taxonomical

简明释义

英[/tækˈsɒnəˌmɪkəl/]美[/tækˈsɒnəˌmɪkəl/]

分类学的

英英释义

单词用法

同义词

反义词

例句

1.However, taxonomical debates may ultimately prove less important than the questions A. sediba provokes.

然而，分类学上的争论可能最终被证明并没有sediba引发的问题重要。

2.However, the taxonomical classification remained unchanged.

然而，其分类学分类仍未改变。

3.These results may provide some taxonomical information for the Family Cicadidae and reveal the means of the sound communication in cicadas.

这些结果可能为蝉科分类和蝉的声通讯研究提供某些参考。

4.Morphometrical and taxonomical hemocytes were conducted under light microscope using Neubauer s board and smear, and the blood biochemical values were determined in Portunus trituberculatus.

采用记数板记数，常规法涂片，在光学显微镜下对三疣梭子蟹进行细胞体、细胞核的测量及血淋巴细胞的分类记数，并测定血液生化指标。

5.Morphometrical and taxonomical hemocytes were conducted under light microscope using Neubauer s board and smear, and the blood biochemical values were determined in Portunus trituberculatus.

采用记数板记数，常规法涂片，在光学显微镜下对三疣梭子蟹进行细胞体、细胞核的测量及血淋巴细胞的分类记数，并测定血液生化指标。

6.The scientist conducted a detailed study on the taxonomical 分类学的 classification of marine species.

科学家对海洋物种的分类学的分类进行了详细研究。

7.Understanding the taxonomical 分类学的 hierarchy helps biologists communicate more effectively.

理解分类学的层级有助于生物学家更有效地交流。

8.The museum's exhibit focused on the taxonomical 分类学的 relationships among dinosaurs.

博物馆的展览集中在恐龙之间的分类学的关系上。

9.In his lecture, he explained the taxonomical 分类学的 differences between various animal species.

在他的讲座中，他解释了不同动物物种之间的分类学的差异。

10.The taxonomical 分类学的 classification of plants is essential for ecological research.

植物的分类学的分类对于生态研究至关重要。

作文

In the realm of biological sciences, the concept of classification is paramount. The organization of living organisms into categories aids scientists in understanding the vast diversity of life on our planet. This process is known as taxonomy, which derives from the Greek words 'taxis' meaning arrangement and 'nomos' meaning law. A crucial aspect of this discipline is the taxonomical 分类的 hierarchy that classifies organisms based on shared characteristics. The hierarchy typically begins with broad categories and narrows down to specific groups, which allows for a systematic approach to studying biodiversity.The taxonomical 分类的 system consists of several ranks, including domain, kingdom, phylum, class, order, family, genus, and species. Each level of this hierarchy plays a significant role in organizing life forms. For instance, humans belong to the domain Eukarya, which includes all organisms with complex cells. Within this domain, we are classified under the kingdom Animalia, indicating that we are multicellular organisms that consume organic material. As we move further down the taxonomical 分类的 hierarchy, we find ourselves grouped in the phylum Chordata, which encompasses all animals with a notochord. This structured classification not only helps in identifying organisms but also provides insights into their evolutionary relationships.One of the key benefits of a well-defined taxonomical 分类的 framework is that it facilitates communication among scientists. When researchers refer to a species by its scientific name, they are using a universally accepted nomenclature that transcends language barriers. For example, the scientific name for the domestic cat is Felis catus. This precise naming system, known as binomial nomenclature, was developed by Carl Linnaeus and remains a fundamental principle in the field of taxonomy.Moreover, advancements in molecular biology and genetics have revolutionized taxonomical 分类的 studies. Traditional methods of classification relied heavily on morphological characteristics, such as physical appearance and behavior. However, with the advent of DNA sequencing, scientists can now analyze genetic material to determine evolutionary relationships more accurately. This molecular approach has led to the reclassification of many organisms, shedding light on their true relationships and origins.In addition to its significance in biology, taxonomical 分类的 classification also has practical applications in various fields. For instance, in agriculture, understanding the taxonomical 分类的 relationships among plants can help in breeding programs aimed at enhancing crop yields or disease resistance. Similarly, in medicine, recognizing the taxonomical 分类的 links between different pathogens can assist in developing vaccines and treatments.In conclusion, the study of taxonomy and its taxonomical 分类的 classifications play a vital role in the biological sciences. By providing a structured framework for understanding the diversity of life, taxonomy enhances our comprehension of the natural world. As we continue to explore and discover new species, the importance of maintaining an accurate and updated taxonomical 分类的 system becomes increasingly clear. Ultimately, taxonomy not only enriches our knowledge of biology but also contributes to advancements in various practical applications that benefit society as a whole.

在生物科学领域，分类的概念至关重要。将生物体组织成类别有助于科学家理解我们星球上生命的广泛多样性。这个过程称为分类法，它源自希腊词“taxis”，意为排列，以及“nomos”，意为法律。这个学科的一个关键方面是taxonomical 分类的层级，它根据共享特征对生物体进行分类。该层级通常从广泛的类别开始，逐渐缩小到特定的群体，这使得研究生物多样性的方法系统化。taxonomical 分类的系统由多个等级组成，包括域、王国、门、纲、目、科、属和种。这个层级的每个层次在组织生命形式中都发挥着重要作用。例如，人类属于真核域，这包括所有具有复杂细胞的生物。在这个域内，我们被归类于动物界，表明我们是多细胞生物，消耗有机物质。随着我们向下移动taxonomical 分类的层级，我们发现自己被归入脊索动物门，这包括所有具有脊索的动物。这种结构化的分类不仅有助于识别生物体，还提供了它们进化关系的见解。一个良好定义的taxonomical 分类的框架的关键好处是，它促进了科学家之间的沟通。当研究人员通过其科学名称引用某个物种时，他们使用的是一种超越语言障碍的普遍接受的命名法。例如，家猫的科学名称是Felis catus。这个精确的命名系统，被称为双名法，是卡尔·林奈发展起来的，并仍然是分类学领域的基本原则。此外，分子生物学和遗传学的进步彻底改变了taxonomical 分类的研究。传统的分类方法主要依赖于形态特征，如外观和行为。然而，随着DNA测序的出现，科学家现在可以分析遗传物质，以更准确地确定进化关系。这种分子方法导致了许多生物的重新分类，揭示了它们真实的关系和起源。除了在生物学中的重要性外，taxonomical 分类的分类在各个领域也有实际应用。例如，在农业中，了解植物之间的taxonomical 分类的关系可以帮助育种项目，旨在提高作物产量或抗病能力。同样，在医学中，认识到不同病原体之间的taxonomical 分类的联系可以帮助开发疫苗和治疗。总之，分类学的研究及其taxonomical 分类的分类在生物科学中发挥着至关重要的作用。通过提供一个结构化的框架来理解生命的多样性，分类学增强了我们对自然世界的理解。随着我们继续探索和发现新物种，保持准确和更新的taxonomical 分类的系统的重要性变得越来越明显。最终，分类学不仅丰富了我们对生物学的知识，而且有助于各种实际应用的进步，从而惠及整个社会。