In order to clarify the relationships between seedling and adult-plant resis- tance to English grain aphid Sitobion avenae (Fabricius), 94 wheat cultivars were screened and evaluated based on aphid number ratio thro...In order to clarify the relationships between seedling and adult-plant resis- tance to English grain aphid Sitobion avenae (Fabricius), 94 wheat cultivars were screened and evaluated based on aphid number ratio through artificial inoculation in greenhouse and natural infection in field from 2010 to 2012. The results indicated that 43 wheat cultivars were resistant to aphid at different levels, of which two dis- played high resistance, eight moderate resistance and 33 low resistance at adult- plant stage. Meanwhile, 45 wheat cultivars exhibited aphid resistance at seedling stage, including 5 highly-resistant cultivars, 16 moderately-resistant cultivars and 24 low-resistant cultivars. Thirty wheat cultivars showed resistance to aphids to different degrees at both seedling and adult-plant stages, accounting for 31.91% of all tested wheat cultivars, especially that C273 and Lanmai (Shaanxi Zhashui) showed high aphid resistance. Aphid number ratio of wheat cultivars at seedling stage had an extremely significant positive correlation with that at adult-plant stage. Additionally, 66 wheat cultivars exhibited the same resistance to aphids at both seedling and adult-plant stages, accounting for 70.21% of all cultivars. The study demonstrated that inoculation test at seedling stage in greenhouse is a reliable method for identi- fying wheat resistance to S. avenae.展开更多
The cereal cyst nematode(CCN, Heteroder aavenae) causes serious yield loss on cereal crops, especially wheat, worldwide. Daxing population in Beijing City and Huangyuan population in Qinghai Province, China, are two...The cereal cyst nematode(CCN, Heteroder aavenae) causes serious yield loss on cereal crops, especially wheat, worldwide. Daxing population in Beijing City and Huangyuan population in Qinghai Province, China, are two CCN populations. In this study, the CCN pathotypes of Daxing and Huangyuan populations were characterized by tests on 23 standard "International Test Assortment" with the local species Wenmai 19 as the susceptible control. Tested materials were grouped by three nematode populations' virulence on resistant genes(Rha1, Rha2, Rha3, Cre1) and nonresistant genes, varieties and lines. Both Daxing and Huangyuan populations were avirulent to Ortolan(Ha1). Barley cvs. Ortolan, Siri, Morocco, Bajo Aragon 1-1, and Martin 403-2 were all resistant to both populations. Cultivars Herta, Harlan 43 and wheat Iskamish-K-2-light were all susceptible to Huangyuan population, all of them, however, were resistant to Daxing population. The other five oats were all resistant to the two tested CCN populations. Except Iskamisch K-2-light, all the other wheat cultivars(Capa, Loros×Koga, AUS 10894, and Psathias) were susceptible to Daxing population. Because the pathotypes of the two tested CCN populations in Beijing and Qinghai were not identical to any of the 13 pathotypes previously characterized by the test assortment, we classified Daxing and Huangyuan populations as the new pathotypes, named Ha91.展开更多
In order to characterize the genetic relationship of the geographic populations of Sitobion avenae (Hemiptera: Aphididae) in China, a 588 bp region of the mitochondrial cytochrome oxidase subunit I (mtDNA-COI) ge...In order to characterize the genetic relationship of the geographic populations of Sitobion avenae (Hemiptera: Aphididae) in China, a 588 bp region of the mitochondrial cytochrome oxidase subunit I (mtDNA-COI) gene was sequenced and analyzed among the different geographic populations. 269 individuals were collected from 17 localities in different wheat-growing areas in China that covered most of the range reported for this species. Within the sequence among these geographic populations, 15 polymorphic sites defined 16 distinct haplotypes, ranging in sequence divergence from 0.2% (one nucleotide) to 1.7% (10 nucleotides). Of the 15 variable sites, 12 were transitional substitutions, 2 were transversional substitutions and 1 was transitional and transversional substitution. Phylogenetic analysis showed that all haplotypes were highly interconnected with each other, in absence of phylogeographic structing. Each of 8 haplotypes was found only at one locality, and the other haplotypes were the widespread distributed in the different localities. The higher genetic diversity was found in the northern China populations than that in the southern China populations. The low genetic differentiation (FST=-0.06945-0.69857) and high migration rate (Nm=0.21575-infinite) of Chinese populations suggest that dispersal over long distance is a major factor in the demography of S. avenae.展开更多
