RNA interference(RNAi)technology is a promising crop protection strategy against agricultural pests.The soybean pod borer(SPB),Leguminivora glycinivorella(Mats.),is a serious pest of soybean in northeastern Asia.The n...RNA interference(RNAi)technology is a promising crop protection strategy against agricultural pests.The soybean pod borer(SPB),Leguminivora glycinivorella(Mats.),is a serious pest of soybean in northeastern Asia.The neonate larvae of SPB are endophagous,initially feeding on the inner layer of the pod and then on the immature soybean seeds,a behavior that makes them difficult to rear.Therefore,a suitable artificial diet is desirable to facilitate RNAi research.Seven artificial diets and soybean pods were used for rearing SPB neonate larvae.The survival and mean weight of the larvae reared on artificial diet 6(A6,included 2 g soybean flour and 10 g R3 immature soybean pod powder)were found to be significantly higher than those for larvae reared on all other diets.Subsequently,A6 diet was prepared in DEPC-treated water to obtain a RNase-free artificial diet(RF).The survival and mean weight of the larvae were not significantly different between A6 and RF diets.Feeding neonate larvae with RF-SpbP0 dsRNA(ribosomal protein P0)silenced SpbP0 gene,resulting in arrested development and increased mortality.The results of this study suggested that the newly developed A6 or RF diets could rear SPB neonate larvae and help towards developing an effective method for oral delivery of dsRNA to SPB larvae.展开更多
In this research, the effects of initial moisture content and needed impact energy on threshing of soybean pods were studied. An impact device was built based of pendulum mechanism. In the experiments, threshing perce...In this research, the effects of initial moisture content and needed impact energy on threshing of soybean pods were studied. An impact device was built based of pendulum mechanism. In the experiments, threshing percentage of soybean pod samples were measured at three initial moisture content levels of 16.25% and 35% w.b. and three energy levels of 173,284 and 446 mJ. The results of analysis of variance showed that moisture content and energy have significant effects on the threshing percentage. By increasing impact energy, amount of pod threshing increased. Also in all the energy levels, maximum threshing occurred at minimum moisture. Maximum threshing percentage was 83.4%, which was at 16% moisture content and 446 mJ levels, also minimum threshing percentage was 3.3% which was at 35% moisture content and 174 mJ levels. Soybean pod with higher moisture, contact between its edges of the pod was stronger than lower moisture, so more energy was needed to separate two edges at 35% moisture.展开更多
A study was conducted in four compartments of a polycarbonate greenhouse at Gainesville,FL, USA to investigate how a soybean(Glycine max L. Merr.) cultivar, Maverick(maturity group III, indeterminate), responded to th...A study was conducted in four compartments of a polycarbonate greenhouse at Gainesville,FL, USA to investigate how a soybean(Glycine max L. Merr.) cultivar, Maverick(maturity group III, indeterminate), responded to three elevated temperatures, ELT,(day/night of 34/26 °C, 38/30 °C, and 42/34 °C) in comparison to a control growth temperature(30/22 °C).Carbon dioxide(CO_2) concentration was maintained at 700 μmol mol^(-1) in each compartment by a processor controlled air-sampling and CO_2-injection system. Three sequential experiments were conducted at different times of year(summer, autumn, and early spring)to investigate the effect of intensity, timing, and duration of ELT on soybean node number,internode elongation, mainstem length, and number of pods set per plant. At the control temperature, the soybean plants grown in the polycarbonate greenhouse were taller than field-grown plants. When plants were grown under continuous ELT applied soon after sowing or at initial flowering, the number of nodes increased with increasing ELT intensity,whereas the length of individual internodes decreased. When ELT treatment was applied during the beginning of flowering stage(R1–R2) or earlier, more nodes were produced and the length of affected internodes was decreased. When the ELT was imposed later at reproductive stage R5+ just before the beginning of seed filling, effects on node numbers and internode lengths were negligible. Short-term(10-day) duration of ELT applied at four stages from V3 to R5+ did not significantly affect final mean numbers of nodes or mean mainstem lengths. Possible mechanisms of elevated temperature effects on soybean internode elongation and node number(internode number) are discussed. Total pod numbers per plant increased linearly with mainstem node numbers and mainstem length.Furthermore, total pod numbers per plant were greatest at 34/26 °C rather than at the control temperature of 30/22 °C(and remained high at 38/30 °C). Mild increases in temperature might not threaten, but actually increase, yields of soybean in northerly zones where this crop is currently grown at slightly suboptimal temperatures. However, a sustained increase in ambient temperature would likely threaten soybean yields.展开更多
