use and, specifically, pesticides targeting insect pests.

59 laboratory findings to inform forecasting of insect pests.

60 tle progress has been made with agricultural insect pests.

61 strategies against these major agricultural insect pests.

62 sed of wood-boring insects, including forest insect pests.

63 ing Allee effects and consequently eradicate insect pests.

64 ed defense (immunity), and the deterrence of insect pests.

65 re defenses in response to olfactory cues of insect pests.

66 plied on trees as protection measure against insect pests.

67 en widely used for the biological control of insect pests.

68 urability of Bt crops for management of some insect pests.

69 ies for selectively controlling agricultural insect pests.

70 ing a valuable gene for rice defence against insect pests.

71 hemical pesticides for control of hemipteran insect pests.

72 rimary target for pyrethroid insecticides in insect pests.

73 st interactions and as biocontrol agents for insect pests.

74 t toxins used in transgenic crops against 15 insect pests.

75 portion of global food production is lost to insect pests.

76 of manipulation of the microbiota to control insect pests.

77 an uncharted territory for the agricultural insect pests.

78 , salinity tolerance as well as diseases and insect-pests.

79 e (L.), which is one of the most destructive insect pests against many strategic grains such as wheat

80 en Colletotrichum fioriniae are an important insect pest and fungal disease of highbush blueberries,

81 dge on the biology of a devastating tropical insect pest and suggests new pest management strategies.

82 and crop diversity, respectively, supported insect pest and weed control services in agricultural la

83 llus thuringiensis (Bt) toxins kill some key insect pests and can reduce reliance on insecticide spra

84 r, a significantly lower number of principal insect pests and damage symptoms were found in treatment

85 o use MLEs in the germline transformation of insect pests and disease vectors.

86 otential of spider-venom peptides to control insect pests and highlight their advantages and disadvan

87 represent a major new arsenal for combating insect pests and insect-borne diseases.

88 ect the interactions between crop plants and insect pests and may promote yet another form of global

89 t an analysis of almost 1,300 known invasive insect pests and pathogens, calculating the total potent

90 is increasing evidence that acylsugars deter insect pests and plant virus vectors, including the west

91 rade facilitates the inadvertent movement of insect pests and subsequent establishment of populations

92 developed for the protection of plants from insect pests and their associated diseases, with a major

93 Within many agricultural systems, insect pests and their natural enemies are forced to per

94 egies involve the behavioral manipulation of insect pests and their natural enemies via the integrati

95 llus thuringiensis (Bt) toxins kill some key insect pests and thus can reduce reliance on insecticide

96 method to protect them against agricultural insect pests and to control vector mosquitoes.

97 (JH) is an attractive target for control of insect pests and vectors of disease, but the minute size

98 s could provide a novel means of controlling insect pests and vectors of human disease by impairing t

99 ingly important in the biological control of insect pests and vectors of human disease.

100 of particular importance for the control of insect pests and vectors of pathogens, while insect-born

101 n in reaching a lethal heating condition for insect pests, and hence measure the importance of the pa

102 include a brittle texture, susceptibility to insect pests, and inferior functional characteristics of

103 isruption of microbial symbionts required by insect pests, and manipulation of microorganisms with ma

104 each, the behavior and movement patterns of insect pests, and the agronomic and economic requirement

105 Insect pests are a major cause of crop losses worldwide,

106 Insect pests are a major cause of damage to the world's

107 Outbreaks of emerging plant diseases and insect pests are increasing at an alarming rate threaten

108 for chemical-free treatments for controlling insect pests are increasing worldwide.

109 cides are being used for the control of many insect pests as an environmentally acceptable alternativ

110 This is particularly important for insect pests because adaptation to warming could lead to

111 pathway in the aphid Acyrthosiphon pisum, an insect pest belonging to the Hemiptera, an earlier-diver

112 ose foliage is rarely affected by disease or insect pests, but can be severely damaged by ungulate br

113 ticidal when injected into a wide variety of insect pests, but it has limited oral toxicity.

114 merging crop protection technologies against insect pests, but they are vulnerable to resistance evol

115 Predicting the regulation of herbivorous insect pests by arthropod predators and parasitoids woul

116 onstrate that resistance of plants toward an insect pest can be modulated by genetically engineering

117 While attack by closely related insect pests can result in distinctive levels of induced

118 ave been proposed in recent years to control insect pests, characterizing the genetics of the target

119 ttributed to the increase in abundance of an insect pest, contributing to a crop disease pandemic.

