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wild soybean
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  野生大豆
     ② Annual wild soybean in 34~35°N×113~115°E, 38~39°N×113~115°E and 34~35°N×107~109°E of Yellow River Valley and Qinling Mountains take second place.
     2 34~ 35°N× 113~ 115°E、 38~ 39°N× 113~ 115°E和 34~ 35°N× 10 7~ 10 9°E的黄河中下游和秦岭山区野生大豆次之 ;
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     THE GLYCININ A_5 A_4 B_3 cDNA FROM WILD SOYBEAN GLYC1NE SOJA SIEB ET ZUCC
     野生大豆(Glycine soja Sieb et ZUCC)球蛋白A_5 A_4 B_3 cDNA的研究(简报)
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     Study on seed storage protein component 11S/7S of wild soybean(G.soja)
     野生大豆(G.soja)种子贮藏蛋白组份 11S/7S 的研究
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     The results showed that MS+2,4-D2.0mg/L+6-BA0.5mg/L+sucrose 5%+agar 0.8% is the best medium for callus induction. Salt-tolerance ability of calli had obvious different among different wild soybean.
     试验结果表明 :诱导野生大豆愈伤组织的适宜培养基为MS +2 ,4-D 2 .0mg/L +6-BA0 .5mg/L +蔗糖5 % +琼脂 0 .8% ;
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     Genetic diversity analysis of wild soybean (Glycine soja Sieb. & Zucc.) from in-situ conserved population in Xinbin county of Liaoning province
     辽宁新宾县原位保护区野生大豆(Glycine soja Sieb.& Zucc.)遗传多样性分析
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  野大豆
     In order to determine an appropriate sampling strategy for the effective conservation of wild soybean (Glycine soja Sieb. et Zucc.)
     为了有效地保护野大豆(Glycine soja Sieb.et Zucc.)
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     Studies on the Cultivated Characteristics of Wild Soybean
     野大豆栽培特性的研究
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     A higher level of salt tolerance in saline populations of wild soybean ( Glycine soja Sieb. et Zucc.)
     黄河三角洲野大豆(Glycine soja Sieb. et Zucc.) 盐渍群体的耐盐性高于附近的正常群体。
短句来源
     Wild soybean seedlings were treated with 0, 50, 100 and 200 mmol/L NaCl , then the Na+ , Cl- and K+ content of shoots and roots were measured and compared.
     用不同浓度的NaCl溶液处理野大豆幼苗后,测定并比较根及地上部的Na+、Cl-、K+含量.
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     Sampling Strategy Within a Wild Soybean Population Based on Its Genetic Variation Detected by ISSR Markers
     利用ISSR标记研究野大豆居群内遗传变异及其取样策略(英文)
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  “wild soybean”译为未确定词的双语例句
     Sinorhizobium fredii YC4 can form nitrogen-fixing nodules on soybean (Glycine max) and wild soybean (G. soja).
     费氏中华根瘤菌(Sinorhizobium fredii)YC4能在大豆(Glycine max)和野大豆(G.soia)上形成正常固氮的根瘤。
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     For salt-sensitive wild soybean(N23232),the O -. 2 generation rate and H 2O 2 content increased, product of lipid peroxidation(MDA) and electrical conductivity increased in the leaves under 130 mmol/L NaCl stress. There were some significantly positive correlation among the Na +?
     耐盐性弱的N2 32 32叶片O- 2 产生速率和H2 O2 含量上升 ,膜脂过氧化产物MDA和电导率迅速上升 ,其叶片中Na+ 、Cl- 含量变化与O- 2 、H2 O2 、MDA和电导率增加呈极显著或显著正相关 ,而O- 2 产生速率和H2 O2 含量上升与MDA和电导率变化呈极显著正相关。
短句来源
     and wild soybean ( dycine soja (L.)
     和野大豆(Glycine soja(L.)
短句来源
     The contents of wild soybean got its maximum (2.35 g·kg-1) after sprouting 4.5 cm length;
     黑豆芽萌发到4.5cm时,还原糖含量达最大值(2.35g·kg-1);
短句来源
     Three crosses between 3 cultivated(G. max)and 2 aphid resistant wild soybean(G. soja)lines were made to study the inheritance of resistance and segregation patterns in F2 generation with artificial inoculation technique.
     以3份栽培大豆(Clycine max)与2份野生抗蚜大豆(G.soja)材料杂交,用人二接虫鉴定的方法研究了杂交F_2代的抗蚜性分离特点和抗性遗传规律。
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  wild soybean
Chimeric RNA3s from between CMV-SC and CMV-Y, and chimeric RNA3s from between CMV-SC and CMV-SD, were made and inoculated onto wild soybean Iwate and soybean cv.
      
The efficiency of somatic embryo germination was as high as 77% from semi-wild soybean and 60-64% from cultivated soybeans, showing that the plant regeneration system developed in this study was efficient and practical.
      
