Maize is a cornerstone of global food security,but it faces increasing challenges from corn aphids,particularly with the widespread adoption of genetically modified Bt maize.This trend suggests a growing need for sust...Maize is a cornerstone of global food security,but it faces increasing challenges from corn aphids,particularly with the widespread adoption of genetically modified Bt maize.This trend suggests a growing need for sustainable pest control strategies.Methyl salicylate has been proposed as a volatile compound with the potential for managing aphids.In this study,Y-tube olfactometer and Petri dish dispersal assays showed that methyl salicylate can repel wingless and winged aphids at 0.1 to 1,000 ngμL^(-1).Moreover,at concentrations of 100 and 1,000 ngμL^(-1),it was found to attract beneficial insects such as adults and larvae of Harmonia axyridis.Exposing maize plants to methyl salicylate resulted in a prominent reduction in the number of aphids compared to the control.In addition,clip cage experiment assays showed that the nymphal development duration was increased,while the adult duration and generation time were reduced,and the reproductive duration and total number of aphid offspring in plants treated with methyl salicylate were dramatically lower than in the control.Over two years of field trials,methyl salicylate-impregnated alginate beads provided significant reductions in the populations of key aphid species,including Rhopalosiphum padi,Rhopalosiphum maidis,and Aphis gossypii.Concurrently,there were marked increases in the presence of natural predators such as H.axyridis,Propylaea japonica,Syrphus corollae,and Chrysoperla sinica.These compelling results underscore the potential of methyl salicylate as a key component in integrated pest management strategies for maize,offering a green alternative to traditional chemical control.展开更多
Fipronil is an insecticide with low residual activity and high efficacy at low concentrations.Due to its widespread use and long half-life,fipronil can persist during wastewater treatment and is found even in surface ...Fipronil is an insecticide with low residual activity and high efficacy at low concentrations.Due to its widespread use and long half-life,fipronil can persist during wastewater treatment and is found even in surface waters.When released into the environment,it can accumulate over time and can lead to concentrations in soil and plant tissues that are harmful to both target and non-target organisms.As the reuse of treated wastewater and sewage sludge presents challenges and opportunities for farmers,this study investigates the effects of irrigation with environmentally relevant doses of fipronil on zucchini plants and their main insect pest,Aphis gossypii.Traces of fipronil were found in the zucchini leaves,but not in the flowers,after 35-days of cumulative exposure.A decrease in nymph-to-adult survival and a dose-dependent reduction in the fecundity of A.gossypii feeding on contaminated host plants was observed.Also,aphids feeding on contaminated host plants exhibited the same mortality rate as the control group when exposed to an acute dose of fipronil.However,when natural pyrethrins were used,there was a significant increase in resistance to this insecticide.Our results demonstrate the potential for fipronil to accumulate in plant tissues and highlight the risk of changes in insecticide susceptibility in insect pests.This suggests a need for a holistic approach to the complex dynamics of wastewater reuse in agriculture.展开更多
[Objective] The aim was to determine control effects of the 6 insecticides and recommended the optimal doses. [Method] In 2014, the control effects of sophocarpidine, pymetrozine, beta-cypermethrin, acetamiprid, imida...[Objective] The aim was to determine control effects of the 6 insecticides and recommended the optimal doses. [Method] In 2014, the control effects of sophocarpidine, pymetrozine, beta-cypermethrin, acetamiprid, imidacloprid, and chlor- pyrifos on wheat aphids were tested, and every pesticide was designed with three doses in Shou County, Anhui Province, to explore the significance of differences on control effects. [Result] The results showed that the control effects of the 6 insecti- cides were satisfied, and the insecticides were safe on wheat. [Conclusion] During initial diseasing stage of aphid, it is recommended to use sophocarpidine soluble concentrate (1.5%), pymetrozine water dispersible granule (50%), imidacloprid wet- table powder (25%), and acetamiprid wettable powder (5%), and chlorpyrifos missi- ble oil (40%), cypermethrin missible oil (4.5%) and imidacloprid wettable powder (25%) can be applied in peak-diseasing stage.展开更多
The Russian wheat aphid (RWA), Diuraphis noxia (Mordvilko), has become a worldwide cereal pest with its dispersion to over 30 countries in this century. According to the natural history of its occurrence around the wo...The Russian wheat aphid (RWA), Diuraphis noxia (Mordvilko), has become a worldwide cereal pest with its dispersion to over 30 countries in this century. According to the natural history of its occurrence around the world, it is postulated RWA originated from western or central Asia. The aphid dispersed gradually to Europe and northern Africa, but its big jump across the ocean to North America is still a mystery. There are two overwintering strategies in RWA. The anholocyclic biotype, often reproducing earlier and more offsprings than the holocyclic one, has greater impact on crops in South Africa and United States. According to the experiments on its thermal response, RWA could withstand temperatures below -20℃, while temperatures above 30℃ would be harmful to its survival. The preference to colder condition may determine its distribution on the world. RWA has made great damages to cereal crops worldwide. It caused loss in crop yield by directly feeding on plant nutrition and disturbing the plant metabolism. But its status as plant virus transporter is open to question. By now, the aphid is still a serious pest in many countries and its invasion to more countries and areas maybe continues. Therefore, the research on its biological characteristics as well as its dispersion apparently needs to be enhanced in the future.展开更多