Number of pods per plant and number of seeds per pod are quantitative,multigenic traits and important components of yield in soybean[Glycine max(L.)Merr.].Pods are distributed unevenly in the upper,middle,and lower se...Number of pods per plant and number of seeds per pod are quantitative,multigenic traits and important components of yield in soybean[Glycine max(L.)Merr.].Pods are distributed unevenly in the upper,middle,and lower segments of the plant and this distribution is affected by sowing date(SD).A population of four-way recombinant inbred lines(FW-RIL),containing 160 F2:8 individuals,was generated from the cross(Kenfeng 14×Kenfeng 15)×(Heinong 48×Kenfeng 19).A linkage map consisting of 275 simple sequence repeat(SSR)markers was used to map quantitative trait loci(QTL)associated with the production of one,two,three,and four seeds per pod in the upper,middle,and lower segments of plants at two SDs,totaling 12 measurements per SD.A wide range of variation in the twelve characteristics was observed among the four parental lines and the FW-RIL population at the two SDs.The effect of SD2(May 17,2016)on pod number was stronger than that of SD1(May 7,2016)because the heritability of each trait in the SD1 experiment was generally greater than that of SD2.The study identified 76 QTL controlling pod number,with the phenotypic variation explained by each QTL ranging from 1.86%to 13.71%.The numbers of QTL controlling one,two,three,and four seeds per pod were 28,23,23,and 23,respectively.There were 30,28,and 28 QTL controlling the pod number in the upper,middle,and lower segments of the plant,respectively.Forty-five QTL were identified at SD1 and 38 QTL were identified at SD2.Seventeen QTL were associated with pod-number traits.The QTL qPNA1–3 was associated with the number of pods containing one seed in the middle segment of the plant at both SDs.Sixty-three QTL were published QTL(common areas existed when integrating on a map GmComposite2003 of Wm82 based on left and right markers).and 13 QTL related to pod number were newly discovered.These results provide a reference for breeders to improve soybean yield by combining advantageous alleles for these QTL.Future studies may reveal candidate genes for these QTL and identify causal alleles for markerassisted selection.展开更多
1.大豆果实发育过程中种子和荚皮过氧化物酶(Peroxidase-POD,下同)和超氧化物岐化酶(superoxide Dismutase—SOD,下同)活性均有变化。结瘤大豆的两种酶活性高于非结瘤大豆,这种差异在 POD 活性上表现尤为显著。2.SOD 同工酶在种子发育...1.大豆果实发育过程中种子和荚皮过氧化物酶(Peroxidase-POD,下同)和超氧化物岐化酶(superoxide Dismutase—SOD,下同)活性均有变化。结瘤大豆的两种酶活性高于非结瘤大豆,这种差异在 POD 活性上表现尤为显著。2.SOD 同工酶在种子发育早期就基本合成齐全,而 POD 同工酶随发育逐渐增多。3.种子 SOD 和 POD 均高于荚皮中的活性,但同工酶带数却以荚皮的为多,而且非结瘤种子和荚皮的两种同工酶条带均多于结瘤株的。这表明同工酶条带数与活性间不一定呈相关关系。展开更多
The resaerch examined the effect of the two oceanic materials as coating materials on the soybean growth.The results showed chitosan and sodium alginate seed coating can enhance the growth of seedling root,increase th...The resaerch examined the effect of the two oceanic materials as coating materials on the soybean growth.The results showed chitosan and sodium alginate seed coating can enhance the growth of seedling root,increase the nodule mumber,root activity and the growth of underground.The suggested coating ratios were 0.5~1.0g/kgseed,the same as chitosan.The two materials could increase the contents of CAT and NR in soybean leaves,decrease the contents of POD in soybean leaves.展开更多
基金Supported by the Harbin Science and Technology Innovation Program(2017RAQXJ122)China National Novel Transgenic Organisms Breeding Project(2016ZX08004-004-006)+2 种基金the Heilongjiang Natural Science Foundation(C2018012)the Chinese National Natural Science Foundation(31201229)Soybean Research&Development Center(CARS-04-PS04)。