Rhodamine conjugated LPS from both strains ofRhizobium japonicum did not exhibit specific binding to wild soybean seedling roots.
      
Lack of specific binding of labeledRhizobium japonicum lipopolysaccharides to wild soybean (Glycine soja) roots
      
NaCl induced the increase of CEF1 more greatly in wild soybean Glycine cyrtoloba (cv.
      
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The soybean aphid, Aphis glycines Matsumura is widely distributed in the soybean growingregions of China, its damage has done severely in Kirin, Liaoning, Heilungkiang, andInner Mongolia. The host plant of this aphid is quite limited, besides the cultivated soybean, sofar only the wild soybean, Glycine Benth forma lanceolate Makino and Rhamnus davuricusPall. were found in Northeast China. Three periods of the damage on soybean can be receg-nized: 1) From seedling stage to blooming stage of soybean,...

The soybean aphid, Aphis glycines Matsumura is widely distributed in the soybean growingregions of China, its damage has done severely in Kirin, Liaoning, Heilungkiang, andInner Mongolia. The host plant of this aphid is quite limited, besides the cultivated soybean, sofar only the wild soybean, Glycine Benth forma lanceolate Makino and Rhamnus davuricusPall. were found in Northeast China. Three periods of the damage on soybean can be receg-nized: 1) From seedling stage to blooming stage of soybean, the aphid population reaches its highestpeak. Its colonies concentrate on tender leaves and branches.2) In late July, the top growing pointof soybean plant stops to grow, the aphid colonies alter their positions from the top to the middleor the lower part of the plant and feed on the underside of soybean leaves. At that time, minute formof aphids appears and its population usually turns down quickly. 3) From late Augustto early September, the aphid colony begins to multiply rapidly again. Afterwards, it migrates backto the overwintering host, Rhamnus davuricus. By mating of the sexuales, eggs are laid to passwinter. A total of 15 generations developed on soybean and all together 18 generations in a year. Some aspects in relation to the fluctuations of aphid population are mentioned: 1)The norm ofoverwintering eggs and also the population size in the soybean seedling stage are directly related to thefuture size of the aphid colony. 2) During the period from late June to early July, the optimalrange of temperature (22--25℃) and humidity (below 78%) are found combinatively favoringthe aphid development. 3) After late July, the growth of soybean becomes depressing, the nutritioussupply for the aphid becomes correspondingly poor, the population goes to be greatly decreased. The results of laboratory and field tests reveated that 0.5% γ 666 dust, 6% γ wettable 666(1:300--400), E605 (1:15000), tobacco leaf solution (1:100) and seed coating with 20% γ 666dust are very effective to control the soybean aphids.

大豆蚜在我国主要大豆产地都有分布,以吉、辽、黑和内蒙自治区的一部分为害最重,为猖獗发生区。大豆蚜的寄主植物除大豆外,还有野生大豆和鼠李,由调查和接种试验的结果,肯定了大量地分布在东北三省的鼠李为越冬寄主。 大豆蚜的全年发生周期和为害特点在大豆上共分三个阶段:1)从侵害豆苗起到7月中旬大豆盛花期止,是大豆蚜的盛发时期,占有总蚜量的50—70%,群聚于豆株上部幼嫩的枝叶上,这时期的为害,对大豆的生长威胁最大;2)到7月下旬,由于大豆生长点停止生长,大豆蚜即从群聚于植株上部发生转移到分散在中、下部的叶片背面,并同时出现小型蚜,生长迟缓,为田间大豆蚜为害的消退阶段;3)8月下旬结荚后期到9月上旬黄熟期,重新开始了大豆蚜的后期繁殖阶段,随即在秋末季迁回鼠李,经雌雄交配产卵越冬,秋季雄性蚜和雌性产卵蚜分别发生在不同的寄主上,雌性发生在鼠李上,雄性发生在大豆上。全年在大豆上共繁殖15代。 根据大豆蚜的生活规律和几年来田间消长规律并结合几年的气象资料综合分析的结果,初步得出大豆蚜的发生消长规律和其影响因子:1)上年越冬量及早期田间蚜量大,因而造成了苗期大发生;2)6月下旬至7月上旬的旬平均温度在22—25℃,相对湿度在78%...