Using predatory mites Neoseiulus cucumeris Oudermans dusted with en- tomopathgen Paecilomyces fumosoroseus (Wize) Brown & Smith to control aphids and spider mites is a new idea of biological control. Some studies w...Using predatory mites Neoseiulus cucumeris Oudermans dusted with en- tomopathgen Paecilomyces fumosoroseus (Wize) Brown & Smith to control aphids and spider mites is a new idea of biological control. Some studies were conducted to confirm the feasibility of this idea. The germination condition of P. fumosoroseus conidia was determined by the method of different saturated salt solutions applying different humidity in small containers, and the pathogenicity test and the pot experi- ment were also conducted, under a suitable condition. There were 6 treatments for pot experiment as following: (1) CK; (2) releasing 50 N. cucumeds, (3) spraying 20 ml of 10^7 spores/ml conidial suspension; (4) releasing 50 N. cucumeris after spraying 20 ml of 10^7 spores/ml conidial suspension; (5) releasing 20 N. cucumeris dusted conidia of P. fumosoroseus; and (6) releasing 50 N. cucumeris dusted with conidia of P. fumosoroseus. The result showed that the germination condition of P. fu- mosoroseus conidia was 25-30 ℃ and 95%-100% RH, and under this condition, the 10s spores/ml conidia suspension caused a mortality of 86.52% in aphids and 41.78% in predatory mites after ten days. From the pot experiment, the numbers of aphids of treatment (3), (4), (6) were close to 0 at the 8th day. This study proved that the predatory mites N. cucumeris dusted with the entomogenous P. fu- mosoroseus could provide satisfactory control on both aphids and spider mites in potted eggplants under suitable temperature and humidity. The predatory mite vec- toring entomopathogen system could provide an economic and labor saving way for aphid control.展开更多
The Russian wheat aphid (RWA), Diuraphis noxia (Mordvilko), was a worldwide cereal pest. The control measures to this pest were reviewed, emphasizing on natural enemies and plant resistance. First, spring wheat with e...The Russian wheat aphid (RWA), Diuraphis noxia (Mordvilko), was a worldwide cereal pest. The control measures to this pest were reviewed, emphasizing on natural enemies and plant resistance. First, spring wheat with earlier planting dates had higher yield and could resist RWA infestation to a more extent, while winter wheat with later planting dates could escape infestation of Russian wheat aphid with very few exceptions. So, manipulation of wheat planting dates was suggested in worldwide scale for the aphid control. Second, the natural enemies were considered as the most important factor to reduced the pest status. Introduced and native natural enemies were evaluated for their potential as biological agents in South Africa, United States, and Australia. In South Africa, an introduced parasitoid and a predator were selected for releasing. In the United States, the project on exploring and releasing the natural enemies was unprecedented in biological control history. The endeavor in USA has been proved primarily successful today and will be afterward. The RWA control in Chile was considered most successful, partly because of their introduction of natural enemies before the aphid arrival. The native enemies together with other factors in central Asia and Europe apparently suppressed the aphids to a low level. The screen for resistant wheat was another important research project in fighting with RWA. In South Africa and USA, resistant wheat and barley were bred, and some of them had been put in commercial use for RWA control. The overwhelming mechanisms in resistant wheat varieties were antibiosis, tolerance or their combination. Though chemical insecticide spraying was proved as an effective method for aphid control, more and more research has switched from this method to non chemical control measures as required by IPM. Future research should put more emphasis on augmentation of the natural enemies, revealing the relationship between RWA and agricultural ecosystem and integration of all effective measures.展开更多
[Objective] The aim was to screen economic and environment-friendly pesticides adaptive to aphid-resistant varieties in main rape growing regions of Yunnan Province.[Method] The effects of 6 pesticides against aphids ...[Objective] The aim was to screen economic and environment-friendly pesticides adaptive to aphid-resistant varieties in main rape growing regions of Yunnan Province.[Method] The effects of 6 pesticides against aphids on 22 Brassica campestris materials of the main breeds in Yunnan Province,the new improved varieties in China and the core breeding materials were tested.[Result] Yunyoushuang 1,Huayou 4,Yunhuayou Early-maturing Variety No.1 and A35 showed better aphid-resistance.An optimum pesticide application strategy was to use Diyaling in sowing time,and interchangeably apply nitenpyram and imidacloprid during flowering and pod formation stages.[Conclusion] The present study had provided an important technical support for sustainable development of rape industry.展开更多
[Objective] This study was to find out the artificial diet formula for Erigoni- dium graminicolum (Sundevall) to realize its indoor artificial breeding. [Method] Using orthogonal decomposition method, the diet most ...[Objective] This study was to find out the artificial diet formula for Erigoni- dium graminicolum (Sundevall) to realize its indoor artificial breeding. [Method] Using orthogonal decomposition method, the diet most suitable for the normal and quick growth of Erigonidium graminicolum (sundevall), was developed by adding different species and different proportions of fresh insects to the artificial diet based on the formula of total nutrient solution proposed by Zhao Jing-zhao. [Result] The most suit- able formula for the development and growth of Erigonidium graminicolum (Sundevall) is 10 ml of egg white, 2 g of honey, 2 g of sucrose, 10 ml of water, 5 g of Ci- cadella viridis, moderate amount of cornmeal, compound vitamin B1 and vitamin C1. [Conclusion] The development of new type artificial diet can provide timely and nec- essary material premise for its large-scale indoor propagation.展开更多
[ Objective] The aim was to study the spatial distribution pattern and field sampling method of aphid population in spring wheat. [ Method] The aphid quantity in tested wheat field was calculated, the field distributi...[ Objective] The aim was to study the spatial distribution pattern and field sampling method of aphid population in spring wheat. [ Method] The aphid quantity in tested wheat field was calculated, the field distribution pattern of wheat aphid was calculated by using aggregated index method, the aggregated reason was analyzed and the field theoretical sampling number was ascertained. [ Result] The wheat aphid population showed aggregation distribution and negative binomial distribution, and such aggregation distribution was induced by interaction of its behavior and environmental factors. The field theoretical sampling number of wheat aphid was related to sample variance and permissible error; the less the sam- ple variance [ S^2 ) was, the less the permissible error [ d') was, the bigger the theoretical sampling number without replacement was; when the initial population numbers were different, the theoretical sampling numbers were also different; after the permissible error being set, the bigger the sample variance ( S^2 ) was, the bigger the theoretical sampling number was. [ Conclusion] This study supplied scientific basis for prediction and field control of wheat aphid.展开更多
