phylogenesis

简明释义

英[ˌfaɪləʊˈdʒenɪsɪs]美[ˌfaɪləˈdʒenəsɪs]

n. 动植物种类史；系统发生

英英释义

单词用法

同义词

反义词

例句

1.LI Hui (2002) Relation between Typology and Phylogenesis of Ethnic Genetic System. Proceeding for the 7th National Symposium of Ethnology. Enshi, July, 2002.

李辉(2002)民族遗传系统的类型学与发生学关系。第七届全国民族学学术研讨会，2002年7月，湖北恩施。

2.Plumage color is an important economic trait. It plays an important role in determining breed purity and phylogenesis.

羽毛颜色是一个重要的经济性状，它在确定品种纯度和亲缘关系方面有一定用途。

3.LI Hui (2002) Relation between Typology and Phylogenesis of Ethnic Genetic System. Proceeding for the 7th National Symposium of Ethnology. Enshi, July, 2002.

李辉(2002)民族遗传系统的类型学与发生学关系。第七届全国民族学学术研讨会，2002年7月，湖北恩施。

4.ResultsThe phylogenesis in a genus based on ITS was reliable.

结果ITS在属内系统发生上表现出可靠性。

5.The study of phylogenesis helps scientists understand the evolutionary relationships between different species.

对生物发生的研究帮助科学家理解不同物种之间的进化关系。

6.Understanding phylogenesis allows us to trace back the origins of modern species.

理解生物发生使我们能够追溯现代物种的起源。

7.The phylogenesis of plants reveals how they adapted to various environments over time.

植物的生物发生揭示了它们如何随着时间适应不同环境。

8.The concept of phylogenesis is crucial in the field of evolutionary biology.

生物发生的概念在进化生物学领域至关重要。

9.By analyzing DNA sequences, researchers can reconstruct the phylogenesis of various organisms.

通过分析DNA序列，研究人员可以重建各种生物的生物发生。

作文

The study of evolution has long fascinated scientists and laypeople alike. One of the key concepts in this field is phylogenesis, which refers to the evolutionary development and diversification of a species or group of organisms. Understanding phylogenesis is crucial for grasping how life on Earth has evolved over millions of years. This concept not only encompasses the genetic changes that occur over time but also the relationships between different species, highlighting the interconnectedness of all living beings. In essence, phylogenesis provides a framework for understanding the tree of life, illustrating how various species are related through common ancestors. For instance, by studying the phylogenesis of mammals, scientists can trace back their origins to a common ancestor that lived millions of years ago. This knowledge helps us appreciate the complexity of life and the processes that have shaped it.Moreover, phylogenesis is not limited to animals; it also applies to plants, fungi, and microorganisms. Each organism's phylogenesis tells a unique story about adaptation and survival in changing environments. For example, the phylogenesis of flowering plants reveals how they have evolved specialized structures for reproduction, allowing them to thrive in diverse ecosystems.The importance of phylogenesis extends beyond academic interest; it has practical implications in fields such as medicine and conservation. By understanding the evolutionary relationships among species, researchers can identify potential sources of new medicines derived from plants and animals. Additionally, conservation efforts benefit from phylogenesis studies, as they help prioritize which species are most at risk of extinction and how to protect their habitats effectively.In recent years, advancements in genetic sequencing technology have revolutionized our understanding of phylogenesis. Scientists can now analyze DNA sequences to construct detailed evolutionary trees, revealing how closely related different species are at a molecular level. This has led to new insights into the evolutionary history of various organisms, often challenging previously held beliefs about their relationships.In conclusion, phylogenesis is a fundamental concept in evolutionary biology that offers valuable insights into the history of life on Earth. By studying the evolutionary pathways of different organisms, we can better understand the complex web of life that surrounds us. Whether in the context of medicine, conservation, or simply satisfying our curiosity about the natural world, the study of phylogenesis remains a vital area of research with far-reaching implications. As we continue to explore the depths of evolutionary history, we uncover the intricate connections that bind all living things together, reminding us of our shared heritage and the importance of preserving the diversity of life on our planet.

进化的研究长期以来吸引着科学家和普通人。这个领域的一个关键概念是phylogenesis，它指的是物种或生物群体的进化发展和多样化。理解phylogenesis对把握地球生命在数百万年间的演变至关重要。这个概念不仅包括随着时间推移而发生的遗传变化，还强调不同物种之间的关系，突显所有生物之间的相互联系。从本质上讲，phylogenesis为理解生命之树提供了框架，展示了各种物种如何通过共同祖先相关联。例如，通过研究哺乳动物的phylogenesis，科学家可以追溯它们的起源到数百万年前的一位共同祖先。这一知识帮助我们欣赏生命的复杂性及其塑造过程。此外，phylogenesis并不仅限于动物，它同样适用于植物、真菌和微生物。每个生物的phylogenesis都讲述了适应和在变化环境中生存的独特故事。例如，开花植物的phylogenesis揭示了它们如何进化出专门的繁殖结构，使它们能够在多样化的生态系统中蓬勃生长。phylogenesis的重要性不仅仅停留在学术兴趣上；它在医学和保护等领域也具有实际意义。通过理解物种之间的进化关系，研究人员可以识别潜在的新药来源，这些药物来自植物和动物。此外，保护工作也受益于phylogenesis研究，因为它们有助于优先考虑最濒危的物种以及如何有效保护它们的栖息地。近年来，基因测序技术的进步彻底改变了我们对phylogenesis的理解。科学家现在可以分析DNA序列，以构建详细的进化树，揭示不同物种在分子水平上的亲缘关系。这导致了对各种生物的进化历史的新见解，常常挑战之前对它们关系的信念。总之，phylogenesis是进化生物学中的一个基本概念，为我们提供了关于地球生命历史的宝贵见解。通过研究不同生物的进化路径，我们可以更好地理解围绕我们的复杂生命网络。无论是在医学、保护还是仅仅是满足我们对自然世界的好奇心，phylogenesis的研究仍然是一个重要的研究领域，具有深远的影响。随着我们继续探索进化历史的深度，我们揭示了将所有生物紧密联系在一起的复杂联系，提醒我们共享的遗产以及保护我们星球上生命多样性的重要性。