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焦作地区自然条件优越.植物资源十分丰富,其中野生农药植物是野生植物资源中利用价值较高的类群.据初步统计,焦作地区有各类野生农药植物46科115种(含变种、变型),然而,目前这些农药植物资源中多数种类未被人们高度重视和充分利用. 相似文献
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对延庆本土野生植物进行了实地调查和统计分析,提出了在120科579属1195种本土野生植物中确定有6种蜜源粉源植物,19种茶用植物,60种野菜植物,23种野果植物,900种药用植物,286种观赏植物,部分野生植物具有多重价值。根据延庆本土野生植物的特点和延庆土地资源现状及园林条件,分析了野生植物引用的可行性和前景。 相似文献
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浅析伊犁河谷农业资源环境现状、存在问题及保护对策 总被引:2,自引:0,他引:2
《新疆农业科技》2016,(1)
本文主要对伊犁河谷农业资源环境发展现状进行了分析,针对存在的问题,提出通过开展农业资源污染防治、农业面源污染防治、野生植物资源保护、加强执法监管等四个方面做好伊犁河谷农业资源环境保护对策。 相似文献
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野生观赏植物是森林公园极富吸引力的旅游资源。在对南京牛首山森林公园的野生观赏植物资源进行调查的基础上,对其野生观赏植物旅游资源进行了梳理与分类,并对其在旅游规划中的开发进行了探讨。 相似文献
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[目的]通过对伊犁心叶驼绒藜植物学、生物学和生态学特性等研究,为新疆干旱荒漠区防风固沙、水土保持等生态环境建设和畜牧业发展提供优良旱生环保植物资源和牧草资源.[方法]试验区内选择适宜地块,播种野生伊犁心叶驼绒藜种子,采用野外实测调查与室内统计分析研究相结合,对伊犁心叶驼绒藜植物学、生物学和生态学特性进行综合分析.[结果]伊犁心叶驼绒藜寿命长(可达50 a以上),植株高大,株丛密集,分枝多,地下根系发达(多年生植株主根入土超过5 m),耐严冬酷暑,耐旱、耐寒、耐盐碱,土壤pH 8.0,总盐1.0;~2.0;,种子正常发芽,是新疆荒漠草原植被复壮和补播改良草地的优良品种.[结论]伊犁心叶驼绒藜仅分布在我国新疆北部.它生态幅度宽,是天然荒漠草原草地上宝贵的野生优良饲用植物资源之一,特别是在新疆荒漠草原植被恢复和生态建设中具有重要作用. 相似文献
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【目的】调查庐山野生藤本植物资源,为城市园林植物造景、藤本植物引种驯化及其开发利用提供参考依据。【方法】通过野外调查和查阅江西植物志、中国高等植物图鉴等文献资料,分析庐山野生藤本植物资源的特征和园林应用方式。【结果】庐山野生藤本植物累计有29科72属167种,其中木质藤本121种,占72.46%,草质藤本46种,占27.54%;属于常绿类型的30种,占17.96%,属于落叶类群的137种,占82.04%;攀援方式中缠绕类和卷曲类种类较多,分别占总种数的50.90%和28.14%,搭靠类和吸固类种类较少,分别占总数的11.38%和9.58%;庐山野生藤本植物有墙面绿化、廊架绿化等6种用途。【建议】对藤本植物生物多样性开展科学研究并通过立法严禁乱砍乱伐、迁地保护、提高保护区当地人们的法制意识等措施,加强对濒危野生藤本植物资源的保护,要有计划、按步骤进行引种驯化、栽培繁殖,培育适合庐山地区生长的观赏藤本新品种,把资源优势转化为商品优势应用到城市绿化中。 相似文献
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ZONG Xu-xiao Rebecca Ford Robert R Redden GUAN Jian-ping WANG Shu-min 《中国农业科学(英文版)》2009,8(3):257-267
To assesse the genetic diversity among wild and cultivated accessions of 8 taxonomic groups in 2 species, and 5 subspecies under Pisum genus, and to analyze population structure and their genetic relationships among various groups of taxonomy, the study tried to verify the fitness of traditionally botanical taxonomic system under Pisum genus and to provide essential information for the exploration and utilization of wild relatives of pea genetic resources. 197 Pisum accessions from 62 counties of 5 continents were employed for SSR analysis using 21 polymorphic primer pairs in this study. Except for cultivated field pea Pisum sativum ssp. sativum var. sativum (94 genotypes), also included were wild relative genotypes that were classified as belonging to P. fulvum, P. sativum ssp.abyssinicum, P. sativum ssp. asiaticum, P. sativum ssp. transcaucasicum, P. sativum ssp. elatius var. elatius, P. sativum ssp. elatius var. pumilio and P. sativum ssp. sativum var. arvense (103 genotypes). The PCA analyses and 3-dimension PCA graphs were conducted and drawn by NTSYSpc 2.2d statistical package. Nei78 genetic distances among groups of genetic resources were calculated, and cluster analysis using UPGMA method was carried out by using Popgene V1.32 statistical package, the dendrogram was drawn by MEGA3.1 statistical package. Allelic statistics were carried out by Popgene V1.32. The significance test between groups of genotypes was carried out by Fstat V2.9.3.2 statistical package. 