This paper deals with the validation and theoretical analyses of a simple method for calculating the intrinsic rate of increase, rm, of aphids and mites. This method does not require a detailed fecundity table data. T...This paper deals with the validation and theoretical analyses of a simple method for calculating the intrinsic rate of increase, rm, of aphids and mites. This method does not require a detailed fecundity table data. The value of rm can be estimated by the simple equation: rm=0.74ln (Md)/d, where d is the time from birth to first reproduction; Md is the number of female offspring produced per original female in 2d. This method was developed by Wyatt and White. We reached the following conclusions from our study: When the parameter, Md is less than 1, this equation is not appropriate for estimating rm of populations; When the parameter, Md is larger than 1 and about 70% or more of the reproductive contribution to the rm is achieved in 2d, the equation is appropriate for calculatng the rm of aphids and mites.As Md decreases, the required reproductive contribution to the rm in 2d corresponding to the constant 0.74 will increase. However, whether 70% or more of reproductive contribution to rm is achieved in 2d still is a problem for whole taxa of aphids and mites. Therefore, further siudy on reproductive distribution will be required for practical application of this method.展开更多
[Objective] The research aimed to study the toxicity and antifeedant activity of walnut green husk extract on wheat aphid. [Method] Using ultrasonic extraction, 5 kinds of different polarity solvents were used to prep...[Objective] The research aimed to study the toxicity and antifeedant activity of walnut green husk extract on wheat aphid. [Method] Using ultrasonic extraction, 5 kinds of different polarity solvents were used to prepare the extracts from walnut green husk. The toxicity and antifeedant activity on wheat aphid were determined, [ Result ] Walnut green husk extracts in the solvent of ethanol, acetone, ethyl acetate had higher toxicity and antifeedant activity on wheat aphid. When the concentration was 100 mg/ml, after 24 h, the toxicity and antifeedant activity of three kinds extracts on wheat aphid were greater than 84.35% and 66.98%, respectively. After 48 h, the toxicity and antifeedant activity were greater than 85.91% and 79.34%, respectively. Among 5 kinds extracts,ethanol extracts had the highest toxicity and antifeedant activity on wheat aphid. After 24 h, the corrected mortality rate was 93.64% and the antifeedant rate was 83.61%. After 48 h,the corrected mortality rate was 94.95% and antifeedant rate was 92.21%. Petroleum ether extract had the smallest toxicity and antifeedant activity on wheat aphid. After 24 h,the corrected mortality rate and antifeedant rate were 19.54% and 34.65%, respectively. After 48 h,the corrected mortality rate and antifeedant rate were 20.13% and 39. 03%, respectively. [ Conclsion] The extracts from walnut green husk with larger polarity solvent had better toxicity and higher antifeedant activity on wheat aphid.展开更多
[Objective] The study was to isolate and identify the pathogen of Pandora neoaphidis and to determine its pathogenicity against turnip aphid (Lipaphis erysimi).[Method] Based on the morphological characteristics,the...[Objective] The study was to isolate and identify the pathogen of Pandora neoaphidis and to determine its pathogenicity against turnip aphid (Lipaphis erysimi).[Method] Based on the morphological characteristics,the species of pathogenic fungus was identified.Spore shower method was used to carry out bioassay on the pathogen against turnip aphid.[Result] Primary conidia were ovoid,bitunicate and uninucleate,(24.7±1.4)μm×(10.7±0.9)μm,L/D=2.3±0.2.Secondary conidia had the similar shape with the primary ones,(18.6±2.1)μm×(13.3±1.3)μm,L/D=1.4±0.2.Hyphal body was like mycelium with the diameter of (10.6±0.8)μm.Conidiophores had palmate branch with the diameter of (10.0±0.9)μm.Pseudocystidia was not branched,which had rough base with the diameter of (19.2±1.7)μm,and gradually became more angular towards the apex with the diameter of (8.0±0.9)μm at tips.Rhizoid was like monohyphal shape with the diameter of (21.0±3.0)μm at base,the terminal apex had regular discoid holdfast.No resting spores were observed.The lethal dose of the pathogen against turnip aphid was 18.2/mm2.[Conclusion] The entomopathogenic fungus against turnip aphid was identified to be Pandora neoaphidis,and the pathogen was confirmed to have strong pathogenicity against turnip aphid.展开更多
[ Objective ] The paper was to explore the application of botanical pesticides on controlling turnip aphid ( Lipaphis erysimi Kaltenbach). [ Method ] Through potting efficacy experiment of Chinese cabbage, the contr...[ Objective ] The paper was to explore the application of botanical pesticides on controlling turnip aphid ( Lipaphis erysimi Kaltenbach). [ Method ] Through potting efficacy experiment of Chinese cabbage, the control effects of two preparations(20% EC and 10% EW)of methanol extract of Blumea megacephala Chang et Tseng against turnip aphid, as well as leaf-protection effect on Chinese cabbage were determined. [ Result] 20% EC of B. megacephala had the highest efficacy in 10-fold dilution, and its control effects against turnip aphid were 57.78%, 77.19% and 84.79% after pesticide spraying for 24, 48 and 72 h; 10% EW of B. megacephala had the highest efficacy in 5-fold dilution, and its control effects against turnip aphid were 74.44%, 84.79% and 89.14% after pesticide spra- ying for 24, 48 and 72 h. The leaf-protection rates of 20% EC orB. megacephala in 10-fold dilution were 89.31% and 94.80% after pesticide spraying for 3 and 5 d; the leaf-protection rates of 10% EW of B. megacephala in 5-fold dilution were 93.50% and 97.83% after pesticide spraying for 3 and 5 d. [ Condusion] The methanol extract of B. megacephala had good control effect against turnip aphid and good protection rate on crops.展开更多
In this study, toxicity and control efficiency of three nicotine biopesticides against pomegranate aphids were determined via indoor toxicity test and field effica- cy test, aiming at screening the appropriate reagent...In this study, toxicity and control efficiency of three nicotine biopesticides against pomegranate aphids were determined via indoor toxicity test and field effica- cy test, aiming at screening the appropriate reagent for prevention and control of pomegranate aphids. The results of indoor toxicity test showed that LC^o of reagent 1, reagent 2 and reagent 3 reached 10 270, 12 810 and 13 040 mg/L, respectively. The results of field efficacy test showed that control efficacy of reagent 1, reagent 2 and reagent 3 reached 60.52%, 34.60% and 46.99%, respectively. Overall, reagent 1 (91% ultrafine powder of tobacco leaves, 3% silicone oil, 2% sasangua cake, 2% emulsifier, 2% ascorbic acid) exhibited the highest control efficiency against pomegranate aphids, which can be further popularized and utilized.展开更多
