palaeobotany
简明释义
英[ˌpælɪəʊˈbɒtəni]美[ˌpeɪlɪoʊˈbɑːtəni]
n. [古植] 古植物学
英英释义
Palaeobotany is the branch of paleontology that deals with the study of fossil plants and plant life from past geological periods. | 古植物学是古生物学的一个分支,研究来自过去地质时期的化石植物和植物生活。 |
单词用法
古植物学研究 | |
古植物学技术 | |
古植物学化石分析 | |
古植物学与地质学 | |
古植物学研究 | |
古植物学实地考察 |
同义词
古植物学 | Paleobotany studies ancient plant life through fossil records. | 古植物学通过化石记录研究古代植物生活。 | |
化石植物学 | Fossil botany helps us understand the evolution of plants over millions of years. | 化石植物学帮助我们理解植物在数百万年中的演变。 |
反义词
例句
1.Palaeobotany will introduce the structure and classification of Pteridophyte, Gymnosperms and Angiosperms, and introduce the evolvement phases of the Plants.
古植物学重点介绍蕨类植物、裸子植物和被子植物各纲的结构和分类以及植物界的演化的阶段性。
2.Palaeobotany will introduce the structure and classification of Pteridophyte, Gymnosperms and Angiosperms, and introduce the evolvement phases of the Plants.
古植物学重点介绍蕨类植物、裸子植物和被子植物各纲的结构和分类以及植物界的演化的阶段性。
3.Story of Palaeobotany Series (Supplemental issue): How is the palaeobotany Fellow or Foreign Member of the Royal Society in London selected?
英国皇家学会古植物学院士与外籍院士是如何遴选的?
4.It finds wider and wider application in palaeobotany.
生物全息律在古植物学中的应用日益广泛。
5.The study of ancient plant life is crucial for understanding climate change, which is why many researchers are turning to palaeobotany.
研究古代植物生活对于理解气候变化至关重要,这就是为什么许多研究人员转向古植物学。
6.In her thesis, she focused on palaeobotany to analyze how ancient forests responded to past environmental changes.
在她的论文中,她专注于古植物学,分析古代森林如何应对过去的环境变化。
7.The fossils discovered in this region provide valuable insights into the field of palaeobotany.
这个地区发现的化石为古植物学领域提供了宝贵的见解。
8.Students studying palaeobotany often engage in fieldwork to collect plant fossils.
学习古植物学的学生通常参加实地考察以收集植物化石。
9.The museum has a dedicated section for palaeobotany, showcasing ancient plant specimens.
博物馆有一个专门的古植物学展区,展示古代植物标本。
作文
The study of ancient plants is a fascinating field that combines elements of geology, biology, and paleontology. This discipline, known as palaeobotany, focuses on the examination of fossilized plants to understand the history of vegetation on Earth. By analyzing plant remains, scientists can reconstruct past climates, ecosystems, and even the evolution of plant species over millions of years. palaeobotany provides critical insights into how plants adapted to changing environments, which is particularly relevant in today’s context of climate change. One of the primary methods used in palaeobotany is the examination of sedimentary rock layers. Fossils found in these layers can reveal what types of plants existed at various points in Earth's history. For instance, the discovery of coal deposits indicates the presence of lush, swampy forests during the Carboniferous period, approximately 300 million years ago. These findings help scientists understand how different plant species thrived in specific conditions and how they contributed to the formation of our planet’s atmosphere. Moreover, palaeobotany plays a crucial role in understanding the evolutionary relationships between modern and ancient plants. By studying the morphology of fossilized specimens, researchers can trace the lineage of current plant families back to their prehistoric ancestors. This not only enriches our knowledge of biodiversity but also aids in conservation efforts by highlighting which species are most vulnerable to extinction. In addition to its scientific significance, palaeobotany has practical applications. For example, understanding ancient plant life can inform agriculture and forestry practices. By knowing which plants thrived in certain climates, farmers can make better decisions about crop selection and land management. Furthermore, the study of ancient ecosystems can provide valuable lessons on resilience and adaptation, which are essential as we face environmental challenges today. Educational institutions around the world offer programs in palaeobotany, encouraging students to delve into this exciting field. Through fieldwork, laboratory analysis, and research projects, aspiring palaeobotanists learn how to identify and interpret fossilized plant materials. This hands-on experience is vital for developing the skills necessary to contribute to ongoing research and discoveries in the field. In conclusion, palaeobotany is not merely the study of ancient plants; it is a window into the past that helps us understand the present and prepare for the future. As we continue to explore the fossil record, we uncover the stories of how life has evolved on Earth and gain insights that can guide our actions today. The importance of palaeobotany extends beyond academia; it influences environmental policy, conservation efforts, and agricultural practices, making it a vital area of study in our rapidly changing world.
古植物的研究是一个迷人的领域,它结合了地质学、生物学和古生物学的元素。这个学科被称为古植物学,专注于通过对化石植物的检查来了解地球上植被的历史。通过分析植物遗骸,科学家可以重建过去的气候、生态系统,甚至植物物种在数百万年间的演化。古植物学为我们提供了重要的见解,帮助我们理解植物如何适应不断变化的环境,这在当今气候变化的背景下尤为相关。 古植物学中使用的主要方法之一是检查沉积岩层。这些层中的化石可以揭示在地球历史的不同阶段存在哪些类型的植物。例如,煤矿的发现表明,在大约三亿年前的石炭纪时期,曾存在茂密的沼泽森林。这些发现帮助科学家理解不同植物物种如何在特定条件下繁荣发展,以及它们如何对我们星球的气候形成做出贡献。 此外,古植物学在理解现代植物与古代植物之间的进化关系方面发挥着至关重要的作用。通过研究化石标本的形态,研究人员可以追溯当前植物家族的谱系,直到它们的史前祖先。这不仅丰富了我们对生物多样性的了解,还有助于保护工作,突出哪些物种最容易灭绝。 除了科学意义之外,古植物学还有实际应用。例如,了解古代植物生活可以为农业和林业实践提供信息。通过了解哪些植物在特定气候中繁荣,农民可以更好地选择作物和管理土地。此外,古代生态系统的研究可以提供关于韧性和适应性的宝贵经验,这在我们今天面临的环境挑战中至关重要。 世界各地的教育机构提供古植物学课程,鼓励学生深入研究这一令人兴奋的领域。通过实地考察、实验室分析和研究项目,未来的古植物学家学习如何识别和解释化石植物材料。这种实践经验对培养必要的技能至关重要,以便为该领域的持续研究和发现做出贡献。 总之,古植物学不仅仅是对古代植物的研究;它是通往过去的窗口,帮助我们理解现在并为未来做好准备。随着我们继续探索化石记录,我们揭示了生命如何在地球上演变的故事,并获得可以指导我们今天行动的见解。古植物学的重要性超越了学术界;它影响环境政策、保护工作和农业实践,使其成为我们快速变化的世界中一个至关重要的研究领域。
文章标题:palaeobotany的意思是什么
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