protogenic

简明释义

英[proʊˈtoʊdʒənɪk]美[proʊˈtoʊdʒənɪk]

adj. 原生的

英英释义

单词用法

同义词

反义词

例句

1.Furthermore, protogenic manchurian-tree wood is used to finish the surface of furniture elaborately.

家具表面用原生水曲柳木材精心加工而成。

2.The important peak, Xiding mountain, also called A Mountain of Tea Forest, is originally the place where protogenic tea forest grows.

重要山头隙顶山，因而又名「茶林山」，原本即是原生茶树林立的地方。

3.The diameter of sand, content of plastic clastic and development of coal measures play a role in decreasing pore and development of protogenic pore between grains during diagenetic compaction.

砂岩粒径、塑性岩屑含量和煤系发育程度影响成岩压实减孔量，从而影响剩余原生粒间孔隙发育程度。

4.The diameter of sand, content of plastic clastic and development of coal measures play a role in decreasing pore and development of protogenic pore between grains during diagenetic compaction.

砂岩粒径、塑性岩屑含量和煤系发育程度影响成岩压实减孔量，从而影响剩余原生粒间孔隙发育程度。

5.In evolutionary biology, understanding protogenic 原生的 species helps us trace back the evolution of modern animals.

在进化生物学中，理解protogenic 原生的 物种有助于我们追溯现代动物的进化。

6.Many scientists believe that protogenic 原生的 molecules played a crucial role in the formation of complex life forms.

许多科学家认为，protogenic 原生的 分子在复杂生命形式的形成中发挥了关键作用。

7.The study of protogenic 原生的 organisms can shed light on the origins of life on Earth.

对protogenic 原生的 生物的研究可以揭示地球生命的起源。

8.Researchers are investigating protogenic 原生的 enzymes to develop new biotechnological applications.

研究人员正在调查protogenic 原生的 酶，以开发新的生物技术应用。

9.The protogenic 原生的 characteristics of certain bacteria make them ideal for studying early life forms.

某些细菌的protogenic 原生的 特征使它们成为研究早期生命形式的理想对象。

作文

In the realm of biology and evolutionary studies, the term protogenic refers to the earliest forms of life that emerged on our planet. Understanding this concept is crucial for grasping the intricate tapestry of evolution that has led to the diverse array of organisms we see today. The study of protogenic life forms helps scientists piece together the origins of cellular structures and metabolic processes. These primitive organisms, often single-celled, laid the groundwork for more complex life forms, showcasing nature's ability to adapt and evolve over millions of years.The significance of protogenic organisms cannot be overstated. They represent a pivotal stage in the history of life, serving as a bridge between non-living chemical compounds and the first living entities. By examining fossils and geological records, researchers can infer the characteristics of these ancient life forms. For instance, it is believed that protogenic life was anaerobic, thriving in environments devoid of oxygen, which was a stark contrast to the aerobic organisms that dominate today's ecosystems.Moreover, the study of protogenic life provides insights into the conditions necessary for life to exist. Scientists have proposed various hypotheses regarding how these early organisms might have formed, including the primordial soup theory and hydrothermal vent hypothesis. These theories suggest that life could have originated in warm, chemically rich environments, where simple molecules underwent complex reactions, eventually leading to the formation of self-replicating entities.In addition to its biological implications, the concept of protogenic life also resonates with philosophical inquiries about the essence of life itself. What constitutes a living organism? How do we define life in its most fundamental form? These questions challenge our understanding and push the boundaries of scientific inquiry. The exploration of protogenic organisms encourages interdisciplinary dialogue, bridging biology, chemistry, and philosophy.Furthermore, the relevance of protogenic life extends beyond Earth. As scientists search for extraterrestrial life, they consider what forms it might take and how it could resemble or differ from our own. Understanding the characteristics of protogenic organisms helps astrobiologists formulate hypotheses about potential life forms on other planets, particularly those that may have similar environmental conditions to early Earth.In conclusion, the term protogenic encapsulates a fundamental concept in the study of life's origins. By examining these early life forms, we gain valuable insights into the evolutionary processes that shaped our planet and the potential for life beyond it. The exploration of protogenic organisms not only enhances our understanding of biology but also invites us to ponder the deeper questions of existence and the nature of life itself. As we continue to uncover the mysteries of our past, the significance of protogenic life remains a cornerstone of scientific inquiry and philosophical reflection.

在生物学和进化研究领域，术语protogenic指的是我们星球上出现的最早生命形式。理解这个概念对于掌握导致今天我们所看到的多样化生物体的复杂进化过程至关重要。对protogenic生命形式的研究帮助科学家拼凑出细胞结构和代谢过程的起源。这些原始生物通常是单细胞的，为更复杂的生命形式奠定了基础，展示了自然在数百万年间适应和进化的能力。protogenic生物的重要性不容小觑。它们代表了生命历史中的一个关键阶段，充当了非生命化学化合物与第一个生物实体之间的桥梁。通过检查化石和地质记录，研究人员可以推测这些古代生命形式的特征。例如，人们认为protogenic生命是厌氧的，生活在缺乏氧气的环境中，这与今天生态系统中占主导地位的需氧生物形成鲜明对比。此外，protogenic生命的研究提供了关于生命存在所需条件的见解。科学家提出了各种假设，关于这些早期生物可能如何形成，包括原始汤理论和热液喷口假说。这些理论表明，生命可能起源于温暖、富含化学物质的环境，在那里简单分子经历复杂反应，最终形成自我复制的实体。除了生物学意义外，protogenic生命的概念还引发了对生命本质的哲学探讨。什么构成一个活生物体？我们如何定义生命的最基本形式？这些问题挑战了我们的理解，并推动科学探究的边界。对protogenic生物的探索鼓励跨学科对话，连接生物学、化学和哲学。此外，protogenic生命的相关性超越了地球。随着科学家们寻找外星生命，他们考虑生命可能采取的形式以及它可能与我们自己的生命有何相似或不同之处。理解protogenic生物的特征帮助天体生物学家制定关于其他行星上潜在生命形式的假设，特别是那些可能具有与早期地球相似环境条件的行星。总之，术语protogenic概括了生命起源研究中的一个基本概念。通过研究这些早期生命形式，我们获得了关于塑造我们星球的进化过程的宝贵见解，以及超越地球的生命潜力。对protogenic生物的探索不仅增强了我们对生物学的理解，还邀请我们思考存在的更深层次问题和生命的本质。随着我们继续揭开过去的神秘，protogenic生命的意义仍然是科学探究和哲学反思的基石。