120 e summarize recent progress in RNAi-mediated insect pest control and discuss factors determining its

121 y pyrethroids, are the most important in the insect pest control and preventing insect vector-borne h

122 Over-reliance on synthetic pesticides in insect pest control has caused widespread public and sci

123 prove advantageous for the implementation of insect pest control programs.

124 PATTEC and, more generally, other vector or insect pest control programs.

125 gical succession, use of prescribed fire for insect pest control, and effects of fire on insect diver

126 Transgenic crops have revolutionized insect pest control, but their effectiveness has been re

127 providing potential novel opportunities for insect pest control.

128 Insect pest data collected in commercial agriculture fie

129 tive correlations between weed densities and insect pest densities.

130 sal was achieved in an emerging agricultural insect pest, Drosophila suzukii, by creating a temperatu

131 , Ceratitis capitata, is a major destructive insect pest due to its broad host range, which includes

132 eafhoppers) are some of the most devastating insect pests due to the numerous plant pathogens they tr

133 the increased susceptibility of the plant to insect pests due to the systemic absence of glands that

134 also documented the consumption of multiple insect pests (e.g., Rhyacionia frustrana) and disease ve

135 Cotton plants attacked by herbivorous insect pests emit relatively large amounts of characteri

136 een plants and other organisms, particularly insect pests, foundered because of difficulties in deliv

137 Preventing insect pests from developing resistance to Bacillus thur

138 l system have been developed in a variety of insect pests, from which females die by either of two co

139 By 2007, the presence of this insect pest had been confirmed in 20 European countries.

140 D. suzukii, a destructive insect pest, harbor a non-CI inducing Wolbachia 'wSuz' c

141 expansion and ecological dominance shifts of insect pests has been challenging due to the lack of bas

142 The management of insect pests has long been dominated by the use of chemi

143 thuringiensis (Bt) toxins that kill the same insect pest have been widely used to delay evolution of

144 h and the environment, especially since many insect pests have already developed resistances to conve

145 ns of controlling a variety of pathogens and insect pests; however, they can cause harmful effects on

146 th enhanced resistance to viral diseases and insects pests, improved nutritional content, modified an

147 wn planthopper (BPH) is the most destructive insect pest in rice.

148 ra (Coleoptera: Chrysomelidae), is a serious insect pest in the major corn growing areas of North Ame

149 ly used as seed treatments to manage sucking insect pests in a wide range of field crops.

150 Densities of insect pests in agricultural communities may be affected

151 cation is a primary weapon in the control of insect pests in agriculture.

152 uld contribute to the sustainable control of insect pests in agroecosystems.

153 ve control of several different lepidopteran insect pests in genetically modified tobacco and other p

154 t is a key defensive protein against chewing insect pests in maize (Zea mays).

155 e model's consistent accuracy in identifying insect pests in maze crop and mango orchards.

156 Elaterid beetle larvae are among insect pests in soil that are increasingly problematic,

157 d for development, thus preventing damage by insect pests in stored grain.

158 al for the ecological and safe management of insect pests in the cotton ecosystem.

159 y and abundance of natural enemies of cotton insect pests in these cultivated cotton species.

160 ne Protease, a key defensive protein against insect pests, in Mp708 plants.

161 However, insect pests, including mosquitoes, have developed resis

162 icity against various stages of a variety of insect pests, including the brown marmorated stinkbug, H

163 arch and management are seldom used to study insect pest infestations in agricultural ecosystems.

164 ventional techniques for monitoring of these insect pests involve pheromone attractants and sticky tr

165 Surveillance for invading insect pests is costly and the trapper usually finds the

166 The emergence of insecticide resistant insect pests is of significant concern worldwide.

167 mal hosts, but their biocontrol potential of insect pests is routinely overlooked in agriculture and

168 Rhopalosiphum maidis), a phloem sap-sucking insect pest, is independent of JA but regulated by the E

169 t resistance may slow the adaptation of some insect pests, it may speed up adaptations of others.