Sitobion avenae(F.) and Rhopalosiphum padi(L.) are two important pests of wheat in China.They typically coexist in fields during the late period of wheat growth.Sulfoxaflor is a novel sulfoximine insecticide that demo...Sitobion avenae(F.) and Rhopalosiphum padi(L.) are two important pests of wheat in China.They typically coexist in fields during the late period of wheat growth.Sulfoxaflor is a novel sulfoximine insecticide that demonstrates broad-spectrum efficacy,especially in targeting sap-feeding insects.This study was carried out to investigate the sublethal effects of sulfoxaflor on the development,longevity,and reproduction of two species of wheat aphids.Our results showed that sublethal concentrations of sulfoxaflor did not cause significant effects on the fecundity or the longevity of the parent generation(F0 generation) of either S.avenae or R.padi.However,it caused transgenerational sublethal effects.For S.avenae,adult longevity of F1 generation was significantly decreased.No significant differences were observed on the population parameters of S.avenae in the F1 generation.For R.padi,the adult preoviposition period(APOP) and the total preoviposition period(TPOP) of F1 generation were significantly reduced.The mean generation time(T) was significantly reduced in the R.padi F1 generation.What’s more,the intrinsic rate of increase(rm) and the finite rate of increase(λ) were significantly increased in the R.padi F1 generation.Taken together,these results suggest that exposure to the LC25 of sulfoxafl had no effects on the parent generation of S.avenae or R.padi,but it reduced adult longevity of S.avenae as a negative effect and increased the rm and λ of R.padi in the first progeny generation,which may have an impact on the population dynamics of R.padi.展开更多
For sedentary endo-parasitic nematodes, parasitism genes encoding secretory protein expressed in the subventral glands cells always play an important role during the early parasitic process. A new acid phosphatase ge...For sedentary endo-parasitic nematodes, parasitism genes encoding secretory protein expressed in the subventral glands cells always play an important role during the early parasitic process. A new acid phosphatase gene (Ha-acp1) expressed in the subventral glands of the cereal cyst nematode (Heterodera avenae) was cloned and the characteristics of the gene were analyzed. Results showed that the gene had a putative signal peptide for secretion and in situ hybridization showed that the transcripts of Ha-acp1 accumulated speciifcally in the subventral gland cells of H. avenae. Southern blot analysis suggested that Ha-acp1 belonged to a multigene family. RT-PCR analysis indicated that this transcription was strong at the pre-parasitic juveniles. Knocking down Ha-acp1 using RNA interference technology could reduce nematode infectivity by 50%, and suppress the development of cyst. Results indicated that Ha-acp1 could play an important role in destroying the defense system of host plants.展开更多
Heterodera avenae (cereal cyst nematode, CCN) infects many cereal crops and causes serious yield losses worldwide. Interaction studies investigating H. avenae and its hosts are still in their infancy. In this study,...Heterodera avenae (cereal cyst nematode, CCN) infects many cereal crops and causes serious yield losses worldwide. Interaction studies investigating H. avenae and its hosts are still in their infancy. In this study, a barley model plant, the Hordeum vulgare cultivar Golden Promise, was investigated for its potential as a candidate model host to study its inter- action with H. avenae. CCN-infective juveniles were attracted by the root tips and gathered around the root elongation zones of Golden Promise on 0.7% water agar plates. The juveniles invaded the roots and developed successfully until maturation at 40 days after inoculation in sterile sand soil. The cryotomy and syncytium measurements indicated that the syncytia enlarged gradually throughout the development of the nematodes and caused the corresponding root regions to swell obviously. Quantitative real-time PCR analysis showed that the down-regulation of defence-related barley genes and up-regulation Of development-related barley ger^es contribute to the understanding of compatible interaction between H. avenae and Golden Promise. Barley stripe mosaic virus (BSMV) virus-induced gene silencing (VIGS) can be used in the roots of Golden Promise. In conclusion, the Hordeum vulgare cultivar Golden Promise is a suitable candidate model host for interaction studies with Heterodera avenae. The studies presented above document the first CCN host that no.t only has published genome context but also be compatible to BSMV VIGS.展开更多
