phylogenic
简明释义
英[faɪləʊˈdʒɛnɪk]美[faɪləˈdʒɛnɪk]
adj. 系统发生的;动植物种类史的
英英释义
Relating to the evolutionary development and diversification of a species or group of organisms. | 与物种或生物群体的进化发展和多样化相关。 |
单词用法
系统发育关系 | |
系统发育分类 | |
系统发育研究 | |
基于系统发育数据 | |
进行系统发育分析 | |
构建系统发育树 |
同义词
反义词
例句
1.The applications of chloroplast genome in the studies of phylogeny and bioengineering are reviewed: 1) the DNA sequence of chloroplast genome provides a sound data base for plant phylogenic studies;
介绍了叶绿体基因组在系统发育学和基因工程这两个领域的应用研究进展:1)叶绿体基因组的DNA序列比较为植物系统发育学研究提供了可靠数据基础;
2.Methods Combination of morphological classification and phylogenic analysis.
方法形态分类和系统发育分析相结合的方法。
3.Now these tow genes have been widely used in the phylogenic analysis of plant.
目前这两个基因已广泛用于植物系统发育分析。
4.The genetic distances and phylogenic tree obtained on the basis of gene frequencies of 15 loci of 9 ethnic groups show that the Yaozu should be included into the Mongoloids of southern-Asia type.
用15个座位的基因频率计算的遗传距离与聚类表明,瑶族应归入蒙古人种南亚类型。
5.Phylogenic tree from 29 strains were draw based on the NDV HN gene (part segment), and the result is similar to that of F gene.
根据29株NDVHN基因部分编码序列绘制NDV系统发育进化树,发现F及HN基因的分型结果大致相同。
6.The applications of chloroplast genome in the studies of phylogeny and bioengineering are reviewed: 1) the DNA sequence of chloroplast genome provides a sound data base for plant phylogenic studies;
介绍了叶绿体基因组在系统发育学和基因工程这两个领域的应用研究进展:1)叶绿体基因组的DNA序列比较为植物系统发育学研究提供了可靠数据基础;
7.The study of the phylogenic 系统发育的 relationships among species can reveal their evolutionary history.
对物种之间的phylogenic 系统发育的 关系的研究可以揭示它们的进化历史。
8.Researchers used phylogenic 系统发育的 trees to illustrate the genetic connections between various organisms.
研究人员使用phylogenic 系统发育的 树来说明各种生物之间的遗传联系。
9.Understanding phylogenic 系统发育的 diversity helps in conservation efforts for endangered species.
理解phylogenic 系统发育的 多样性有助于濒危物种的保护工作。
10.By constructing a phylogenic 系统发育的 tree, scientists can trace the lineage of specific traits.
通过构建phylogenic 系统发育的 树,科学家可以追溯特定性状的谱系。
11.The phylogenic 系统发育的 analysis revealed unexpected relationships among the fungi studied.
这项phylogenic 系统发育的 分析揭示了研究的真菌之间意想不到的关系。
作文
The study of evolution is a fascinating and complex field that delves into the history of life on Earth. One of the key concepts in this area is the idea of phylogenic (系统发育的) relationships among different species. The term phylogenic refers to the evolutionary development and diversification of a species or group of organisms. Understanding these relationships helps scientists trace back the lineage of various species, revealing how they have adapted over time to their environments. In recent years, advancements in genetic research have provided new insights into phylogenic (系统发育的) studies. By analyzing DNA sequences, researchers can construct more accurate family trees that depict the evolutionary pathways of organisms. For example, a study might reveal that birds share a common ancestor with certain dinosaurs, which fundamentally alters our perception of avian evolution. This kind of research underscores the importance of phylogenic (系统发育的) analysis in understanding not just where species come from, but also how they are related to one another. Moreover, phylogenic (系统发育的) frameworks are crucial in fields such as conservation biology. By identifying the phylogenic (系统发育的) relationships among species, conservationists can prioritize efforts to protect those that are most closely related and at risk of extinction. This approach ensures that we preserve not only individual species but also the genetic diversity that is vital for the resilience of ecosystems. Another exciting application of phylogenic (系统发育的) studies is in medicine. The understanding of how viruses evolve, for instance, has become particularly relevant in the context of global health crises. By mapping the phylogenic (系统发育的) tree of a virus, scientists can track its mutations and spread, which is essential for developing effective vaccines and treatments. This has been especially evident during the COVID-19 pandemic, where genomic surveillance has played a critical role in monitoring variants of the virus. In conclusion, the concept of phylogenic (系统发育的) relationships is fundamental to our understanding of the natural world. It connects the dots between species, highlighting the intricate web of life that has evolved over millions of years. As we continue to explore and uncover the complexities of evolution through phylogenic (系统发育的) studies, we gain invaluable knowledge that can inform conservation efforts, medical research, and our overall appreciation of biodiversity. The implications of these studies are vast, making the exploration of phylogenic (系统发育的) relationships an ever-important endeavor in science.
进化研究是一个迷人而复杂的领域,深入探讨地球生命的历史。在这个领域中,一个关键概念是不同物种之间的phylogenic(系统发育的)关系。术语phylogenic指的是一个物种或生物群体的进化发展和多样化。理解这些关系有助于科学家追溯各种物种的血统,揭示它们如何随着时间的推移适应环境。近年来,基因研究的进展为phylogenic(系统发育的)研究提供了新的见解。通过分析DNA序列,研究人员可以构建更准确的家谱,描绘生物的进化路径。例如,一项研究可能揭示鸟类与某些恐龙共享共同祖先,这从根本上改变了我们对鸟类进化的看法。这类研究强调了在理解物种不仅来源于何处,还包括它们彼此之间的关系时,phylogenic(系统发育的)分析的重要性。此外,phylogenic(系统发育的)框架在保护生物学等领域至关重要。通过识别物种之间的phylogenic(系统发育的)关系,保护主义者可以优先考虑那些最接近且面临灭绝风险的物种的保护工作。这种方法确保我们不仅保存单个物种,而且保护对生态系统的韧性至关重要的遗传多样性。phylogenic(系统发育的)研究的另一个令人兴奋的应用是在医学领域。例如,了解病毒如何进化在全球健康危机的背景下变得尤为相关。通过绘制病毒的phylogenic(系统发育的)树,科学家可以追踪其突变和传播,这对于开发有效的疫苗和治疗至关重要。这在COVID-19大流行期间表现得尤为明显,基因组监测在监测病毒变异方面发挥了关键作用。总之,phylogenic(系统发育的)关系的概念是我们理解自然世界的基础。它连接了物种之间的联系,突出展示了数百万年来进化而来的复杂生命网络。随着我们继续探索和揭示通过phylogenic(系统发育的)研究的进化复杂性,我们获得了宝贵的知识,这些知识可以为保护工作、医学研究以及我们对生物多样性的整体欣赏提供信息。这些研究的影响是巨大的,使得对phylogenic(系统发育的)关系的探索成为科学中一个越来越重要的任务。
