systematology

简明释义

英[ˌsɪstəməˈtɒlədʒɪ]美[ˌsɪstəməˈtɑlədʒi]

n. 系统学；体系学

英英释义

单词用法

同义词

反义词

例句

1.According to systematology, the mutual mechanism of technology innovation and organization structure has been studied.

依据系统论对技术创新与组织结构的互动机制进行了研究。

2.Systematology is a science studying the common characteristics, nature, principle and regularity of objective reality system.

系统论是研究客观现实系统共同的特征、本质、原理和规律的科学。

3.The emergence of modern systematology and self organization theory means the emergence of a line from part to whole which lays a theoretical basis for solution to the mystery.

现代系统论、自组织理论的产生，意味着一种从部分到整体的路线的产生，这为解开人类精神如何产生的谜底奠定了理论基础。

4.In recent years, systematology has been widely used in scientific research in all fields.

近年来，系统科学被广泛应用到科学研究的各个领域。

5.The latter refers mainly to the establishment of systematology.

后者主要是指系统学的建立。

6.Systematology and holism are important theory and method for modern people to recognize things.

系统论整体观是当代人们认识事物的重要理论和方法。

7.Starting from systematology point ot view, the contents of systematic study of modern petroleum science (SSMPS) was discussed in this paper.

从系统论的观点出发，探讨现代油气科学系统研究的内容。

8.The application of systematology in safety management mode leads to the formation of a health, safety and environment management system.

系统论在安全管理模式中的应用，形成了健康安全环境管理体系。

9.The research team utilized systematology 系统分类学 to identify and categorize the newly discovered fungi.

研究小组利用系统分类学 系统分类学来识别和分类新发现的真菌。

10.The importance of systematology 系统分类学 in medicine cannot be overstated as it aids in the classification of diseases.

在医学中，系统分类学 系统分类学的重要性不容忽视，因为它有助于疾病的分类。

11.In the field of botany, systematology 系统分类学 helps researchers organize plant species based on their evolutionary relationships.

在植物学领域，系统分类学 系统分类学帮助研究人员根据植物物种的进化关系进行组织。

12.By applying systematology 系统分类学, scientists can trace the lineage of various organisms back to common ancestors.

通过应用系统分类学 系统分类学，科学家可以追溯各种生物的谱系至共同祖先。

13.The study of biodiversity often requires a deep understanding of systematology 系统分类学 to classify new species.

生物多样性的研究通常需要深入理解系统分类学 系统分类学来对新物种进行分类。

作文

In the realm of scientific inquiry, the term systematology refers to the systematic study and classification of various entities, often within the fields of biology and taxonomy. This discipline is crucial for organizing knowledge and understanding the relationships among different organisms. By employing systematology (系统分类学), scientists can categorize species based on shared characteristics, evolutionary history, and genetic information. This process not only aids in identifying new species but also enhances our comprehension of biodiversity and ecosystem dynamics.The importance of systematology extends beyond mere classification; it plays a pivotal role in conservation efforts. As the world faces unprecedented rates of species extinction, understanding the systematic relationships between organisms becomes essential for developing conservation strategies. For instance, if a particular species is endangered, knowing its relatives can help in creating breeding programs or habitat preservation plans that benefit the entire ecosystem. Thus, systematology (系统分类学) serves as a foundation for ecological research and environmental protection.Moreover, systematology has implications in medicine and agriculture. In medicine, the classification of pathogens through systematology (系统分类学) allows for better diagnosis and treatment of diseases. Understanding the relationships among various microorganisms can lead to the development of vaccines and antibiotics. Similarly, in agriculture, classifying crops and pests using systematology (系统分类学) helps farmers make informed decisions about crop rotation, pest control, and sustainable practices. This interconnectedness illustrates how systematology impacts multiple sectors by providing a structured approach to understanding life forms.The methodology of systematology involves various techniques, including morphological analysis, molecular phylogenetics, and bioinformatics. Morphological analysis examines physical traits, while molecular phylogenetics utilizes genetic data to determine evolutionary relationships. Bioinformatics combines these approaches with computational tools to analyze vast amounts of biological data. The integration of these methods exemplifies the interdisciplinary nature of systematology (系统分类学) and its adaptability to modern scientific challenges.Furthermore, the evolution of systematology reflects the advancements in technology and scientific thought. Historically, classification systems were often based on observable traits, leading to some arbitrary groupings. However, with the advent of genetic sequencing and advanced computational methods, systematology (系统分类学) has evolved into a more precise science. This shift not only enhances the accuracy of classifications but also fosters a deeper understanding of evolutionary processes.In conclusion, systematology (系统分类学) is a vital field that transcends disciplinary boundaries, influencing ecology, medicine, and agriculture. Its systematic approach to classifying and understanding life forms contributes significantly to scientific knowledge and practical applications. As we continue to confront global challenges such as biodiversity loss and disease outbreaks, the role of systematology will undoubtedly become even more critical. Emphasizing the importance of this discipline will help ensure that future generations appreciate the complexity of life and the necessity of preserving it.