The cereal cyst nematode,Heterodera avenae Wollenweber,1924,is a major pest of cereal crops throughout the world and causes serious yield losses,especially of wheat.Previous studies have shown that this species is wid...The cereal cyst nematode,Heterodera avenae Wollenweber,1924,is a major pest of cereal crops throughout the world and causes serious yield losses,especially of wheat.Previous studies have shown that this species is widely distributed in the Czech Republic.In this study,seven populations of H.avenae were molecularly studied,and one population was morphologically described.Three regions(18S,28S,and internal transcribed spacer 1)of ribosomal DNA were sequenced and the analysis of the 18S gene of six populations did not reveal any variation,whereas the internal transcribed spacer 1and 28S sequences of six populations differed by only two nucleotides from a population in?ilina.Precise and quick identification of cereal cyst nematodes is important for effective control measures and ribosomal sequence analyses of seven populations in this study will be useful in future phylogenetic studies of Heterodera spp.occurring in the Czech Republic.展开更多
The cereal cyst nematode,Heterodera avenae,is one of the most economically important pathogens impacting the worldwide production of cereals and is widely distributed in more than 16 regions in China.The present study...The cereal cyst nematode,Heterodera avenae,is one of the most economically important pathogens impacting the worldwide production of cereals and is widely distributed in more than 16 regions in China.The present study used the numbers of nematodes inside the plant roots to evaluate the resistance/susceptibility of different subpopulations of barley Hordeum vulgare(QH2R,QH6R and TB2R)to H.avenae under field and pot conditions.Nematode development in two highly resistant varieties was also evaluated by in vivo experiment and microscopic observation.Analyses of 186selected varieties showed the numbers of susceptible varieties identified with the number of females/cysts per plant(NFP)method were significantly higher than those identified with the Pf/Pi ratio(PPR)method,which indicated that the NFP method rather than the PPR method is more reliable to evaluate the resistance of barley.The field and pot experiment results indicated that the QH2R subpopulation had lower females/cysts numbers than QH6R and TB2R subpopulations,and eight HR varieties(Sunong 7617,Sunong 7635,Dongyuan 87-14,Rudong 14-46,Rudong 87-57,Rudong 87-8-45,Rudong 88-14-2,and Rudong 88-67-1)were identified in QH2R,with the NFP numbers below 4.2.Further microscopic observation of nematode development suggested that H.avenae often penetrated less into highly resistant varieties(Sunong 7635 and Dongyuan 87-14)and more frequently failed to develop into females than the susceptible barleys.The promising resistant varieties identified in the present research might be helpful for breeders to develop CCN-resistant cultivars and control H.avenae populations effectively at low costs.展开更多
This article was to study the potential resistance mechanism of three different wheat varieties(Ww2730,Xiaoyan 22 and Batis)in the seedling stage to Sitobion avenae.The aphid feeding behavior was ascertained by stylet...This article was to study the potential resistance mechanism of three different wheat varieties(Ww2730,Xiaoyan 22 and Batis)in the seedling stage to Sitobion avenae.The aphid feeding behavior was ascertained by stylet penetration activities monitoring using the electrical penetration graph(EPG)technique.When the aphids feed on Ww2730 seedlings,the time for the 1st duration probing was later than that on Xiaoyan 22 and Batis significantly,and the number of interrupted probing before the 1st duration probing was more than that on Xiaoyan 22 and Batis significantly,and the 1st duration probing was shorter than that on Xiaoyan 22 and Batis significantly.The durations of the stylet pierce from the extra-to the intra-cellular(pdⅡ-1)on Ww2730 and Xiaoyan 22 were longer than those on Batis significantly.The duration of the potential drop(pd)in C wave on Ww2730 was longer than that on Xiaoyan 22 and Batis significantly.The times and duration of the G wave(ingestion in xylem)on Ww2730 were more and longer than those on Xiaoyan 22 and Batis significantly.The times of spot G wave on Batis was more than that on Ww2730 significantly,but the duration of spot G was shorter than that on Xiaoyan 22 and Ww2730 significantly.The total time of E1 wave,the longest duration of E1 fractions,and the mean duration time of E1 fractions that followed E2 wave on Xiaoyan 22 and Batis were all significantly longer than those on Ww2730.There was no difference of the mean duration of the 1st E1 wave on the 3 varieties,but the mean durations of other E1 wave on Ww2730 and Xiaoyan 22 were shorter than those on Batis significantly.The other wave parameters,including times and durations of F and E2 were all not different on the 3 wheat varieties.It is suggested that the resistance mechanism of wheat variety Ww2730 to S.avenae is a restriction factor of feeding in epidermis,the thicker cell wall in mesophyll,and secondary metabolites or nutrition unbalance in phloem in the seedling phase.The resistance mechanism of Xiaoyan 22 is thicker cell wall and more cell layer in mesophyll in the seedling phase.The feeding strategy of S.avenae against the resistance of Ww2730 was to shorten the second duration of secrete watery salivation to xylem than the first.展开更多
