生物分类学
- 网络Taxonomy;biological taxonomy;Biosystematics
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DNA条形码是一段特殊的、可用于物种鉴定的DNA序列,是近几年来国际上生物分类学研究的热点。
DNA bar code , a special DNA sequence used in species identification , has become a focus in biological taxonomy research in recent years .
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本文概述了生物分类学的进展,并介绍了Cox的新的寄生虫分类体系,以期推动我国寄生虫学研究的深入。
This paper outlined the advances of biological taxonomy and introduces the Cox 's new classification of parasites so as to promote parasitological research .
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尖音库蚊复合组(Culexpipienscomplex)生物分类学的研究:表皮碳氢化合物的气相色谱分析
Biosystematics of Culex pipiens complex of china : gas chromatographic analysis of cuticular hydrocarbons
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生物分类学的新动向&DNA条形编码
DNA barcoding : new approach of biological taxonomy
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文章进一步分析了分类学与系统生物学的结合如何可能,希望生物分类学走出一条新的道路。
The paper further analyzes the possibility of combination of taxonomy and systems biology , hoping biological taxonomic open a new road .
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在近90年间,牙釉质厚度在生物分类学、动物种类史、灵长类化石牙齿饮食评估中都起着重要作用。
Molar enamel thickness has played an important role in the taxonomic , phylogenetic , and dietary assessments of fossil primate teeth for nearly 90 years .
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生物分类学是生物学研究的基础,但近年来分类学的发展面临许多问题,一种新的分类学&DNA分类学试图解决这些问题。
Biological taxonomy , the foundation for studies in biology , is facing many problems in recent years . A new taxonomy , DNA-based methodology , is being introduced into biology to overcome the problems .
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分子标记是基因型的特殊的易于识别的表现形式,它是生物分类学、育种学、遗传学和物种起源与进化等研究的主要技术指标之一。
Molecular markers are expressed form of specifically genotype and have some merits of easily identification , so it was considered as one important technical index in study of biological taxology , breeding , genetics and species origination and evolution .
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然后对分类体系中的各基本分类模块信息进一步分类,并按生物分类学中的类型排序来抽取信息元素的主题词,并赋予相应的属性词和状态词。
And then , basic modules of taxonomy system should be further classified , the subjects of information elements should be taken out according to rules of biology taxonomy , and then relevant attribute and state of elements should be put .
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GOBASE是包含了关于细胞器的整合序列、RNA二级结构及生物化学和分类学信息的一个关系数据库。
GOBASE is a relational database containing integrated sequence , RNA secondary structure and biochemical and taxonomic information about organelles .
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本文对世界茶树害虫和病原区系从生物地理学和分类学角度进行分析,并提出了在一个辽阔的空间范围(如一个国家)内茶树害虫达到饱和的年限约为100&150年。
A suggestion that the saturation level of tea pests in a vast space area ( such as a country scale ) would be reached in a period of 100 & 150 years was put forward by the authors .