Aphid is one of the most destructive insect pests on cultivated plants in temperate regions.Their piercing-sucking mouthparts and phloem feeding behavior directly damage crops and deplete plant nutrients.Potato(Solanu...Aphid is one of the most destructive insect pests on cultivated plants in temperate regions.Their piercing-sucking mouthparts and phloem feeding behavior directly damage crops and deplete plant nutrients.Potato(Solanum tuberosum L.)is one of the most important food sources on the planet,and several aphid species,e.g.,Myzus persicae(Sulzer)(green peach aphid)and Macrosiphum euphorbiae(Thomas)(potato aphid)(Hemiptera:Aphididae)colonize potato and transmit several economically important viruses.Aphid-transmitted potato viruses have been emerging all over the world as a very serious problem in potato production,inducing a wide variety of foliar and tuber symptoms,leading to severe yield reduction and loss of tuber quality.In this review,recent advances in understanding the interactions of potato viruses with their hosts,aphid vectors and the environment are described.展开更多
Aphis gossypfi is a globally distributed species and therefore has a highly variable life cycle. Populations of A. gossypii in northern China exhibit greater genotypic diversity and a broader host range, yet the detai...Aphis gossypfi is a globally distributed species and therefore has a highly variable life cycle. Populations of A. gossypii in northern China exhibit greater genotypic diversity and a broader host range, yet the details of life cycles of different biotypes is still unclear. In this study, the Cytb and 16S gene regions of A. gossypfi collected from 5 common summer hosts and 4 primary hosts were analyzed. A total of 57 haplotypes were obtained from 1 046 individual A. gossyp# sequences. The sequence included 44 variable sites, 27 of which were parsimony informative sites and 17 of which were singleton variable sites. The most frequent 3 haplotypes were found in 896 individuals, representing a total of 85.7% of all individuals and 36 haplotypes were found in 1 individual. A neighbor-joining tree was constructed using 21 haplotypes that were found in more than 2 individuals. Considering the individual host plant, 5 biotypes were identified. Type 1 corresponded exactly to the cucurbit host-race and the other 4 biotypes were found as cotton host-races. Type 3 was the most abundant biotype in cotton fields in northern China.展开更多
The effects of semiochemicals extracted from 63 species of plants, on peach aphid (Myzus per-sicae) and mustard aphid (Lipaphis erysimi), were studied in laboratory. The deterrent rate, reproduction deterrent index an...The effects of semiochemicals extracted from 63 species of plants, on peach aphid (Myzus per-sicae) and mustard aphid (Lipaphis erysimi), were studied in laboratory. The deterrent rate, reproduction deterrent index and the interferential index of population control (IIPC) was used to evaluate the efficiency of semiochemicals on population control of the two target aphids. The results showed that the extracts of 34 species of common plants have noticeable effect on both aphid populations, especially, Xanthium sibiricum Petr. Et Widd. and Syngonium podophyllum Schott. These plant extracts could be used to construct the plant pro-tectant to protect crops.展开更多
Reproductive polyphenism,which allows one genotype to produce sexual and asexual morphs,is an extreme case of phenotypic plasticity and is commonly observed in aphids.Aphids are typical species that switch these repro...Reproductive polyphenism,which allows one genotype to produce sexual and asexual morphs,is an extreme case of phenotypic plasticity and is commonly observed in aphids.Aphids are typical species that switch these reproductive modes,and the pathway orientation is triggered by the environmental conditions(mainly photoperiod and temperature).The typical arm ual life of aphids in eludes a successi on of parthenogenetic gen erations duri ng the spri ng and summer and a single sexual generation in autumn.In this review,we describe how the environmental cues orientate the reproductive mode of aphids from photoperiodic perception to endocrine regulation,and how juvenile hormones may act on the target cells(oocytes)to initiate the gametogenesis and embryogenesis in sexual and asexual reproduction.We also discuss the paradox of sex,especially the advantages of sexual reproduction in aphids.With the recent development of genomic resources in aphids,many potential genes involved in the reproductive polyphenism will enter the public's awareness.In particular,we describe a novel RNAi method in aphids,which may provide a molecular technique for determining the developmental fate and multiple reproductive strategies.展开更多
Four soybean[Glycine max(L.)Merr.]cultivars with soybean aphid resistance(Aphis glycines Matsmura),p189,P203,P574,and P746,were identified in field test,choice test,and non-choice test,The grade of resistance to aphid...Four soybean[Glycine max(L.)Merr.]cultivars with soybean aphid resistance(Aphis glycines Matsmura),p189,P203,P574,and P746,were identified in field test,choice test,and non-choice test,The grade of resistance to aphids and the damage index of P189,P203,and P746 were significantly different from the susceptible cultivars(P=0.05).P574 and P746 showed antibiosis resistance,preventing aphids from reproducing on the plants.P203 showed antixenosis resistance,preventing aphids from reproducing in field test and choice test,but susceptible in non-choice test.Population development on plants was significantly different in field test,choice test,and non-choice test,which was caused by different selective pressures.展开更多
Potato virus Y(PVY)is a non-persistent virus that is transmitted by many aphid species and causes significant damage to potato production.We constructed a spatially-explicit model simulating PVY spread in a potato fie...Potato virus Y(PVY)is a non-persistent virus that is transmitted by many aphid species and causes significant damage to potato production.We constructed a spatially-explicit model simulating PVY spread in a potato field and used it to investigate possible effects of transmission efficiency,initial inoculum levels,vector behavior,vector abundance,and timing of peak vector activity on PVY incidence at the end of a simulated growing season.Lower PVY incidence in planted seed resulted in lower virus infection at the end of the season.However,when populations of efficient PVY vectors were high,significant PVY spread occurred even when initial virus inoculum was low.Non-colonizing aphids were more important for PVY spread compared to colonizing aphids,particularly at high densities.An early-season peak in the numbers of noncolonizing aphids resulted in the highest number of infected plants in the end of the season,while mid-and late-season peaks caused relatively little virus spread.Our results highlight the importance of integrating different techniques to prevent the number of PVY-infected plants from exceeding economically acceptable levels instead of trying to control aphids within potato fields.Such management plans should be implemented very early in a growing season.展开更多
基金supported by the National Natural Science Foundation of China(32202311)the Natural Science Foundation of Jilin Province,China(20230101265JC)+1 种基金the Jilin Province Youth Science and Technology Talent Support Project,China(QT202307)the Jilin Province Science and Technology Development Plan Project,China(20220505019ZP).