Life tables of brown and green color morphs of the English grain aphid, Sitobion avenae (Fabricius) reared on barley under laboratory conditions at 20 + 1℃,65% ± 5% relative humidity and a photoperiod of 16 ...Life tables of brown and green color morphs of the English grain aphid, Sitobion avenae (Fabricius) reared on barley under laboratory conditions at 20 + 1℃,65% ± 5% relative humidity and a photoperiod of 16 : 8 h (L : D) were compared. The plants were either: (i) infected with the Barley yellow dwarf virus (BYDV); (ii) not infectedwith virus but previously infested with aphids; or (iii) healthy barley plants, which were not previously infested with aphids. Generally, both color morphs of S. avenae performedsignificantly better when fed on BYDV-infected plants than on plants that were virus free but had either not been or had been previously infested with aphids. Furthermore,when fed on BYDV-infected plants, green S. avenae developed significantly faster and had a significantly shorter reproductive period than the brown color morph. There wereno significant differences in this respect between the two color morphs ofS. avenae when they were reared on virus-free plants that either had been or not been previously infestedwith aphids. These results indicate that barley infected with BYDV is a more favorable host plant than uninfected barley for both the color morphs ofS. avenae tested, particularly the green color morph.展开更多
Elevated concentrations of atmospheric CO2 can alter plant secondary metabolites,which play important roles in the interactions among plants,herbivorous insects and natural enemies.However,few studies have examined th...Elevated concentrations of atmospheric CO2 can alter plant secondary metabolites,which play important roles in the interactions among plants,herbivorous insects and natural enemies.However,few studies have examined the cascading effects of host plant secondary metabolites on tri-trophic interactions under elevated CO2(eCO2).In this study,we determined the effects of eCO2 on the growth and foliar phenolics of Medicago truncatula and the cascading effects on two color genotypes oiAcyrthosiphon pisum(pink vs.green)and their parasitoid Aphidius avenae in the field open-top chambers.Our results showed that eCO2 increased photosynthetic rate,nodule number,yield and the total phenolic content of M.truncatula.eCO2 had contrasting effects on two genotypes of A.pisum;the green genotype demonstrated increased population abundance,fecundity,growth and feeding efficiency,while the pink genotype showed decreased fitness and these were closely associated with the foliar genstein content.Furthermore,eCO2 decreased the parasitic rate of A.avenae independent of aphid genotypes.eCO2 prolonged the emergence time and reduced the emergence rate and percentage of females when associated with the green genotype,but little difference,except for increased percentage of females,was observed in A.avenae under eCO2 when associated with the pink genotype,indicating that parasitoids can perceive and discriminate the qualities of aphid hosts.We concluded that eCO2 altered plant phenolics and thus the performance of aphids and parasitoids.Our results indicate that plant phenolics vary by different abiotic and biotic stimuli and could potentially deliver the cascading effects of eCO2 to the higher trophic levels.Our results also suggest that the green genotype is expected to perform better in future eCO2 because of decreased plant resistance after its infestation and decreased parasitic rate.展开更多
Dear Editor, Wheat aphids are serious pests in wheat growing areas of China, and can lead to from 10% to over 30% reduction in wheat production (Wang et al., 2006). The main wheat aphids are Sitobion avenae (Fabric...Dear Editor, Wheat aphids are serious pests in wheat growing areas of China, and can lead to from 10% to over 30% reduction in wheat production (Wang et al., 2006). The main wheat aphids are Sitobion avenae (Fabricius), Rhopalosiphum padi (Linnaeus), Metopolophium dirhodum (Walker), and Schiza- phis graminum (Rondani). In the Huang-Huai area of China, the dominant wheat aphid species are S. avenae and R. padi. For many years, farmers have applied chemical pesticides to control wheat aphids. The number of wheat aphids in north China has increased from year to year, probably due to the increased resistance to insecticides.展开更多
