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- Lolium arvense n. 田野黑麦草
- They are Equisetum arvense,E. pratense,E. 、草问荆(E.;pratenseEhrhart)、林问荆(E
- Varieties of Lolium perenne Linn. 黑麦草品种
- Genome analysis of Festuca and Lolium hybrids. 苇状羊茅的染色体组分析.
- Detection and Quantification of the Endophyte in Lolium perenne L. 黑麦草内生真菌感染状况的检测及定量分析。
- Study on Genetic Diversity of Germplasm Resources of Lolium L. 黑麦草属种质资源遗传多样性研究。
- The results showed that the adaption of Lolium was higher than Poa and Festuca. 结果表明:黑麦草类的适应性状和坪用性状均优于早熟禾和高羊茅类。
- SOME METHODS IN PROMOTING SPORULATION OF ENDOPHYTIC FUNGI IN LOLIUM PERENNE L. 内生真菌产孢的方法。
- Detection, Isolation and Identification of Endophytes in Lolium perenne L. 内生真菌的检测、分离及鉴定。
- It is very difficult to control perennial weed field horsetail (Equsetum arvense L. ). 摘要问荆是一种多年生难防杂草。
- People use soller arvens solar ovens to cook food and to hit heat drinking warter water to kill berire bacteria and other harmful orgerorganisms. 它们必须经常校准以跟随太阳。如果使用不当,抛物面式炉具也会引起灼伤和损害眼睛。
- Any of several Eurasian grasses of the genus Lolium,especially L. temulentum or L. perenne. 黑麦草,毒麦生长在欧亚大陆的一种毒麦属草,尤指毒麦或黑麦草
- EFFECT OF SALT STRESS ON SEED GERMINATION OF LOLIUM PERENNE L.AND FESTUCA ELATA KENG. 盐胁迫对金牌美达丽和猎狗种子萌发的影响。
- Study on reproduction characters and constitute of seed yields of turf-type Lolium Perenne L. 草坪型多年生黑麦草生殖特性及种子产量构成的研究。
- Abstract: We did a series of studies on the megasporogenesis and the formation of female gametophyte of Thlaspi arvense L. by means of traditional paraffin-sectioning. 摘要:利用常规石蜡切片技术,对菥蓂的大孢子发生和雌配子体形成过程进行了观察。
- The somaclonal variation of regeneration plant derived from mature embryo of perennial ryegrass (Lolium perenne L. were analyzed with RAPD makers. 摘要以多年生黑麦草成熟胚诱导获得的再生植株为材料,利用RAPD标记方法对其体细胞变异进行了研究。
- Among them, Ambrosia artemisiifolia and Lolium temulentum are two species of harmful quarantine weeds in China. 其中的2个种,即豚草和毒麦,为我国检疫性杂草。
- Any of several Eurasian grasses of the genus Lolium, especially L. temulentum or L. perenne. 黑麦草,毒麦生长在欧亚大陆的一种毒麦属草,尤指毒麦或黑麦草
- Furthermore, the prospects of RNA interference in Lolium genetic improvement and functional genomics are discussed. 并分析了功能基因组学的研究及RNA干扰技术在黑麦草研究中可能的应用前景。
- Abstract: Lolium perenne was treated with plant growth regulator- PP333 and CCC at different concentration levels. 摘要:分别采用不同浓度的PP333(多效唑)、CCC(矮壮素)对黑麦草进行叶面喷施处理。