文摘Maize is a cornerstone of global food security,but it faces increasing challenges from corn aphids,particularly with the widespread adoption of genetically modified Bt maize.This trend suggests a growing need for sustainable pest control strategies.Methyl salicylate has been proposed as a volatile compound with the potential for managing aphids.In this study,Y-tube olfactometer and Petri dish dispersal assays showed that methyl salicylate can repel wingless and winged aphids at 0.1 to 1,000 ngμL^(-1).Moreover,at concentrations of 100 and 1,000 ngμL^(-1),it was found to attract beneficial insects such as adults and larvae of Harmonia axyridis.Exposing maize plants to methyl salicylate resulted in a prominent reduction in the number of aphids compared to the control.In addition,clip cage experiment assays showed that the nymphal development duration was increased,while the adult duration and generation time were reduced,and the reproductive duration and total number of aphid offspring in plants treated with methyl salicylate were dramatically lower than in the control.Over two years of field trials,methyl salicylate-impregnated alginate beads provided significant reductions in the populations of key aphid species,including Rhopalosiphum padi,Rhopalosiphum maidis,and Aphis gossypii.Concurrently,there were marked increases in the presence of natural predators such as H.axyridis,Propylaea japonica,Syrphus corollae,and Chrysoperla sinica.These compelling results underscore the potential of methyl salicylate as a key component in integrated pest management strategies for maize,offering a green alternative to traditional chemical control.
基金funding from MUR under the umbrella of the PRIMA-Partnership for Research&Innovation in the Mediterranean Area through the research project SAFE"Sustainable water reuse practices improving safety in agriculture,food and environment"support from the CERCA Institute through the CERCAGINYS programme,funded by the Spanish Ministry of Science and Innovationsupport from the Economy and Knowledge Department of the Catalan Government through a Consolidated Research Groups(ICRA-ENV-2021 SGR 01282 and ICRA-TECH 2021 SGR 01283)。
文摘Fipronil is an insecticide with low residual activity and high efficacy at low concentrations.Due to its widespread use and long half-life,fipronil can persist during wastewater treatment and is found even in surface waters.When released into the environment,it can accumulate over time and can lead to concentrations in soil and plant tissues that are harmful to both target and non-target organisms.As the reuse of treated wastewater and sewage sludge presents challenges and opportunities for farmers,this study investigates the effects of irrigation with environmentally relevant doses of fipronil on zucchini plants and their main insect pest,Aphis gossypii.Traces of fipronil were found in the zucchini leaves,but not in the flowers,after 35-days of cumulative exposure.A decrease in nymph-to-adult survival and a dose-dependent reduction in the fecundity of A.gossypii feeding on contaminated host plants was observed.Also,aphids feeding on contaminated host plants exhibited the same mortality rate as the control group when exposed to an acute dose of fipronil.However,when natural pyrethrins were used,there was a significant increase in resistance to this insecticide.Our results demonstrate the potential for fipronil to accumulate in plant tissues and highlight the risk of changes in insecticide susceptibility in insect pests.This suggests a need for a holistic approach to the complex dynamics of wastewater reuse in agriculture.
基金Supported by Pesticide Innovation and Highly Efficient Implementation Technology of Special Foundation for Anhui Talents Development(13C1109)~~
文摘[Objective] The aim was to determine control effects of the 6 insecticides and recommended the optimal doses. [Method] In 2014, the control effects of sophocarpidine, pymetrozine, beta-cypermethrin, acetamiprid, imidacloprid, and chlor- pyrifos on wheat aphids were tested, and every pesticide was designed with three doses in Shou County, Anhui Province, to explore the significance of differences on control effects. [Result] The results showed that the control effects of the 6 insecti- cides were satisfied, and the insecticides were safe on wheat. [Conclusion] During initial diseasing stage of aphid, it is recommended to use sophocarpidine soluble concentrate (1.5%), pymetrozine water dispersible granule (50%), imidacloprid wet- table powder (25%), and acetamiprid wettable powder (5%), and chlorpyrifos missi- ble oil (40%), cypermethrin missible oil (4.5%) and imidacloprid wettable powder (25%) can be applied in peak-diseasing stage.
文摘The Russian wheat aphid (RWA), Diuraphis noxia (Mordvilko), has become a worldwide cereal pest with its dispersion to over 30 countries in this century. According to the natural history of its occurrence around the world, it is postulated RWA originated from western or central Asia. The aphid dispersed gradually to Europe and northern Africa, but its big jump across the ocean to North America is still a mystery. There are two overwintering strategies in RWA. The anholocyclic biotype, often reproducing earlier and more offsprings than the holocyclic one, has greater impact on crops in South Africa and United States. According to the experiments on its thermal response, RWA could withstand temperatures below -20℃, while temperatures above 30℃ would be harmful to its survival. The preference to colder condition may determine its distribution on the world. RWA has made great damages to cereal crops worldwide. It caused loss in crop yield by directly feeding on plant nutrition and disturbing the plant metabolism. But its status as plant virus transporter is open to question. By now, the aphid is still a serious pest in many countries and its invasion to more countries and areas maybe continues. Therefore, the research on its biological characteristics as well as its dispersion apparently needs to be enhanced in the future.