基金Supported by the Exploration and Innovation and Utilization of Wheat Germplasm Resource(2013BAD01B02-6)the National Natural Science Foundation of China(30900897)the Cyrus Tang Foundation of America~~
文摘In order to clarify the relationships between seedling and adult-plant resis- tance to English grain aphid Sitobion avenae (Fabricius), 94 wheat cultivars were screened and evaluated based on aphid number ratio through artificial inoculation in greenhouse and natural infection in field from 2010 to 2012. The results indicated that 43 wheat cultivars were resistant to aphid at different levels, of which two dis- played high resistance, eight moderate resistance and 33 low resistance at adult- plant stage. Meanwhile, 45 wheat cultivars exhibited aphid resistance at seedling stage, including 5 highly-resistant cultivars, 16 moderately-resistant cultivars and 24 low-resistant cultivars. Thirty wheat cultivars showed resistance to aphids to different degrees at both seedling and adult-plant stages, accounting for 31.91% of all tested wheat cultivars, especially that C273 and Lanmai (Shaanxi Zhashui) showed high aphid resistance. Aphid number ratio of wheat cultivars at seedling stage had an extremely significant positive correlation with that at adult-plant stage. Additionally, 66 wheat cultivars exhibited the same resistance to aphids at both seedling and adult-plant stages, accounting for 70.21% of all cultivars. The study demonstrated that inoculation test at seedling stage in greenhouse is a reliable method for identi- fying wheat resistance to S. avenae.
基金financially supported by the National Natural Science Foundation of China (31171827)the National Key Basic Research Program of China (973 Program,2013CB127502)
文摘The cereal cyst nematode(CCN, Heteroder aavenae) causes serious yield loss on cereal crops, especially wheat, worldwide. Daxing population in Beijing City and Huangyuan population in Qinghai Province, China, are two CCN populations. In this study, the CCN pathotypes of Daxing and Huangyuan populations were characterized by tests on 23 standard "International Test Assortment" with the local species Wenmai 19 as the susceptible control. Tested materials were grouped by three nematode populations' virulence on resistant genes(Rha1, Rha2, Rha3, Cre1) and nonresistant genes, varieties and lines. Both Daxing and Huangyuan populations were avirulent to Ortolan(Ha1). Barley cvs. Ortolan, Siri, Morocco, Bajo Aragon 1-1, and Martin 403-2 were all resistant to both populations. Cultivars Herta, Harlan 43 and wheat Iskamish-K-2-light were all susceptible to Huangyuan population, all of them, however, were resistant to Daxing population. The other five oats were all resistant to the two tested CCN populations. Except Iskamisch K-2-light, all the other wheat cultivars(Capa, Loros×Koga, AUS 10894, and Psathias) were susceptible to Daxing population. Because the pathotypes of the two tested CCN populations in Beijing and Qinghai were not identical to any of the 13 pathotypes previously characterized by the test assortment, we classified Daxing and Huangyuan populations as the new pathotypes, named Ha91.
基金supported by the National Basic Research Program of China (973 Program, 2006CB102004)the National S&T Major Project of China (2009ZX08012-007B)+1 种基金the National Natural Science Foundation of China (30971920)the Inter-University Targeted Project between Belgium and China (PIC SHANDONG)
文摘In order to characterize the genetic relationship of the geographic populations of Sitobion avenae (Hemiptera: Aphididae) in China, a 588 bp region of the mitochondrial cytochrome oxidase subunit I (mtDNA-COI) gene was sequenced and analyzed among the different geographic populations. 269 individuals were collected from 17 localities in different wheat-growing areas in China that covered most of the range reported for this species. Within the sequence among these geographic populations, 15 polymorphic sites defined 16 distinct haplotypes, ranging in sequence divergence from 0.2% (one nucleotide) to 1.7% (10 nucleotides). Of the 15 variable sites, 12 were transitional substitutions, 2 were transversional substitutions and 1 was transitional and transversional substitution. Phylogenetic analysis showed that all haplotypes were highly interconnected with each other, in absence of phylogeographic structing. Each of 8 haplotypes was found only at one locality, and the other haplotypes were the widespread distributed in the different localities. The higher genetic diversity was found in the northern China populations than that in the southern China populations. The low genetic differentiation (FST=-0.06945-0.69857) and high migration rate (Nm=0.21575-infinite) of Chinese populations suggest that dispersal over long distance is a major factor in the demography of S. avenae.