104 polymorphic bands were amplified using 21 SSR primer pairs with unambiguous unique polymorphic bands. 4.95 alleles were detected by each SSR primer pair in average, of which 65.56% were effective alleles for diversity. PSAD270, PSAC58, PSAA18, PSAC75, PSAA175 and PSAB72 were the most effective SSR pairs. SSR alleles were uniformly distributed among botanical taxon units under Pisum genus, but significant difference appeared in most pairwise comparisons for genetic diversity between taxon unit based groups of genetic resources. Genetic diversity level of wild species P. fulvum was much lower than the cultivated species P. sativum. Under species P. sativum, P. sativum ssp. sativum var. sativum and P. sativum ssp. asiaticum were the highest in gentic diversity, followed by P. sativum ssp. elatius var. elatius and P. sativum ssp. transcaucasicum, P. sativum ssp. elatius var. pumilio, P. sativum ssp. sativum vat. arvense and P. sativum ssp. abyssinicum were the lowest. Four gene pool clusters were detected under Pisum genus by using PCA analysis. Gene pool "fulvum" mainly consisted of wild species Pisum fulvum, gene pool "abyssinicum" mainly consisted of P. sativum ssp. abyssinicum, and gene pool "arvense" mainly consisted of P. sativum ssp. sativum var. arvense. While gene pool "sativum" were composed by 5 botanical taxon units, they are P. sativum ssp. asiaticum, P. sativum ssp. elatius var. elatius, P. sativum ssp. transcaucasicum, P. sativum ssp. elatius var. pumilio and P. sativum ssp. sativum var. sativum. "sativum" gene pool constructed the primary gene pool of cultivated genetic resources; "fulvum" gene pool, "abyssinicum" gene pool and "arvense" gene pool together constructed the secondary gene pool of cultivated genetic resources. Pairwise Nei78 genetic distance among botanical taxon based groups of pea genetic resources ranged from 7.531 to 35.956, 3 large cluster groups were identified based on the UPGMA dendrogram. Group Ⅰ equals to "sativum" and "arvense" gene pools, Group Ⅱ equals to "abyssinicum" gene pool, and Group Ⅲ equals to "fulvum" gene pool. The UPGMA clustering results generally supporting the PCA clusting results. There were significant differences among most botanical groups under Pisum genus, with clear separation of four gene pools for genetic diversity structure. The research results partially support the traditional botanical taxonomy under Pisum genus, and pointed out its advantage and shortcoming. In order to broaden the genetic bases of pea varieties, the genetic potentials in the four gene pools should be thoroughly exploited. 相似文献
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豌豆属(Pisum)SSR标记遗传多样性结构鉴别与分析 总被引:4,自引:1,他引:3