基金Supported by Youth Science Fund Project of Fujian Academy of Agricultural Sciences(2012DQA-2)Innovation Team Project of Fujian Academy of Agricultural Sciences(CXTD-2-1313)+1 种基金Natural Science Fund of Fujian Province(2014J1108)National 863Program(2011AA10A201)~~
文摘Using predatory mites Neoseiulus cucumeris Oudermans dusted with en- tomopathgen Paecilomyces fumosoroseus (Wize) Brown & Smith to control aphids and spider mites is a new idea of biological control. Some studies were conducted to confirm the feasibility of this idea. The germination condition of P. fumosoroseus conidia was determined by the method of different saturated salt solutions applying different humidity in small containers, and the pathogenicity test and the pot experi- ment were also conducted, under a suitable condition. There were 6 treatments for pot experiment as following: (1) CK; (2) releasing 50 N. cucumeds, (3) spraying 20 ml of 10^7 spores/ml conidial suspension; (4) releasing 50 N. cucumeris after spraying 20 ml of 10^7 spores/ml conidial suspension; (5) releasing 20 N. cucumeris dusted conidia of P. fumosoroseus; and (6) releasing 50 N. cucumeris dusted with conidia of P. fumosoroseus. The result showed that the germination condition of P. fu- mosoroseus conidia was 25-30 ℃ and 95%-100% RH, and under this condition, the 10s spores/ml conidia suspension caused a mortality of 86.52% in aphids and 41.78% in predatory mites after ten days. From the pot experiment, the numbers of aphids of treatment (3), (4), (6) were close to 0 at the 8th day. This study proved that the predatory mites N. cucumeris dusted with the entomogenous P. fu- mosoroseus could provide satisfactory control on both aphids and spider mites in potted eggplants under suitable temperature and humidity. The predatory mite vec- toring entomopathogen system could provide an economic and labor saving way for aphid control.
文摘The Russian wheat aphid (RWA), Diuraphis noxia (Mordvilko), was a worldwide cereal pest. The control measures to this pest were reviewed, emphasizing on natural enemies and plant resistance. First, spring wheat with earlier planting dates had higher yield and could resist RWA infestation to a more extent, while winter wheat with later planting dates could escape infestation of Russian wheat aphid with very few exceptions. So, manipulation of wheat planting dates was suggested in worldwide scale for the aphid control. Second, the natural enemies were considered as the most important factor to reduced the pest status. Introduced and native natural enemies were evaluated for their potential as biological agents in South Africa, United States, and Australia. In South Africa, an introduced parasitoid and a predator were selected for releasing. In the United States, the project on exploring and releasing the natural enemies was unprecedented in biological control history. The endeavor in USA has been proved primarily successful today and will be afterward. The RWA control in Chile was considered most successful, partly because of their introduction of natural enemies before the aphid arrival. The native enemies together with other factors in central Asia and Europe apparently suppressed the aphids to a low level. The screen for resistant wheat was another important research project in fighting with RWA. In South Africa and USA, resistant wheat and barley were bred, and some of them had been put in commercial use for RWA control. The overwhelming mechanisms in resistant wheat varieties were antibiosis, tolerance or their combination. Though chemical insecticide spraying was proved as an effective method for aphid control, more and more research has switched from this method to non chemical control measures as required by IPM. Future research should put more emphasis on augmentation of the natural enemies, revealing the relationship between RWA and agricultural ecosystem and integration of all effective measures.
基金Supported by National Science and Technology Supporting Project (2009BADA8B01,2010BAD01B04)Kunming Comprehensive Experimental Station,National Modern Agricultural Rape Industrial Technology System(NYCYTX-00564)Development of the Yunnan Modern Agricultural Rape Industrial Technology System~~
文摘[Objective] The aim was to screen economic and environment-friendly pesticides adaptive to aphid-resistant varieties in main rape growing regions of Yunnan Province.[Method] The effects of 6 pesticides against aphids on 22 Brassica campestris materials of the main breeds in Yunnan Province,the new improved varieties in China and the core breeding materials were tested.[Result] Yunyoushuang 1,Huayou 4,Yunhuayou Early-maturing Variety No.1 and A35 showed better aphid-resistance.An optimum pesticide application strategy was to use Diyaling in sowing time,and interchangeably apply nitenpyram and imidacloprid during flowering and pod formation stages.[Conclusion] The present study had provided an important technical support for sustainable development of rape industry.
文摘[Objective] This study was to find out the artificial diet formula for Erigoni- dium graminicolum (Sundevall) to realize its indoor artificial breeding. [Method] Using orthogonal decomposition method, the diet most suitable for the normal and quick growth of Erigonidium graminicolum (sundevall), was developed by adding different species and different proportions of fresh insects to the artificial diet based on the formula of total nutrient solution proposed by Zhao Jing-zhao. [Result] The most suit- able formula for the development and growth of Erigonidium graminicolum (Sundevall) is 10 ml of egg white, 2 g of honey, 2 g of sucrose, 10 ml of water, 5 g of Ci- cadella viridis, moderate amount of cornmeal, compound vitamin B1 and vitamin C1. [Conclusion] The development of new type artificial diet can provide timely and nec- essary material premise for its large-scale indoor propagation.
基金Supported by National Natural Science Foundation of China(30660017)~~
文摘[ Objective] The aim was to study the spatial distribution pattern and field sampling method of aphid population in spring wheat. [ Method] The aphid quantity in tested wheat field was calculated, the field distribution pattern of wheat aphid was calculated by using aggregated index method, the aggregated reason was analyzed and the field theoretical sampling number was ascertained. [ Result] The wheat aphid population showed aggregation distribution and negative binomial distribution, and such aggregation distribution was induced by interaction of its behavior and environmental factors. The field theoretical sampling number of wheat aphid was related to sample variance and permissible error; the less the sam- ple variance [ S^2 ) was, the less the permissible error [ d') was, the bigger the theoretical sampling number without replacement was; when the initial population numbers were different, the theoretical sampling numbers were also different; after the permissible error being set, the bigger the sample variance ( S^2 ) was, the bigger the theoretical sampling number was. [ Conclusion] This study supplied scientific basis for prediction and field control of wheat aphid.