基金supported by the National Barley Industry Technology System of China(CARS-05)
文摘Sitobion avenae(F.) and Rhopalosiphum padi(L.) are two important pests of wheat in China.They typically coexist in fields during the late period of wheat growth.Sulfoxaflor is a novel sulfoximine insecticide that demonstrates broad-spectrum efficacy,especially in targeting sap-feeding insects.This study was carried out to investigate the sublethal effects of sulfoxaflor on the development,longevity,and reproduction of two species of wheat aphids.Our results showed that sublethal concentrations of sulfoxaflor did not cause significant effects on the fecundity or the longevity of the parent generation(F0 generation) of either S.avenae or R.padi.However,it caused transgenerational sublethal effects.For S.avenae,adult longevity of F1 generation was significantly decreased.No significant differences were observed on the population parameters of S.avenae in the F1 generation.For R.padi,the adult preoviposition period(APOP) and the total preoviposition period(TPOP) of F1 generation were significantly reduced.The mean generation time(T) was significantly reduced in the R.padi F1 generation.What’s more,the intrinsic rate of increase(rm) and the finite rate of increase(λ) were significantly increased in the R.padi F1 generation.Taken together,these results suggest that exposure to the LC25 of sulfoxafl had no effects on the parent generation of S.avenae or R.padi,but it reduced adult longevity of S.avenae as a negative effect and increased the rm and λ of R.padi in the first progeny generation,which may have an impact on the population dynamics of R.padi.
基金the fund of the National Basic Research Program of China (2013CB127502)the Special Fund for Agro-Scientific Research in the Public Interest,China (200903040)the National Natural Science Foundation of China (31201493)
文摘For sedentary endo-parasitic nematodes, parasitism genes encoding secretory protein expressed in the subventral glands cells always play an important role during the early parasitic process. A new acid phosphatase gene (Ha-acp1) expressed in the subventral glands of the cereal cyst nematode (Heterodera avenae) was cloned and the characteristics of the gene were analyzed. Results showed that the gene had a putative signal peptide for secretion and in situ hybridization showed that the transcripts of Ha-acp1 accumulated speciifcally in the subventral gland cells of H. avenae. Southern blot analysis suggested that Ha-acp1 belonged to a multigene family. RT-PCR analysis indicated that this transcription was strong at the pre-parasitic juveniles. Knocking down Ha-acp1 using RNA interference technology could reduce nematode infectivity by 50%, and suppress the development of cyst. Results indicated that Ha-acp1 could play an important role in destroying the defense system of host plants.
基金supported by the National Natural Science Foundation of China(31571988)the Special Fund for Agro-scientific Research in the Public Interest, China (201503114)the National Key Basic Research Program of China (973 Program, 2013CB127502)
文摘Heterodera avenae (cereal cyst nematode, CCN) infects many cereal crops and causes serious yield losses worldwide. Interaction studies investigating H. avenae and its hosts are still in their infancy. In this study, a barley model plant, the Hordeum vulgare cultivar Golden Promise, was investigated for its potential as a candidate model host to study its inter- action with H. avenae. CCN-infective juveniles were attracted by the root tips and gathered around the root elongation zones of Golden Promise on 0.7% water agar plates. The juveniles invaded the roots and developed successfully until maturation at 40 days after inoculation in sterile sand soil. The cryotomy and syncytium measurements indicated that the syncytia enlarged gradually throughout the development of the nematodes and caused the corresponding root regions to swell obviously. Quantitative real-time PCR analysis showed that the down-regulation of defence-related barley genes and up-regulation Of development-related barley ger^es contribute to the understanding of compatible interaction between H. avenae and Golden Promise. Barley stripe mosaic virus (BSMV) virus-induced gene silencing (VIGS) can be used in the roots of Golden Promise. In conclusion, the Hordeum vulgare cultivar Golden Promise is a suitable candidate model host for interaction studies with Heterodera avenae. The studies presented above document the first CCN host that no.t only has published genome context but also be compatible to BSMV VIGS.