文摘RNA interference(RNAi)technology is a promising crop protection strategy against agricultural pests.The soybean pod borer(SPB),Leguminivora glycinivorella(Mats.),is a serious pest of soybean in northeastern Asia.The neonate larvae of SPB are endophagous,initially feeding on the inner layer of the pod and then on the immature soybean seeds,a behavior that makes them difficult to rear.Therefore,a suitable artificial diet is desirable to facilitate RNAi research.Seven artificial diets and soybean pods were used for rearing SPB neonate larvae.The survival and mean weight of the larvae reared on artificial diet 6(A6,included 2 g soybean flour and 10 g R3 immature soybean pod powder)were found to be significantly higher than those for larvae reared on all other diets.Subsequently,A6 diet was prepared in DEPC-treated water to obtain a RNase-free artificial diet(RF).The survival and mean weight of the larvae were not significantly different between A6 and RF diets.Feeding neonate larvae with RF-SpbP0 dsRNA(ribosomal protein P0)silenced SpbP0 gene,resulting in arrested development and increased mortality.The results of this study suggested that the newly developed A6 or RF diets could rear SPB neonate larvae and help towards developing an effective method for oral delivery of dsRNA to SPB larvae.
文摘In this research, the effects of initial moisture content and needed impact energy on threshing of soybean pods were studied. An impact device was built based of pendulum mechanism. In the experiments, threshing percentage of soybean pod samples were measured at three initial moisture content levels of 16.25% and 35% w.b. and three energy levels of 173,284 and 446 mJ. The results of analysis of variance showed that moisture content and energy have significant effects on the threshing percentage. By increasing impact energy, amount of pod threshing increased. Also in all the energy levels, maximum threshing occurred at minimum moisture. Maximum threshing percentage was 83.4%, which was at 16% moisture content and 446 mJ levels, also minimum threshing percentage was 3.3% which was at 35% moisture content and 174 mJ levels. Soybean pod with higher moisture, contact between its edges of the pod was stronger than lower moisture, so more energy was needed to separate two edges at 35% moisture.
基金supported by USDA grant 2008-35100-19244 to the University of Floridathe University of Florida Agricultural Experiment Stationby the Center for Medical, Agricultural, and Veterinary Entomology, U.S. Department of AgricultureAgricultural Research Service, Gainesville, FL, USA
文摘A study was conducted in four compartments of a polycarbonate greenhouse at Gainesville,FL, USA to investigate how a soybean(Glycine max L. Merr.) cultivar, Maverick(maturity group III, indeterminate), responded to three elevated temperatures, ELT,(day/night of 34/26 °C, 38/30 °C, and 42/34 °C) in comparison to a control growth temperature(30/22 °C).Carbon dioxide(CO_2) concentration was maintained at 700 μmol mol^(-1) in each compartment by a processor controlled air-sampling and CO_2-injection system. Three sequential experiments were conducted at different times of year(summer, autumn, and early spring)to investigate the effect of intensity, timing, and duration of ELT on soybean node number,internode elongation, mainstem length, and number of pods set per plant. At the control temperature, the soybean plants grown in the polycarbonate greenhouse were taller than field-grown plants. When plants were grown under continuous ELT applied soon after sowing or at initial flowering, the number of nodes increased with increasing ELT intensity,whereas the length of individual internodes decreased. When ELT treatment was applied during the beginning of flowering stage(R1–R2) or earlier, more nodes were produced and the length of affected internodes was decreased. When the ELT was imposed later at reproductive stage R5+ just before the beginning of seed filling, effects on node numbers and internode lengths were negligible. Short-term(10-day) duration of ELT applied at four stages from V3 to R5+ did not significantly affect final mean numbers of nodes or mean mainstem lengths. Possible mechanisms of elevated temperature effects on soybean internode elongation and node number(internode number) are discussed. Total pod numbers per plant increased linearly with mainstem node numbers and mainstem length.Furthermore, total pod numbers per plant were greatest at 34/26 °C rather than at the control temperature of 30/22 °C(and remained high at 38/30 °C). Mild increases in temperature might not threaten, but actually increase, yields of soybean in northerly zones where this crop is currently grown at slightly suboptimal temperatures. However, a sustained increase in ambient temperature would likely threaten soybean yields.