170 del for automated monitoring and identifying insect pests, like fruit flies and fall-armyworms, in op

171 wn B. thuringiensis toxin against the forest insect pest Lymantria dispar (gypsy moth), unfortunately

172 as well as for developing new strategies of insect pest management and virus resistance in plants.IM

173 e extensive use of chemical insecticides for insect pest management has resulted in insecticide resis

174 alternative tool to synthetic pesticide for insect pest management in crop production, thereby, redu

175 n rice fields could lead to more sustainable insect pest management in rice agroecosystems, potential

176 the anticipated heightened demand for novel insect pest management strategies created by growing hum

177 giensis (Bt) have been successfully used for insect pest management, a diverse range of insect-specif

178 velopment of alternative control methods for insect pest management.

179 ense mechanism for developing strategies for insect pest management.

180 ion to plant quarantine, but also for use in insect pest monitoring.

181 for mitigating the damaging effects of some insect pests, most notably ants, that rely on olfaction

182 a lugens) is the main non-target sap-sucking insect pest of Bt transgenic rice.

183 s hampei) is the most economically important insect pest of coffee globally.

184 Hypothenemus hampei) is the most devastating insect pest of coffee worldwide with its infestations de

185 rer (Hypothenemus hampei), the most damaging insect pest of coffee worldwide.

186 s hampei, is the most economically important insect pest of coffee worldwide.

187 irgifera virgifera LeConte) (WCR) is a major insect pest of corn (Zea mays L.) in the United States (

188 era: Chrysomelidae), is the most destructive insect pest of corn (Zea mays L.) in the United States.

189 rgifera virgifera LeConte, is an established insect pest of maize (Zea mays L.) in North America.

190 ano (Coleoptera: Curculionidae), is the main insect pest of peppers (Capsicum spp.) throughout the so

191 e pine weevil, a major North American forest insect pest of pine and spruce.

192 Woodwasp, Sirex noctilio, which is the main insect pest of pine plantations in the Southern Hemisphe

193 Aphis glycines Matsumura), the most damaging insect pest of soybean (Glycine max (L.) Merr.) in North

194 , we show how irruptions in a common, cyclic insect pest of the boreal forest, the spruce budworm (Ch

195 s become the most widespread and destructive insect pest of turf, landscapes, and nursery crops in th

196 sian fly (Mayetiola destructor) is the major insect pest of wheat worldwide, and an emerging model fo

197 Hessian fly (Mayetiola destructor), a major insect pest of wheat, is based on a gene-for-gene intera

198 Insect pests of agricultural crops have establish immuno

199 an 50 years for monitoring and management of insect pests of agriculture and human health.

200 chome coverage and strong resistance to many insect pests of Brassica oilseeds and vegetables.

201 miptera: Miridae) are economically important insect pests of many crops worldwide.

202 hropods such as honey bees and shrimp and to insect pests of medical and agricultural importance.

203 ecome intertwined such that the impact of an insect pest on forest structure and composition alters p

204 for controlling lepidopteran and coleopteran insect pests on crops depend on the expression of Bacill

205 sed as a crop protection measure to suppress insect pests on trees.

206 CR12-MPED peptide effectively control target insect pests, our discovery has important implications r

207 nts had increased resistance to a major rice insect pest, pink stem borer (Sesamia inferens).

208 The insect pest Plutella xylostella has evolved a mechanism

209 pair of NCR toxins to control a hypothetical insect pest population.

210 rile insect technique is a method to control insect pest populations by sterilizing males with ionizi

211 have been created to improve the control of insect pest populations damaging to human health and agr

212 ect technique programs, have helped suppress insect pest populations since the 1950s.

213 enetic control aims to reduce the ability of insect pest populations to cause harm via the release of

214 Allee effects successfully interact to drive insect pest populations towards extinction.

215 atments regarding grain damage, weight loss, insect pest populations, and grain moisture content; wit

216 degree than hay or woody habitats) increased insect pest predation rates (by 23%) and reduced pest in

217 lified landscapes may be more susceptible to insect pest pressure because of the loss of natural enem

218 ape simplification results in an increase in insect pest pressure, and thus an increased need for ins

219 les the extension of genetic techniques into insect pests previously refractory to genetic analysis.