【目的】评价豌豆属(Pisum L.)2个种5个亚种下,共8个资源类群的遗传多样性水平,揭示豌豆属下资源群体结构及其遗传关系远近,验证传统植物学分类的可靠程度,为充分发掘、利用豌豆野生种质提供必要信息。【方法】利用21对豌豆多态性SSR引物,对来自世界5大洲62个国家的豌豆属94份栽培种质(P. sativum ssp. sativum var. sativum)及其1个近缘野生种(P. fulvum),3个野生亚种(P. sativum ssp. abyssinicum、P. sativum ssp. asiaticum、P. sativum ssp.transcaucasicum)和3个野生变种(P. sativum ssp. elatius var. elatius、P. sativum ssp. elatius var.pumilio、P. sativum ssp.sativum var.arvense)的103份野生种质进行SSR标记遗传多样性分析;利用NTSYSpc2.2d软件估算其遗传距离,进行主成分分析(PCA)并绘制三维空间聚类图;利用Popgene V1.32估算种质群间的Nei78遗传距离等参数并进行UPGMA聚类分析,采用MEGA3.1绘制种质群间聚类图;采用Popgene V1.32估算种质群的等位位点分布等参数,利用Fstat V2.9.3.2进行种质群间遗传多样性差异显著性测验。【结果】21对豌豆多态性SSR引物共扩增出104条多态性带,每对引物平均扩增出4.95个等位变异,其中有效等位变异占65.56%;PSAD270,PSAC58,PSAA18,PSAC75,PSAA175和PSAB72等SSR引物最为有效。SSR等位变异在豌豆属植物学分类单位中分布均匀,但分类单位种质群间的遗传多样性在多数情况下差异显著。豌豆属野生种P. fulvum的遗传多样性远低于栽培种P. sativum;豌豆栽培种下,P. sativum ssp. sativum var. sativum和P. sativum ssp. asiaticum的遗传多样性最高,P. sativum ssp. elatius var. elatius和P. sativum ssp. transcaucasicum次之,P. sativum ssp. elatius var. pumilio、P. sativum ssp. sativum var. arvense和P. sativum ssp. abyssinicum最低。PCA分析发现,豌豆属种质资源由4个差异明显的基因库构成。“fulvum”基因库主要由野生种Pisum fulvum资源构成,“abyssinicum”基因库主要由栽培种下的P. sativum ssp. abyssinicum亚种资源构成,“arvense”基因库主要由栽培种下的P. sativum ssp. sativum var. arvense变种资源构成;“sativum”基因库由P. sativum ssp. asiaticum、P. sativum ssp. elatius var. elatius、P. sativum ssp. transcaucasicum、P. sativum ssp. elatius var. pumilio和P. sativum ssp. sativum var. sativum资源构成。“sativum”基因库构成豌豆栽培资源初级基因库;“fulvum”、“abyssinicum” 和“arvense”基因库共同构成豌豆栽培资源次级基因库。植物学分类单位间的Nei78遗传距离介于7.531~35.956,UPGMA聚类方法将豌豆属植物学分类单位聚成3个组群,“组群I”对应“sativum”和“arvense”基因库之和,“组群II”对应“abyssinicum”基因库,“组群III”对应“fulvum”基因库,聚类结果支持4个基因库的划分。【结论】豌豆属下多数植物学分类单位间遗传多样性差异显著,并分化成4个基因库。研究结果部分支持豌豆属下传统的植物学分类体系,并指出了其合理与不足之处。为拓宽豌豆育成品种的遗传基础,应充分发掘豌豆属下各基因库的遗传潜力。 相似文献
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【目的】调查庐山野生藤本植物资源,为城市园林植物造景、藤本植物引种驯化及其开发利用提供参考依据。【方法】通过野外调查和查阅江西植物志、中国高等植物图鉴等文献资料,分析庐山野生藤本植物资源的特征和园林应用方式。【结果】庐山野生藤本植物累计有 29科72 属 167种,其中木质藤本121种,占 72.46 %,草质藤本46种,占27.54%;属于常绿类型的30种,占17.96%,属于落叶类群的137种,占82.04%;攀援方式中缠绕类和卷曲类种类较多,分别占总种数的50.90%和28.14%,搭靠类和吸固类种类较少,分别占总数的11.38%和9.58%;庐山野生藤本植物有墙面绿化、廊架绿化等6种用途。【建议】对藤本植物生物多样性开展科学研究并通过立法严禁乱砍乱伐、迁地保护、提高保护区当地人们的法制意识等措施,加强对濒危野生藤本植物资源的保护,要有计划、按步骤进行引种驯化、栽培繁殖,培育适合庐山地区生长的观赏藤本新品种,把资源优势转化为商品优势应用到城市绿化中。 相似文献
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《农业科学与技术》2017,(10)
This study focused on the investigation of crop germplasm resources in coastal areas of Shandong Province, including132 villages in 82 towns of 34 counties. The survey collected local varieties and wild resources of grain crops, economic crops,vegetables and fruit trees, and a total of 848 samples were collected, belonging to 54 species of 39 genera in 15 families. In this study, the current situation and growth and decline conditions of crop germplasm resources were investigated, and their botanical classification and utilization importance were analyzed. Furthermore, the conservation, development and utilization of crop germplasm resources in coastal areas of Shandong Province were also discussed in this paper. 相似文献
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新疆的野生果树种类丰富而独特,起源古老,为中国果树栽培提供了丰富的种质资源和物质基础.因此,建立新疆野生果树资源数据库对于新疆野生果树资源的保护与研究具有十分重要的意义.笔者介绍了以Visual Basic 6.0为主导设计语言,结合后台关系数据库Access2003.建立新疆野生果树资源数据库信息系统的原理和方法,运用计算机的数据库技术开发出一套完整的可广泛应用于果树生产、科研、教学、社会服务等的野生果树种质资源数据库程序.本系统包括新疆的野苹果、野杏、野生樱桃李、野生欧洲李、野核桃等野生果树资源分布、植物学特征和农业生物学特征等数据内容. 相似文献
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贡山八角化学成分研究 总被引:2,自引:0,他引:2
[目的]为了研究贡山八角的化学成分。[方法]通过对采自于云南怒江高黎贡山八角果实进行分离纯化,得到了7个化合物,并采用理化性质分析和光谱分析等手段确定其化学结构。[结果]贡山八角果实中的7个化合物是β-谷甾醇、胡萝卜苷、乌索酸、4,12-Di-O-methylillicinone C、11-Epi-illicinoneE、槲皮素、莽草酸。[结论]该研究为进一步开发云南省的野生植物资源,寻找野生八角更多具有生物活性的化学成分提供了依据。 相似文献