Pinus bungeana

  • 网络白皮松
Pinus bungeanaPinus bungeana
  1. A study on geographical distribution law of Pinus bungeana natural forests in China

    白皮松天然林地理分布规律研究

  2. Pinus bungeana in spring showed higher fungi inhibition rate .

    白皮松在春季表现出较高的真菌抑菌率。

  3. Conservation genetics of Pinus bungeana . ⅰ . Gene conservation analysis

    白皮松的保育遗传学研究Ⅰ.基因保护分析

  4. Effect of Antioxidation Enzyme Recovery System to the Winter Resistance of Pinus Bungeana Seedlings

    抗氧化酶促防御系统对白皮松幼苗抗寒性的影响

  5. Study on the Effects of Ectomycorrhizal Preparation on Seedling Growth of Pinus bungeana

    外生菌根菌剂对白皮松幼苗生长效应的研究

  6. Study on younger forest population structure of Pinus bungeana in the Luliang Mountains

    吕梁山南端白皮松幼林种群结构的研究

  7. Geographical Variation of Morphologic Characteristics of Pinus bungeana Seeds and Cones

    白皮松种子及球果形态特征的地理变异

  8. Study on the niche of Pinus bungeana community in Xiaolong Mountain National Nature Reserve

    国家级自然保护区小陇山白皮松群落生态位研究

  9. Extraction , Separation and Biological Measurement of Endogenous Growth Regulating Substance of Seeds of Pinus Bungeana

    白皮松种子内含物的提取、分离及生物测定

  10. Organic substance metabolism during seed germination of Pinus bungeana

    白皮松种子萌发过程中有机质代谢的研究

  11. The Effect of Mulch and Sowing Time on Seedling 's Emergence of Pinus bungeana

    覆盖基质及播种时间对白皮松出苗的影响

  12. Factors Influencing the Initiation of Embryogenic Callus in Pinus bungeana

    白皮松胚性愈伤组织诱导因素的研究

  13. Callus formation is not found during the process of rooting of Pinus bungeana cuttings .

    白皮松插穗的生根过程中未发现愈伤组织的形成。

  14. Characteristics of embryo dormancy and germination of Pinus bungeana

    白皮松种胚的休眠萌发特性研究

  15. Nifedipine is Involved in the Regulation of Protein Expression and Cell Wall Construction in Pollen Tubes of Pinus Bungeana

    Nifedipine调节白皮松(Pinusbungeana)花粉管蛋白质表达及其对细胞壁构建的影响

  16. The irradiating effect of laser on the seeds of Pinus bungeana Zncc

    激光辐照白皮松种子的效应研究

  17. Casparian Strip in the Foliar Endodermis of Pinus Bungeana : Structure , Chemical Component and Development

    白皮松(Pinusbungeana)针叶内皮层凯氏带的结构特征、化学成分及其发育过程的研究

  18. Primary Research of Senescence Mechanism of Old Pinus bungeana ── Superoxide Dismutase Activity and Lipid Peroxidation in Relation to Senescence

    古白皮松衰老机理初探&超氧化物歧化酶及脂质过氧化物与衰老的关系

  19. Relation between Parameters of Electrical Impedance Spectroscopy and Those of Physiology in Pinus Bungeana Shoots and Needles of Different Provenances

    不同种源白皮松茎和针叶的电阻抗参数与生理参数相关性研究

  20. Studies on Cytochemistry of albuminous cells in secondary phloem of stem in Pinus bungeana Zucc

    白皮松茎次生韧皮部中蛋白细胞的细胞化学研究

  21. The results showed the dominant fungi in Pinus bungeana forest in xiaolongshan , and the soil quality was not high as a whole .

    结果表明:小陇山白皮松以青霉属和曲霉属为优势菌群,土壤整体质量不高。

  22. The results would lay a good foundation for propagation excellent clones , gene preservation , genetic improvement and large-scale artificial seed production for Pinus bungeana .

    研究结果将为白皮松优良无性系繁殖、基因保存、遗传改良以及人工种子生产等方面奠定坚实的理论基础。

  23. The Relationship Between Parameters of Electrical Impedance Spectroscopy and Some Physiological Parameters in Pinus bungeana Zucc . Needles During Dehardening

    脱锻炼期间白皮松针叶的电阻抗图谱参数和生理指标的相关性

  24. The relationship between the senescence of old Pinus bungeana and superoxide dismutase activity and lipid peroxidation malondialdehyde content in different tree age , growth potential and season was studied .

    本文研究了不同树龄、不同生长势、不同季节的情况下,古白皮松的超氧化物歧化酶活性及脂质过氧化产物两二醛的含量与植物衰老衰弱之间的关系。

  25. With the increase of tolerance of winter resistance in Pinus bungeana seedlings , its antioxidation enzyme recovery system ( SOD , CAT , POD ) activity was increased obviously .

    白皮松幼苗抗寒性提高后体内抗氧化酶促防御系统(SOD、CAT、POD)活性明显提高,而且3种酶活性变化之间的相互匹配是提高白皮松幼苗抗寒性的关键因素;

  26. The Secondary Pairing and Multipolar Division in PMC Meiosis of Three Species ( Pinus bungeana , Pinus tabulaeformis , Picea meyeri ) of Pinaceae

    三种松科植物(白皮松Pinusbungeana,油松pinustabulaeformis,白杄Piceameyeri)小孢子母细胞减数分裂中的次级配对和多极分裂现象

  27. The root primordium of Pinus bungeana belongs to induced primordium , which is formed from the cross region of vascular cambium , phloem tissues and pith rays .

    白皮松的根原始体属于诱导原始体,产生于维管形成层、韧皮组织与髓射线的交叉区域;

  28. The fatty acids from the seed oils of Pinus bungeana Zucc . and the other 7 species of Pinus have been analyzed by means of gas chromatography-mass spectrometry ( GC-MS ) .

    研究了白皮松种子油中的脂肪酸成分,并与另外7种松属植物种子油中的脂肪酸成分进行了分析比较。

  29. A study on mechanism of winter resistance of Pinus bungeana seedlings was conducted for 3 years . The experimental results showed that Pinus bungeana seedlings was damaged in winter in Shenyang , not only related to environment factors but also importantly to Pinus bungeana seedlings growth and development rhythm .

    3年的白皮松苗圃生理生态试验结果表明:沈阳地区冬季白皮松幼苗受到伤害不仅与环境因子的变化有关,更重要的是与苗木本身的生长发育节律有关。

  30. Q10 of root respiration ranged from 1.09 to 3.66 , and species order in Q10 value was Platycladus orientalis > Pinus tabulaeformis > Pinus bungeana .

    根系呼吸的Q(10)为1.09~3.66,且侧柏>油松>白皮松。