paleobiology

简明释义

英[ˌpælɪəʊbaɪˈɒlədʒɪ]美[ˌpeliobaɪˈɑlədʒi]

n. 古生物学

英英释义

单词用法

同义词

反义词

例句

1.To detect the paleobiology fossil with the geophysical prospecting technique is a very difficult project, which has no great breakthrough all over the world.

应用地球物理勘探技术进行古生物化石探测本身是一项难度大的选题，国内外均无大的突破。

2.The work appears in the journal Paleobiology.

研究报告发表在《古生物学》杂志上。

3.To detect the paleobiology fossil with the geophysical prospecting technique is a very difficult project, which has no great breakthrough all over the world.

应用地球物理勘探技术进行古生物化石探测本身是一项难度大的选题，国内外均无大的突破。

4.Paleobiology deals with plants and animals in primordial times.

古生物学研究洪荒时代的动植物。

5.Paleobiology can be subdivided into paleobotany and paleozoology.

古生物学可分为古植物学和古动物学。

6.By analyzing fossils, researchers in paleobiology can reconstruct past climates.

通过分析化石，古生物学的研究人员可以重建过去的气候。

7.The findings in paleobiology have implications for understanding biodiversity today.

在古生物学中的发现对理解今天的生物多样性具有重要意义。

8.Fieldwork in paleobiology often involves excavating fossil sites.

在古生物学中的实地工作通常涉及挖掘化石遗址。

9.The study of ancient ecosystems is a key focus of paleobiology.

古代生态系统的研究是古生物学的一个关键焦点。

10.Many universities offer specialized courses in paleobiology for aspiring scientists.

许多大学为有志于科学的学生提供专门的古生物学课程。

作文

Paleobiology is a fascinating field of study that merges the disciplines of biology and paleontology. It focuses on understanding the life forms that existed in prehistoric times, their environments, and how they interacted with one another. The word itself can be broken down into two parts: 'paleo,' which means ancient, and 'biology,' which refers to the study of living organisms. This combination allows scientists to explore not just the physical remains of ancient organisms, but also their behaviors, evolutionary processes, and ecological relationships. paleobiology (古生物学) plays a crucial role in our understanding of Earth's history and the evolution of life as we know it today.One of the primary methods used in paleobiology (古生物学) is the examination of fossils. Fossils provide a direct window into the past, allowing researchers to study the morphology of extinct species. These remnants can include bones, shells, and even imprints left by organisms. By analyzing these fossils, paleobiologists can reconstruct ancient ecosystems and understand how different species adapted to their environments over millions of years.Additionally, paleobiology (古生物学) helps us comprehend the evolutionary pathways that have led to modern organisms. For instance, by studying the fossil record, scientists can trace the lineage of contemporary animals and plants back to their ancient ancestors. This lineage provides valuable insights into how certain traits have developed and how species have responded to changes in their environment, such as climate shifts or geological events.Another significant aspect of paleobiology (古生物学) is its contribution to our understanding of extinction events. Throughout Earth's history, there have been several mass extinctions that drastically altered the course of evolution. By investigating the causes and effects of these events, paleobiologists can identify patterns and factors that contribute to species survival or extinction. This knowledge is particularly relevant today as we face an ongoing biodiversity crisis, driven by human activities. Understanding past extinctions can help inform conservation efforts and strategies to protect endangered species.Moreover, paleobiology (古生物学) intersects with other scientific fields, including geology, climate science, and ecology. For example, paleobiologists often collaborate with geologists to date fossils and understand the sedimentary contexts in which they are found. This collaboration can reveal how ancient climates influenced the distribution and diversity of life. Additionally, by integrating data from various disciplines, paleobiologists can create more comprehensive models of ancient ecosystems, providing a clearer picture of how life on Earth has evolved over time.In conclusion, paleobiology (古生物学) is an essential field that enriches our understanding of the history of life on Earth. Through the study of fossils and ancient ecosystems, paleobiologists uncover the complexities of evolutionary processes and the factors that have shaped biodiversity. As we continue to face environmental challenges, the insights gained from paleobiology (古生物学) can guide us in making informed decisions about conservation and sustainability. By learning from the past, we can better navigate the future of life on our planet.

古生物学是一个迷人的研究领域，它融合了生物学和古生物学的学科。它专注于理解史前时代存在的生命形式、它们的环境以及它们之间的相互作用。这个词本身可以分为两个部分：'paleo'，意味着古代，以及'biology'，指的是对生物体的研究。这种结合使科学家能够探索不仅是古代生物的物理遗骸，还包括它们的行为、进化过程和生态关系。paleobiology（古生物学）在我们理解地球历史和生命演化方面起着至关重要的作用。paleobiology（古生物学）使用的一种主要方法是化石的检查。化石提供了一个直接观察过去的窗口，使研究人员能够研究灭绝物种的形态。这些遗迹可以包括骨头、贝壳，甚至是生物留下的印记。通过分析这些化石，古生物学家可以重建古代生态系统，并了解不同物种如何在数百万年中适应其环境。此外，paleobiology（古生物学）帮助我们理解导致现代生物的进化路径。例如，通过研究化石记录，科学家可以追溯当代动物和植物的血统到它们的古代祖先。这一血统提供了有关某些特征如何发展以及物种如何响应环境变化（例如气候变化或地质事件）的宝贵见解。paleobiology（古生物学）的另一个重要方面是它对我们理解灭绝事件的贡献。在地球历史上，曾经发生过几次大规模灭绝，这些灭绝极大地改变了进化的进程。通过调查这些事件的原因和影响，古生物学家可以识别出导致物种生存或灭绝的模式和因素。这一知识在今天尤其相关，因为我们面临着由人类活动驱动的持续生物多样性危机。了解过去的灭绝可以帮助指导保护努力和保护濒危物种的策略。此外，paleobiology（古生物学）与其他科学领域交叉，包括地质学、气候科学和生态学。例如，古生物学家经常与地质学家合作，以确定化石的年代并理解它们所发现的沉积背景。这种合作可以揭示古代气候如何影响生命的分布和多样性。此外，通过整合来自各个学科的数据，古生物学家可以创建更全面的古代生态系统模型，从而更清晰地描绘出地球上生命如何随着时间演变。总之，paleobiology（古生物学）是一个重要的领域，丰富了我们对地球生命历史的理解。通过对化石和古代生态系统的研究，古生物学家揭示了进化过程的复杂性以及塑造生物多样性的因素。随着我们继续面临环境挑战，从paleobiology（古生物学）获得的见解可以指导我们在保护和可持续发展方面做出明智的决策。通过向过去学习，我们可以更好地应对我们星球上生命的未来。