文摘This paper deals with the validation and theoretical analyses of a simple method for calculating the intrinsic rate of increase, rm, of aphids and mites. This method does not require a detailed fecundity table data. The value of rm can be estimated by the simple equation: rm=0.74ln (Md)/d, where d is the time from birth to first reproduction; Md is the number of female offspring produced per original female in 2d. This method was developed by Wyatt and White. We reached the following conclusions from our study: When the parameter, Md is less than 1, this equation is not appropriate for estimating rm of populations; When the parameter, Md is larger than 1 and about 70% or more of the reproductive contribution to the rm is achieved in 2d, the equation is appropriate for calculatng the rm of aphids and mites.As Md decreases, the required reproductive contribution to the rm in 2d corresponding to the constant 0.74 will increase. However, whether 70% or more of reproductive contribution to rm is achieved in 2d still is a problem for whole taxa of aphids and mites. Therefore, further siudy on reproductive distribution will be required for practical application of this method.
基金Supported by Natural Science Foundation of Ningxia Hui Autonomous Region(NZ09205)~~
文摘[Objective] The research aimed to study the toxicity and antifeedant activity of walnut green husk extract on wheat aphid. [Method] Using ultrasonic extraction, 5 kinds of different polarity solvents were used to prepare the extracts from walnut green husk. The toxicity and antifeedant activity on wheat aphid were determined, [ Result ] Walnut green husk extracts in the solvent of ethanol, acetone, ethyl acetate had higher toxicity and antifeedant activity on wheat aphid. When the concentration was 100 mg/ml, after 24 h, the toxicity and antifeedant activity of three kinds extracts on wheat aphid were greater than 84.35% and 66.98%, respectively. After 48 h, the toxicity and antifeedant activity were greater than 85.91% and 79.34%, respectively. Among 5 kinds extracts,ethanol extracts had the highest toxicity and antifeedant activity on wheat aphid. After 24 h, the corrected mortality rate was 93.64% and the antifeedant rate was 83.61%. After 48 h,the corrected mortality rate was 94.95% and antifeedant rate was 92.21%. Petroleum ether extract had the smallest toxicity and antifeedant activity on wheat aphid. After 24 h,the corrected mortality rate and antifeedant rate were 19.54% and 34.65%, respectively. After 48 h,the corrected mortality rate and antifeedant rate were 20.13% and 39. 03%, respectively. [ Conclsion] The extracts from walnut green husk with larger polarity solvent had better toxicity and higher antifeedant activity on wheat aphid.
基金Supported by Key Projects in Shaoguang Institute (200402)~~
文摘[Objective] The study was to isolate and identify the pathogen of Pandora neoaphidis and to determine its pathogenicity against turnip aphid (Lipaphis erysimi).[Method] Based on the morphological characteristics,the species of pathogenic fungus was identified.Spore shower method was used to carry out bioassay on the pathogen against turnip aphid.[Result] Primary conidia were ovoid,bitunicate and uninucleate,(24.7±1.4)μm×(10.7±0.9)μm,L/D=2.3±0.2.Secondary conidia had the similar shape with the primary ones,(18.6±2.1)μm×(13.3±1.3)μm,L/D=1.4±0.2.Hyphal body was like mycelium with the diameter of (10.6±0.8)μm.Conidiophores had palmate branch with the diameter of (10.0±0.9)μm.Pseudocystidia was not branched,which had rough base with the diameter of (19.2±1.7)μm,and gradually became more angular towards the apex with the diameter of (8.0±0.9)μm at tips.Rhizoid was like monohyphal shape with the diameter of (21.0±3.0)μm at base,the terminal apex had regular discoid holdfast.No resting spores were observed.The lethal dose of the pathogen against turnip aphid was 18.2/mm2.[Conclusion] The entomopathogenic fungus against turnip aphid was identified to be Pandora neoaphidis,and the pathogen was confirmed to have strong pathogenicity against turnip aphid.
文摘[ Objective ] The paper was to explore the application of botanical pesticides on controlling turnip aphid ( Lipaphis erysimi Kaltenbach). [ Method ] Through potting efficacy experiment of Chinese cabbage, the control effects of two preparations(20% EC and 10% EW)of methanol extract of Blumea megacephala Chang et Tseng against turnip aphid, as well as leaf-protection effect on Chinese cabbage were determined. [ Result] 20% EC of B. megacephala had the highest efficacy in 10-fold dilution, and its control effects against turnip aphid were 57.78%, 77.19% and 84.79% after pesticide spraying for 24, 48 and 72 h; 10% EW of B. megacephala had the highest efficacy in 5-fold dilution, and its control effects against turnip aphid were 74.44%, 84.79% and 89.14% after pesticide spra- ying for 24, 48 and 72 h. The leaf-protection rates of 20% EC orB. megacephala in 10-fold dilution were 89.31% and 94.80% after pesticide spraying for 3 and 5 d; the leaf-protection rates of 10% EW of B. megacephala in 5-fold dilution were 93.50% and 97.83% after pesticide spraying for 3 and 5 d. [ Condusion] The methanol extract of B. megacephala had good control effect against turnip aphid and good protection rate on crops.
文摘In this study, toxicity and control efficiency of three nicotine biopesticides against pomegranate aphids were determined via indoor toxicity test and field effica- cy test, aiming at screening the appropriate reagent for prevention and control of pomegranate aphids. The results of indoor toxicity test showed that LC^o of reagent 1, reagent 2 and reagent 3 reached 10 270, 12 810 and 13 040 mg/L, respectively. The results of field efficacy test showed that control efficacy of reagent 1, reagent 2 and reagent 3 reached 60.52%, 34.60% and 46.99%, respectively. Overall, reagent 1 (91% ultrafine powder of tobacco leaves, 3% silicone oil, 2% sasangua cake, 2% emulsifier, 2% ascorbic acid) exhibited the highest control efficiency against pomegranate aphids, which can be further popularized and utilized.