基金supported by the National Agency of Agriculture Research of the Czech Republic (QJ1230159)
文摘The cereal cyst nematode,Heterodera avenae Wollenweber,1924,is a major pest of cereal crops throughout the world and causes serious yield losses,especially of wheat.Previous studies have shown that this species is widely distributed in the Czech Republic.In this study,seven populations of H.avenae were molecularly studied,and one population was morphologically described.Three regions(18S,28S,and internal transcribed spacer 1)of ribosomal DNA were sequenced and the analysis of the 18S gene of six populations did not reveal any variation,whereas the internal transcribed spacer 1and 28S sequences of six populations differed by only two nucleotides from a population in?ilina.Precise and quick identification of cereal cyst nematodes is important for effective control measures and ribosomal sequence analyses of seven populations in this study will be useful in future phylogenetic studies of Heterodera spp.occurring in the Czech Republic.
基金financially supported by the National Natural Science Foundation of China(31772142 and 31972248)the Special Fund for Agro-Scientific Research in the Public Interest,China(201503114)the National Key Research and Development Program,China(2018YFD0201202)。
文摘The cereal cyst nematode,Heterodera avenae,is one of the most economically important pathogens impacting the worldwide production of cereals and is widely distributed in more than 16 regions in China.The present study used the numbers of nematodes inside the plant roots to evaluate the resistance/susceptibility of different subpopulations of barley Hordeum vulgare(QH2R,QH6R and TB2R)to H.avenae under field and pot conditions.Nematode development in two highly resistant varieties was also evaluated by in vivo experiment and microscopic observation.Analyses of 186selected varieties showed the numbers of susceptible varieties identified with the number of females/cysts per plant(NFP)method were significantly higher than those identified with the Pf/Pi ratio(PPR)method,which indicated that the NFP method rather than the PPR method is more reliable to evaluate the resistance of barley.The field and pot experiment results indicated that the QH2R subpopulation had lower females/cysts numbers than QH6R and TB2R subpopulations,and eight HR varieties(Sunong 7617,Sunong 7635,Dongyuan 87-14,Rudong 14-46,Rudong 87-57,Rudong 87-8-45,Rudong 88-14-2,and Rudong 88-67-1)were identified in QH2R,with the NFP numbers below 4.2.Further microscopic observation of nematode development suggested that H.avenae often penetrated less into highly resistant varieties(Sunong 7635 and Dongyuan 87-14)and more frequently failed to develop into females than the susceptible barleys.The promising resistant varieties identified in the present research might be helpful for breeders to develop CCN-resistant cultivars and control H.avenae populations effectively at low costs.
基金supported financially by the Cooperation Project Foundation between the Ministries of Agriculture of Germany and China(02/03)National Natural Science Foundation of China(39970112)Youth Foundation of Northwest A&F University(080807,08080252).
文摘This article was to study the potential resistance mechanism of three different wheat varieties(Ww2730,Xiaoyan 22 and Batis)in the seedling stage to Sitobion avenae.The aphid feeding behavior was ascertained by stylet penetration activities monitoring using the electrical penetration graph(EPG)technique.When the aphids feed on Ww2730 seedlings,the time for the 1st duration probing was later than that on Xiaoyan 22 and Batis significantly,and the number of interrupted probing before the 1st duration probing was more than that on Xiaoyan 22 and Batis significantly,and the 1st duration probing was shorter than that on Xiaoyan 22 and Batis significantly.The durations of the stylet pierce from the extra-to the intra-cellular(pdⅡ-1)on Ww2730 and Xiaoyan 22 were longer than those on Batis significantly.The duration of the potential drop(pd)in C wave on Ww2730 was longer than that on Xiaoyan 22 and Batis significantly.The times and duration of the G wave(ingestion in xylem)on Ww2730 were more and longer than those on Xiaoyan 22 and Batis significantly.The times of spot G wave on Batis was more than that on Ww2730 significantly,but the duration of spot G was shorter than that on Xiaoyan 22 and Ww2730 significantly.The total time of E1 wave,the longest duration of E1 fractions,and the mean duration time of E1 fractions that followed E2 wave on Xiaoyan 22 and Batis were all significantly longer than those on Ww2730.There was no difference of the mean duration of the 1st E1 wave on the 3 varieties,but the mean durations of other E1 wave on Ww2730 and Xiaoyan 22 were shorter than those on Batis significantly.The other wave parameters,including times and durations of F and E2 were all not different on the 3 wheat varieties.It is suggested that the resistance mechanism of wheat variety Ww2730 to S.avenae is a restriction factor of feeding in epidermis,the thicker cell wall in mesophyll,and secondary metabolites or nutrition unbalance in phloem in the seedling phase.The resistance mechanism of Xiaoyan 22 is thicker cell wall and more cell layer in mesophyll in the seedling phase.The feeding strategy of S.avenae against the resistance of Ww2730 was to shorten the second duration of secrete watery salivation to xylem than the first.