基金the financial support for this study provided by grants from the Natural Science Foundation of Heilongjiang Province, China (LC201610) to Hailong Ning
文摘Number of pods per plant and number of seeds per pod are quantitative,multigenic traits and important components of yield in soybean[Glycine max(L.)Merr.].Pods are distributed unevenly in the upper,middle,and lower segments of the plant and this distribution is affected by sowing date(SD).A population of four-way recombinant inbred lines(FW-RIL),containing 160 F2:8 individuals,was generated from the cross(Kenfeng 14×Kenfeng 15)×(Heinong 48×Kenfeng 19).A linkage map consisting of 275 simple sequence repeat(SSR)markers was used to map quantitative trait loci(QTL)associated with the production of one,two,three,and four seeds per pod in the upper,middle,and lower segments of plants at two SDs,totaling 12 measurements per SD.A wide range of variation in the twelve characteristics was observed among the four parental lines and the FW-RIL population at the two SDs.The effect of SD2(May 17,2016)on pod number was stronger than that of SD1(May 7,2016)because the heritability of each trait in the SD1 experiment was generally greater than that of SD2.The study identified 76 QTL controlling pod number,with the phenotypic variation explained by each QTL ranging from 1.86%to 13.71%.The numbers of QTL controlling one,two,three,and four seeds per pod were 28,23,23,and 23,respectively.There were 30,28,and 28 QTL controlling the pod number in the upper,middle,and lower segments of the plant,respectively.Forty-five QTL were identified at SD1 and 38 QTL were identified at SD2.Seventeen QTL were associated with pod-number traits.The QTL qPNA1–3 was associated with the number of pods containing one seed in the middle segment of the plant at both SDs.Sixty-three QTL were published QTL(common areas existed when integrating on a map GmComposite2003 of Wm82 based on left and right markers).and 13 QTL related to pod number were newly discovered.These results provide a reference for breeders to improve soybean yield by combining advantageous alleles for these QTL.Future studies may reveal candidate genes for these QTL and identify causal alleles for markerassisted selection.
文摘1.大豆果实发育过程中种子和荚皮过氧化物酶(Peroxidase-POD,下同)和超氧化物岐化酶(superoxide Dismutase—SOD,下同)活性均有变化。结瘤大豆的两种酶活性高于非结瘤大豆,这种差异在 POD 活性上表现尤为显著。2.SOD 同工酶在种子发育早期就基本合成齐全,而 POD 同工酶随发育逐渐增多。3.种子 SOD 和 POD 均高于荚皮中的活性,但同工酶带数却以荚皮的为多,而且非结瘤种子和荚皮的两种同工酶条带均多于结瘤株的。这表明同工酶条带数与活性间不一定呈相关关系。
文摘The resaerch examined the effect of the two oceanic materials as coating materials on the soybean growth.The results showed chitosan and sodium alginate seed coating can enhance the growth of seedling root,increase the nodule mumber,root activity and the growth of underground.The suggested coating ratios were 0.5~1.0g/kgseed,the same as chitosan.The two materials could increase the contents of CAT and NR in soybean leaves,decrease the contents of POD in soybean leaves.
