taxonomic

简明释义

英[ˌtæksəˈnɒmɪk]美[ˌtæksəˈnɑːmɪk]

adj. [生物] 分类的；[生物] 分类学的

英英释义

单词用法

同义词

反义词

例句

1.In West Africa, elephants live in both forest and savanna areas, but their taxonomic status remains uncertain.

在西非，大象即可生存在森林中，也可生存在稀树大草原地区，但它们的分类学属性仍未确定。

2.In this paper, 37 varieties and 37 characters of Chinese cymbidium are studied by means of numerical taxonomic methods.

运用计算机对中国兰花37个品种和37个形态特征性状进行了数量分类研究。

3.For many species, chromosome number is a useful taxonomic character.

对许多物种来说，染色体数目是重要的分类学特征。

4.The temptation to recognize apomictic microspecies(agamospecies)as taxonomic species is far greater .

把无融合生殖小种（无性种）作为分类学上的种来承认，这点具有更大的迷惑性。

5.Method: Conducting field and market investigation, collecting specimen, taxonomic study and consulting related data.

方法：产地和市场调查、标本采集、分类鉴定研究与查阅文献资料相结合。

6.Therefore, a taxonomic treatment needs to reflect our current understanding of such relationships.

因此，分类处理需要反映这些关系的近期认识。

7.The museum's collection is organized according to taxonomic 分类学的 principles.

博物馆的收藏是根据分类学的原则进行组织的。

8.The taxonomic 分类学的 study revealed new insights into evolutionary relationships.

这项分类学的研究揭示了进化关系的新见解。

9.Understanding the taxonomic 分类学的 hierarchy is crucial for biologists.

理解分类学的层级对生物学家来说至关重要。

10.The scientists published a new paper on the taxonomic 分类学的 classification of marine species.

科学家们发表了一篇关于海洋物种的分类学的新论文。

11.In botany, taxonomic 分类学的 classification helps in identifying plant species.

在植物学中，分类学的分类有助于识别植物物种。

作文

The field of biology is vast and complex, encompassing a myriad of organisms that share our planet. To make sense of this diversity, scientists employ various methods to categorize and understand life forms. One critical aspect of this categorization is the concept of taxonomic 分类的 classification. This system allows biologists to organize living organisms into groups based on shared characteristics, evolutionary history, and genetic relationships.At the foundation of taxonomic 分类的 classification is the hierarchy that includes domains, kingdoms, phyla, classes, orders, families, genera, and species. Each level of this hierarchy represents a different degree of relatedness among organisms. For example, all mammals belong to the class Mammalia, which distinguishes them from reptiles, birds, and amphibians. Within Mammalia, there are further divisions that recognize the unique traits of various species, such as lions, tigers, and domestic cats, all of which fall under the family Felidae.Understanding taxonomic 分类的 classification is essential for several reasons. Firstly, it provides a universal language for scientists around the world. When researchers refer to a specific species using its scientific name, they eliminate confusion that may arise from common names that vary by region or culture. For instance, the American robin is known as Turdus migratorius in scientific literature, ensuring clarity and precision in communication.Secondly, taxonomic 分类的 classification aids in the study of biodiversity and ecology. By categorizing organisms, scientists can better understand the relationships between different species and their environments. This knowledge is crucial for conservation efforts, as it helps identify which species are endangered and what measures can be taken to protect them. For instance, recognizing the taxonomic 分类的 relationships among species can reveal how certain plants depend on specific insects for pollination, highlighting the interconnectedness of ecosystems.Moreover, the advancement of genetic research has revolutionized taxonomic 分类的 classification. With the advent of DNA sequencing technologies, scientists can now analyze the genetic material of organisms to determine their evolutionary relationships more accurately. This molecular approach often leads to reclassification of organisms as new information comes to light, demonstrating that the field of taxonomy is dynamic and ever-evolving.In recent years, the importance of taxonomic 分类的 classification has also been recognized in fields beyond biology. For example, in medicine, understanding the taxonomic 分类的 relationships among pathogens can inform treatment strategies and vaccine development. Similarly, in agriculture, knowing the taxonomic 分类的 relationships among crops can enhance breeding programs aimed at improving yield and disease resistance.In conclusion, the concept of taxonomic 分类的 classification is fundamental to our understanding of the natural world. It provides a structured framework for organizing the immense diversity of life, facilitates communication among scientists, and supports efforts in conservation, medicine, and agriculture. As we continue to explore and discover new species, the role of taxonomic 分类的 classification will remain vital in unraveling the complexities of life on Earth.

生物学领域广阔而复杂，涵盖了无数共享我们星球的生物。为了理解这种多样性，科学家采用各种方法对生命形式进行分类和理解。这个分类的一个关键方面是taxonomic 分类的分类概念。这个系统使生物学家能够根据共享特征、进化历史和遗传关系将生物组织成群体。在taxonomic 分类的分类的基础上，有一个包括域、王国、门、纲、目、科、属和种的层级结构。这个层级的每个级别代表了生物之间不同的相关程度。例如，所有哺乳动物都属于哺乳纲（Mammalia），这将它们与爬行动物、鸟类和两栖动物区分开来。在哺乳动物中，还有进一步的划分，以识别各种物种的独特特征，例如狮子、老虎和家猫，它们都属于猫科（Felidae）。理解taxonomic 分类的分类至关重要，原因有几个。首先，它为世界各地的科学家提供了一种通用语言。当研究人员使用其科学名称引用特定物种时，他们消除了由于地区或文化差异而可能出现的混淆。例如，美国知更鸟在科学文献中被称为Turdus migratorius，确保了交流的清晰和准确。其次，taxonomic 分类的分类有助于生物多样性和生态学的研究。通过对生物进行分类，科学家可以更好地理解不同物种及其环境之间的关系。这些知识对于保护工作至关重要，因为它帮助识别哪些物种面临灭绝，以及可以采取什么措施来保护它们。例如，认识到物种之间的taxonomic 分类的关系可以揭示某些植物如何依赖特定昆虫进行授粉，从而突显生态系统的相互联系。此外，基因研究的进展革命性地改变了taxonomic 分类的分类。随着DNA测序技术的出现，科学家现在可以分析生物的遗传物质，以更准确地确定它们的进化关系。这种分子方法通常导致生物的重新分类，因为新信息的出现表明，分类学领域是动态的、不断发展的。近年来，taxonomic 分类的分类的重要性也在生物学以外的领域得到了认可。例如，在医学中，了解病原体之间的taxonomic 分类的关系可以为治疗策略和疫苗开发提供信息。类似地，在农业中，了解作物之间的taxonomic 分类的关系可以增强旨在提高产量和抗病性的育种计划。总之，taxonomic 分类的分类概念是我们理解自然世界的基础。它为组织生命的巨大多样性提供了结构化的框架，促进了科学家之间的交流，并支持保护、医学和农业方面的努力。随着我们继续探索和发现新物种，taxonomic 分类的分类的作用将在揭示地球生命的复杂性方面保持至关重要。