文摘Life tables of brown and green color morphs of the English grain aphid, Sitobion avenae (Fabricius) reared on barley under laboratory conditions at 20 + 1℃,65% ± 5% relative humidity and a photoperiod of 16 : 8 h (L : D) were compared. The plants were either: (i) infected with the Barley yellow dwarf virus (BYDV); (ii) not infectedwith virus but previously infested with aphids; or (iii) healthy barley plants, which were not previously infested with aphids. Generally, both color morphs of S. avenae performedsignificantly better when fed on BYDV-infected plants than on plants that were virus free but had either not been or had been previously infested with aphids. Furthermore,when fed on BYDV-infected plants, green S. avenae developed significantly faster and had a significantly shorter reproductive period than the brown color morph. There wereno significant differences in this respect between the two color morphs ofS. avenae when they were reared on virus-free plants that either had been or not been previously infestedwith aphids. These results indicate that barley infected with BYDV is a more favorable host plant than uninfected barley for both the color morphs ofS. avenae tested, particularly the green color morph.
文摘Elevated concentrations of atmospheric CO2 can alter plant secondary metabolites,which play important roles in the interactions among plants,herbivorous insects and natural enemies.However,few studies have examined the cascading effects of host plant secondary metabolites on tri-trophic interactions under elevated CO2(eCO2).In this study,we determined the effects of eCO2 on the growth and foliar phenolics of Medicago truncatula and the cascading effects on two color genotypes oiAcyrthosiphon pisum(pink vs.green)and their parasitoid Aphidius avenae in the field open-top chambers.Our results showed that eCO2 increased photosynthetic rate,nodule number,yield and the total phenolic content of M.truncatula.eCO2 had contrasting effects on two genotypes of A.pisum;the green genotype demonstrated increased population abundance,fecundity,growth and feeding efficiency,while the pink genotype showed decreased fitness and these were closely associated with the foliar genstein content.Furthermore,eCO2 decreased the parasitic rate of A.avenae independent of aphid genotypes.eCO2 prolonged the emergence time and reduced the emergence rate and percentage of females when associated with the green genotype,but little difference,except for increased percentage of females,was observed in A.avenae under eCO2 when associated with the pink genotype,indicating that parasitoids can perceive and discriminate the qualities of aphid hosts.We concluded that eCO2 altered plant phenolics and thus the performance of aphids and parasitoids.Our results indicate that plant phenolics vary by different abiotic and biotic stimuli and could potentially deliver the cascading effects of eCO2 to the higher trophic levels.Our results also suggest that the green genotype is expected to perform better in future eCO2 because of decreased plant resistance after its infestation and decreased parasitic rate.
基金supported by the National Natural Science Foundation of China(31272364,L1524009)Strategic Research of Chinese Academy of Sciences(2015-SM-C-02)the Strategic Priority Research Program of the Chinese Academy of Sciences(XDB11040200)
文摘Dear Editor, Wheat aphids are serious pests in wheat growing areas of China, and can lead to from 10% to over 30% reduction in wheat production (Wang et al., 2006). The main wheat aphids are Sitobion avenae (Fabricius), Rhopalosiphum padi (Linnaeus), Metopolophium dirhodum (Walker), and Schiza- phis graminum (Rondani). In the Huang-Huai area of China, the dominant wheat aphid species are S. avenae and R. padi. For many years, farmers have applied chemical pesticides to control wheat aphids. The number of wheat aphids in north China has increased from year to year, probably due to the increased resistance to insecticides.