基金supported by the grants from the Startup Fund for Distinguished Scholars, Nanjing Agricultural University, China
文摘Aphid is one of the most destructive insect pests on cultivated plants in temperate regions.Their piercing-sucking mouthparts and phloem feeding behavior directly damage crops and deplete plant nutrients.Potato(Solanum tuberosum L.)is one of the most important food sources on the planet,and several aphid species,e.g.,Myzus persicae(Sulzer)(green peach aphid)and Macrosiphum euphorbiae(Thomas)(potato aphid)(Hemiptera:Aphididae)colonize potato and transmit several economically important viruses.Aphid-transmitted potato viruses have been emerging all over the world as a very serious problem in potato production,inducing a wide variety of foliar and tuber symptoms,leading to severe yield reduction and loss of tuber quality.In this review,recent advances in understanding the interactions of potato viruses with their hosts,aphid vectors and the environment are described.
基金supported by the National Natural Science Foundation of China(31572015)the National Special Transgenic Project of China(2016ZX08012-004)
文摘Aphis gossypfi is a globally distributed species and therefore has a highly variable life cycle. Populations of A. gossypii in northern China exhibit greater genotypic diversity and a broader host range, yet the details of life cycles of different biotypes is still unclear. In this study, the Cytb and 16S gene regions of A. gossypfi collected from 5 common summer hosts and 4 primary hosts were analyzed. A total of 57 haplotypes were obtained from 1 046 individual A. gossyp# sequences. The sequence included 44 variable sites, 27 of which were parsimony informative sites and 17 of which were singleton variable sites. The most frequent 3 haplotypes were found in 896 individuals, representing a total of 85.7% of all individuals and 36 haplotypes were found in 1 individual. A neighbor-joining tree was constructed using 21 haplotypes that were found in more than 2 individuals. Considering the individual host plant, 5 biotypes were identified. Type 1 corresponded exactly to the cucurbit host-race and the other 4 biotypes were found as cotton host-races. Type 3 was the most abundant biotype in cotton fields in northern China.
文摘The effects of semiochemicals extracted from 63 species of plants, on peach aphid (Myzus per-sicae) and mustard aphid (Lipaphis erysimi), were studied in laboratory. The deterrent rate, reproduction deterrent index and the interferential index of population control (IIPC) was used to evaluate the efficiency of semiochemicals on population control of the two target aphids. The results showed that the extracts of 34 species of common plants have noticeable effect on both aphid populations, especially, Xanthium sibiricum Petr. Et Widd. and Syngonium podophyllum Schott. These plant extracts could be used to construct the plant pro-tectant to protect crops.
基金This work was supported by the National Key Research and Development Program of China(2018YFD0200804 and 2017YFD0201200).
文摘Reproductive polyphenism,which allows one genotype to produce sexual and asexual morphs,is an extreme case of phenotypic plasticity and is commonly observed in aphids.Aphids are typical species that switch these reproductive modes,and the pathway orientation is triggered by the environmental conditions(mainly photoperiod and temperature).The typical arm ual life of aphids in eludes a successi on of parthenogenetic gen erations duri ng the spri ng and summer and a single sexual generation in autumn.In this review,we describe how the environmental cues orientate the reproductive mode of aphids from photoperiodic perception to endocrine regulation,and how juvenile hormones may act on the target cells(oocytes)to initiate the gametogenesis and embryogenesis in sexual and asexual reproduction.We also discuss the paradox of sex,especially the advantages of sexual reproduction in aphids.With the recent development of genomic resources in aphids,many potential genes involved in the reproductive polyphenism will enter the public's awareness.In particular,we describe a novel RNAi method in aphids,which may provide a molecular technique for determining the developmental fate and multiple reproductive strategies.
基金supported by the National Natural Science Foundation of China(30871549)the Key Basic Research of Shanghai Committee of Science and Technology,China(08JC1410500)
文摘Four soybean[Glycine max(L.)Merr.]cultivars with soybean aphid resistance(Aphis glycines Matsmura),p189,P203,P574,and P746,were identified in field test,choice test,and non-choice test,The grade of resistance to aphids and the damage index of P189,P203,and P746 were significantly different from the susceptible cultivars(P=0.05).P574 and P746 showed antibiosis resistance,preventing aphids from reproducing on the plants.P203 showed antixenosis resistance,preventing aphids from reproducing in field test and choice test,but susceptible in non-choice test.Population development on plants was significantly different in field test,choice test,and non-choice test,which was caused by different selective pressures.
基金supported in part by the United States Department of Agriculture National institute of Food and Agriculture Special Crops Research initiative (Award # 2014-51181-22373)Funding for Hongchun Qu’s stay at the University of Maine was received from the National Natural Science Foundation of China (Award # 61871061)
文摘Potato virus Y(PVY)is a non-persistent virus that is transmitted by many aphid species and causes significant damage to potato production.We constructed a spatially-explicit model simulating PVY spread in a potato field and used it to investigate possible effects of transmission efficiency,initial inoculum levels,vector behavior,vector abundance,and timing of peak vector activity on PVY incidence at the end of a simulated growing season.Lower PVY incidence in planted seed resulted in lower virus infection at the end of the season.However,when populations of efficient PVY vectors were high,significant PVY spread occurred even when initial virus inoculum was low.Non-colonizing aphids were more important for PVY spread compared to colonizing aphids,particularly at high densities.An early-season peak in the numbers of noncolonizing aphids resulted in the highest number of infected plants in the end of the season,while mid-and late-season peaks caused relatively little virus spread.Our results highlight the importance of integrating different techniques to prevent the number of PVY-infected plants from exceeding economically acceptable levels instead of trying to control aphids within potato fields.Such management plans should be implemented very early in a growing season.