220 and Vip3Cb1 proteins targeting lepidopteran insect pests produced by MON 89151 cotton was characteri

221 acillus thuringiensis (Bt) proteins kill key insect pests, providing economic and environmental benef

222 Insect pest recognition has always been a significant br

223 its toxicity to many economically important insect pests, relatively low levels of cross-resistance

224 erile Insect Technique (SIT) used to control insect pests relies on the release of large numbers of r

225 ed studies that have examined its effects on insect pest resistance and the underlying mechanisms.

226 nique (SIT), to control D. suzukii and other insect pest species of agricultural and medical importan

227 t has proven to be effective against several insect pest species of agricultural and veterinary impor

228 cially concerning for economically important insect pest species, as their introduction can potential

229 ully suppressed field populations of several insect pest species, but its effect on mosquito vector c

230 n insecticide widely used for the control of insect pest species, including Mediterranean fruit fly,

231 increase the efficacy of RNA interference in insect pest species.

232 hality strains that may be extended to other insect pest species.

233 virulent pathogens of a number of important insect pest species.

234 Pseudomonas syringae pv tomato (Pst) and the insect pest Spodoptera exigua.

235 ock promoters from an important agricultural insect pest, Spodoptera frugiperda, is still lacking.

236 es after treatment with methyl jasmonate and insect pests, Spodoptera litura (cotton leafworm), Oxya

237 Insect pests such as termites cause damages to crops and

238 is crucial to the control of mobile swarming insect pests such as the desert locust.

239 flies and fall-armyworm are one of the major insect pest that adversely affect fruit and crops, where

240 ois transitella (Walker), is an agricultural insect pest that can be controlled by disrupting male-fe

241 borer, Chilo suppressalis, an important rice insect pest that causes huge yield loss.

242 thrips, Frankliniella occidentalis, a small insect pest that is globally distributed.

243 sibility in the squash bug Anasa tristis, an insect pest that requires bacterial symbionts in the gen

244 ation places it at risk from invasive exotic insect pests that enter from the United States, Central

245 ly worldwide to control diploid agricultural insect pests that reproduce sexually.

246 farmers by consuming coffee's most damaging insect pest, the coffee berry borer beetle (Hypothenemus

247 overwintering range of a global agricultural insect pest, the diamondback moth (Plutella xylostella),

248 Unlike other insect pests, the Hessian fly larvae have minute mandibl

249 notic- and antibiotic-mediated resistance to insect pests, their role in conditioning plant tolerance

250 idoptera: Gelechiidae), is the most damaging insect pest threatening the production of tomato and oth

251 Evolution of resistance by insect pests threatens the continued effectiveness of Ba

252 er a durable, multimechanistic resistance to insect pests through an understanding of the diversity o

253 c good,' specifically, the susceptibility of insect pests to Bt proteins.

254 rum resistance illustrates the potential for insect pests to develop resistance rapidly to multiple B

255 as been successfully implemented in multiple insect pests to suppress field populations by the releas

256 Such agents could affect the responses of insect pests to the humans they seek.

257 g the evolution of resistance by herbivorous insect pests to transgenic host plants containing insect

258 of facultative microorganisms that influence insect pest traits.

259 that bind a cadherin-like receptor from the insect pest Trichoplusia ni (TnCAD) that is not natively

260 the RNAi pathway can be exploited to control insect pests via in planta expression of a dsRNA.

261 idespread use of insecticides and heightened insect pest virulence under climate change continue to f

262 the potential ranges of their pathogens and insect pests, which risk spilling over and impacting nat

263 me B. vulgaris plants resistant to important insect pests, while other, susceptible plants produce di

264 nsecticides to prevent crop damage caused by insect pests, while they also rely on insect pollinators

265 ra: Noctuidae) is a devastating agricultural insect pest with broad spectrum of host range, causing m

266 he first documented case of resistance in an insect pest with high pesticide resistance potential usi

267 uringiensis (Bt) are broadly used to control insect pests with agricultural importance.

268 for developing transgenic crops resistant to insect pests with high economic value.

269 sed device, called Smart Trap, that attracts insect pests with pheromones and captures real-time imag

270 sodium channel insecticides that target key insect pests without harming beneficial species.

271 rmination in B. tabaci, an emerging invasive insect pest worldwide, will provide potential molecular

272 have had a centuries-long role as major soil insect pests worldwide.

273 that has successfully eradicated a number of insect pests, yet the A. gambiae toolkit lacks the requi