大豆蚜在我国主要大豆产地都有分布,以吉、辽、黑和内蒙自治区的一部分为害最重,为猖獗发生区。大豆蚜的寄主植物除大豆外,还有野生大豆和鼠李,由调查和接种试验的结果,肯定了大量地分布在东北三省的鼠李为越冬寄主。 大豆蚜的全年发生周期和为害特点在大豆上共分三个阶段:1)从侵害豆苗起到7月中旬大豆盛花期止,是大豆蚜的盛发时期,占有总蚜量的50—70%,群聚于豆株上部幼嫩的枝叶上,这时期的为害,对大豆的生长威胁最大;2)到7月下旬,由于大豆生长点停止生长,大豆蚜即从群聚于植株上部发生转移到分散在中、下部的叶片背面,并同时出现小型蚜,生长迟缓,为田间大豆蚜为害的消退阶段;3)8月下旬结荚后期到9月上旬黄熟期,重新开始了大豆蚜的后期繁殖阶段,随即在秋末季迁回鼠李,经雌雄交配产卵越冬,秋季雄性蚜和雌性产卵蚜分别发生在不同的寄主上,雌性发生在鼠李上,雄性发生在大豆上。全年在大豆上共繁殖15代。 根据大豆蚜的生活规律和几年来田间消长规律并结合几年的气象资料综合分析的结果,初步得出大豆蚜的发生消长规律和其影响因子:1)上年越冬量及早期田间蚜量大,因而造成了苗期大发生;2)6月下旬至7月上旬的旬平均温度在22—25℃,相对湿度在78%以下时,则极有利于田间大豆蚜的发育和繁殖,即使早期蚜量少,由?

An estimation of heritabilities and genetic correlations in F_2populations and F_3 progenies of three crosses of different types ofsoybean was made in 1964—65.These crosses were Amur No.41×Shengao(Glycine max),Amur No.41×Semi-Cultivated YellowSoybean(G.gracilis)and Feng-dehuang×Wild Soybean(G.soja).The heritabilities of several important agronomic characters ofsoybean were estimated by three different methods.Results of suchevaluation showed that values of heritability estimated by broad sencemethod were...

An estimation of heritabilities and genetic correlations in F_2populations and F_3 progenies of three crosses of different types ofsoybean was made in 1964—65.These crosses were Amur No.41×Shengao(Glycine max),Amur No.41×Semi-Cultivated YellowSoybean(G.gracilis)and Feng-dehuang×Wild Soybean(G.soja).The heritabilities of several important agronomic characters ofsoybean were estimated by three different methods.Results of suchevaluation showed that values of heritability estimated by broad sencemethod were the highest,those by correlation method were the lowestand those by variance analysis method were intermediate.The heri-tabilities of time of flowering,date of maturity and plant height werethe highest,those of number of nodes of main stem and weight of 100seeds ranked next,while those of number of branches were thelowest.Therefore,during the early generations of soybean crosses,characters with high heritability such as date of maturity and plantheight can be selected rigorously.In general,genotypic correlations were higher than the phenotypiccorrelations.Correlations between number of pods per plant anddate maturity,plant height,number of nodes of main stem,andnumber of branches were positive and significant.Envirenmentalcorrelations among the characters studied were generally not signi-ficant.

本试验用三个不同类型的大豆杂交组合 F_2与 F_3世代,进行了八个农艺性状的遗传力与性状相关的研究。用广义法、相关法、方差分析法估算了遗传力,以开花期、成熟期、株高的遗传力较高,单株荚数、单株粒重的遗传力较低,主茎节数、百粒重居中。计算了表现型相关、基因型相关及环境相关。成熟期、株高、主茎节数、分枝数与单株荚数有显著的正相关,基因型相关高于表现型相关。讨论了遗传力、性状相关与世代选择的关系。

Wild soybean Glycinc soja with his characters of disease resistant, high protein content, tolerant to stress is an important germplasm for soybean improvement. Plant regeneration is first step for application of genetic engineering technique to soybean improvement. Several plant-lets were obtained from calluses of hypocotyle and cotyledon of wild soybean. The best medium for this is MS medium with supplements 2mg/l IAA, 5mg/1 BA and 2mg/l KT. The immature hypocotyl and cotyledon are best inoculants for...

Wild soybean Glycinc soja with his characters of disease resistant, high protein content, tolerant to stress is an important germplasm for soybean improvement. Plant regeneration is first step for application of genetic engineering technique to soybean improvement. Several plant-lets were obtained from calluses of hypocotyle and cotyledon of wild soybean. The best medium for this is MS medium with supplements 2mg/l IAA, 5mg/1 BA and 2mg/l KT. The immature hypocotyl and cotyledon are best inoculants for callus and plant inducing.

野生大豆Glvcine soja是栽培大豆G.max的近祖。它具有高蛋白、抗病性强、抗旱、抗涝和抗盐碱等许多优良性状。研究G.soja的愈伤组织的再生,对于研究Glycine属的遗传工程,改良现有栽培大豆都有重要意义。本文介绍采用MS基本培养基附加2mg/l IAA、5mg/l BA和2mg/l KT培养基,培养未成熟的G.soja幼嫩种子的下胚轴和子叶获得愈伤组织并分化出幼苗。 IAA——Indole—Acetic Acid. BA——6—Benzylamiaopurine. KT——Kinetin.

 
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