autogenetic

简明释义

英[ˌɔːtəʊdʒəˈnetɪk]美[ˌɔtədʒeˈnetɪk]

adj. 自生的；无生源说的；单性生殖的

英英释义

单词用法

同义词

反义词

例句

1.The results indicate that the forming mechanism of the low permeability in this area is the filling and cementation of autogenetic mineral during diagenesis.

研究结果表明，本区储层砂岩较低渗透率的主要成因是成岩期各种自生矿物的充填和胶结作用。

2.The results indicate that the forming mechanism of the low permeability in this area is the filling and cementation of autogenetic mineral during diagenesis.

研究结果表明，本区储层砂岩较低渗透率的主要成因是成岩期各种自生矿物的充填和胶结作用。

3.The Strontium isotope composition of Marine autogenetic minerals can reflect the sea level fluctuation trend during the minerals deposited.

海相岩石自生矿物中的锶同位素组成可反映其沉积时期的海平面波动趋势。

4.Compared to xenogenic hematopoietic stem cell transplantation, autogenetic transplantation is more favourable in clinical application.

与异体造血干细胞移植相比，自体移植具有重要的临床应用价值。

5.The nature is autogenetic.

大自然是自生的。

6.The research focused on the autogenetic 自生的 processes that occur in certain bacterial species.

研究集中在某些细菌种类中发生的自生的autogenetic过程。

7.In the study of evolution, autogenetic 自生的 traits can provide insights into how species adapt over time.

在进化研究中，自生的autogenetic特征可以提供物种如何随时间适应的见解。

8.The autogenetic 自生的 mechanism of cell division is crucial for understanding cancer development.

细胞分裂的自生的autogenetic机制对于理解癌症发展至关重要。

9.Some plants exhibit autogenetic 自生的 growth patterns that allow them to thrive in harsh environments.

一些植物表现出自生的autogenetic生长模式，使它们能够在恶劣环境中茁壮成长。

10.The findings suggest that autogenetic 自生的 factors play a significant role in the ecosystem's balance.

研究结果表明，自生的autogenetic因素在生态系统的平衡中发挥着重要作用。

作文

In the realm of biology, the term autogenetic refers to processes or phenomena that are self-generated or originate from within an organism. Understanding this concept is crucial for students and researchers alike, as it provides insight into various biological processes, including development, evolution, and adaptation. The significance of autogenetic mechanisms can be observed in numerous aspects of life, from cellular growth to the evolution of complex traits in species. For instance, consider the development of an organism from a single fertilized egg. This process, known as embryogenesis, showcases autogenetic characteristics as the embryo develops through a series of self-directed stages. Each stage is governed by genetic information encoded within the DNA, which directs the cells on how to grow, differentiate, and organize into tissues and organs. This self-organizing capability is a fundamental aspect of life, illustrating how organisms can autonomously generate complex structures from simple beginnings. Moreover, the concept of autogenetic extends beyond individual development to encompass evolutionary processes. Evolutionary biologists often study how certain traits arise within populations without external influences, relying instead on internal genetic variation and natural selection. For example, the ability of some species to adapt to changing environments can be attributed to autogenetic changes in their genetic makeup over generations. These adaptations, driven by inherent genetic factors, highlight the power of self-organization in shaping the diversity of life on Earth. Additionally, autogenetic processes are not limited to physical traits; they also play a significant role in behavioral adaptations. Animals often exhibit behaviors that are instinctual and self-generated, allowing them to survive and thrive in their environments. These behaviors, such as migration patterns in birds or foraging strategies in mammals, can be seen as autogenetic responses to ecological pressures. By studying these behaviors, scientists can gain a better understanding of how organisms interact with their surroundings and evolve over time. In conclusion, the term autogenetic encapsulates a vital concept in biology that emphasizes self-generation and internal processes within organisms. From embryonic development to evolutionary adaptations and behavioral responses, autogenetic mechanisms are fundamental to understanding the complexity of life. As we continue to explore the intricacies of biological systems, recognizing the role of autogenetic processes will undoubtedly enhance our comprehension of the natural world and the remarkable capabilities of living organisms.

在生物学领域，术语autogenetic指的是自我生成或源自生物体内部的过程或现象。理解这个概念对学生和研究人员来说至关重要，因为它提供了对各种生物过程的洞察，包括发育、进化和适应。autogenetic机制的重要性可以在生命的诸多方面中观察到，从细胞生长到物种复杂特征的进化。 例如，考虑一个生物体从一个受精卵开始的发展过程。这一过程被称为胚胎发生，展示了autogenetic特征，因为胚胎通过一系列自我引导的阶段发展。每个阶段都由DNA中编码的遗传信息控制，指导细胞如何生长、分化并组织成组织和器官。这种自我组织的能力是生命的基本特征，说明生物体如何能够从简单的起点自主生成复杂的结构。 此外，autogenetic概念不仅限于个体发展，还涵盖了进化过程。进化生物学家常常研究某些特征如何在群体中出现，而没有外部影响，而是依赖于内部遗传变异和自然选择。例如，一些物种适应环境变化的能力可以归因于其遗传构成中的autogenetic变化。这些适应性，受内在遗传因素驱动，突显了自我组织在塑造地球生命多样性方面的力量。 此外，autogenetic过程不仅限于身体特征；它们在行为适应中也扮演着重要角色。动物常常表现出本能的、自我生成的行为，使它们能够在环境中生存和繁衍。这些行为，例如鸟类的迁徙模式或哺乳动物的觅食策略，可以被视为对生态压力的autogenetic反应。通过研究这些行为，科学家能够更好地理解生物体如何与周围环境互动并随时间演变。 总之，术语autogenetic概括了生物学中一个重要的概念，强调生物体内部的自我生成和内部过程。从胚胎发育到进化适应，再到行为反应，autogenetic机制对于理解生命的复杂性是至关重要的。随着我们继续探索生物系统的复杂性，认识到autogenetic过程的作用无疑将增强我们对自然世界及生物体卓越能力的理解。