paleoecology
简明释义
英[ˌpeɪ.li.oʊ.ɪˈkɒl.ə.dʒi]美[ˌpeɪ.li.oʊ.ɪˈkɑː.lə.dʒi]
n. 古生态学
英英释义
Paleoecology is the study of the interactions between ancient organisms and their environments, often using fossil records to understand past ecosystems. | 古生态学是研究古代生物与其环境之间相互作用的学科,通常利用化石记录来理解过去的生态系统。 |
单词用法
古生态学分析 | |
古生态学重建 | |
古生态学研究 | |
古生态学证据 | |
古生态学背景 | |
应用古生态学理解过去的气候 | |
将古生态学与现代生态学结合 | |
使用古生态学为保护工作提供信息 | |
进行古生态学调查 | |
解读古生态学记录 |
同义词
反义词
| 现代生态学 | Modern ecology focuses on current ecosystems and their interactions. | 现代生态学关注当前生态系统及其相互作用。 | |
| 当代生态学 | Contemporary ecology studies the effects of human activity on the environment. | 当代生态学研究人类活动对环境的影响。 |
例句
1.Sometimes the subject is divided into paleobotany, the study of fossil plants, paleozoology, the study of fossil animals, and paleoecology.
有时将古生物学分为古植物学(植物化石研究)、古动物学(动物化石研究)以及古生态学。
2.Sometimes the subject is divided into paleobotany, the study of fossil plants, paleozoology, the study of fossil animals, and paleoecology.
有时将古生物学分为古植物学(植物化石研究)、古动物学(动物化石研究)以及古生态学。
3.By examining sediment layers, scientists can infer past biodiversity through paleoecology.
通过检查沉积层,科学家可以通过古生态学推断过去的生物多样性。
4.The findings in paleoecology can help predict future ecological changes.
在古生态学中的发现可以帮助预测未来的生态变化。
5.Fossil records provide essential data for paleoecology studies.
化石记录为古生态学研究提供了重要数据。
6.Researchers use paleoecology to understand how ecosystems have changed over millions of years.
研究人员使用古生态学来理解生态系统在数百万年间是如何变化的。
7.The study of ancient climates is a key component of paleoecology.
古代气候的研究是古生态学的一个关键组成部分。
作文
Paleoecology, defined as the study of ancient ecosystems and their interactions with the environment, plays a crucial role in understanding the history of life on Earth. By examining fossilized remains of plants and animals, as well as sedimentary deposits, researchers can reconstruct past climates and habitats. This field of study not only sheds light on how ecosystems functioned millions of years ago but also provides insights into the evolutionary processes that shaped current biodiversity. The importance of paleoecology (古生态学) extends beyond mere academic interest; it has practical implications for contemporary environmental issues. For instance, by understanding how past ecosystems responded to climate changes, scientists can better predict how modern ecosystems might react to ongoing global warming. Furthermore, paleoecology (古生态学) helps in conservation efforts by identifying which species were resilient to past environmental stresses, thus guiding current biodiversity preservation strategies. One of the most fascinating aspects of paleoecology (古生态学) is its interdisciplinary nature. It combines elements of geology, biology, climatology, and archaeology, creating a comprehensive framework for analyzing the complex interrelations within ecosystems. For example, the study of pollen grains found in sediment layers allows scientists to infer past vegetation types and distributions, leading to a better understanding of historical climate conditions. Additionally, the examination of isotopes in fossilized remains can reveal information about ancient diets and migration patterns. As we delve deeper into the field of paleoecology (古生态学), we uncover the intricate tapestry of life that has existed on our planet. This knowledge not only enriches our understanding of Earth's biological heritage but also emphasizes the fragility of ecosystems. In today’s rapidly changing world, where human activities are drastically altering natural landscapes, the lessons learned from paleoecology (古生态学) are more relevant than ever. By studying the resilience and adaptability of ancient organisms, we can glean strategies for enhancing the sustainability of our current ecosystems. Moreover, paleoecology (古生态学) encourages a long-term perspective on ecological research. While many studies focus on short-term changes, the insights gained from ancient data highlight the importance of considering historical baselines. This perspective is vital for effective management and restoration of ecosystems that have been degraded by human impact. In conclusion, paleoecology (古生态学) serves as a bridge between the past and present, revealing the dynamic nature of life on Earth. Its contributions to our understanding of ancient environments not only deepen our appreciation for the planet's history but also inform our actions in preserving its future. As we face unprecedented environmental challenges, the wisdom gleaned from paleoecology (古生态学) can guide us toward more sustainable practices, ensuring that we learn from the past to protect our planet for generations to come.
古生态学,定义为对古代生态系统及其与环境相互作用的研究,在理解地球生命历史方面发挥着至关重要的作用。通过检查植物和动物的化石遗骸以及沉积物,研究人员可以重建过去的气候和栖息地。这一研究领域不仅揭示了数百万年前生态系统的运作方式,还提供了对塑造当前生物多样性的进化过程的见解。古生态学的(paleoecology)重要性超出了单纯的学术兴趣;它对当代环境问题具有实际意义。例如,通过了解过去生态系统如何应对气候变化,科学家可以更好地预测现代生态系统可能如何应对持续的全球变暖。此外,古生态学(paleoecology)有助于保护工作,通过识别哪些物种在过去的环境压力下具有韧性,从而指导当前的生物多样性保护策略。古生态学(paleoecology)最迷人的一个方面是它的跨学科性质。它结合了地质学、生物学、气候学和考古学等元素,创建了一个全面分析生态系统内复杂相互关系的框架。例如,研究沉积层中发现的花粉颗粒可以推断出过去的植被类型和分布,从而更好地理解历史气候条件。此外,化石遗骸中同位素的检查可以揭示古代饮食和迁徙模式的信息。随着我们深入研究古生态学(paleoecology)这一领域,我们揭示了地球上曾经存在的生命的复杂织锦。这些知识不仅丰富了我们对地球生物遗产的理解,还强调了生态系统的脆弱性。在当今快速变化的世界中,人类活动正在大幅改变自然景观,从古生态学(paleoecology)中获得的教训比以往任何时候都更加相关。通过研究古代生物的韧性和适应能力,我们可以获取增强当前生态系统可持续性的策略。此外,古生态学(paleoecology)鼓励对生态研究采取长期视角。虽然许多研究关注短期变化,但从古代数据中获得的见解突显了考虑历史基线的重要性。这一视角对于有效管理和恢复因人类影响而退化的生态系统至关重要。总之,古生态学(paleoecology)作为连接过去与现在的桥梁,揭示了地球生命的动态本质。它对我们理解古代环境的贡献不仅加深了我们对地球历史的欣赏,也为我们在保护未来的行动提供了信息。在我们面临前所未有的环境挑战时,从古生态学(paleoecology)中汲取的智慧可以引导我们走向更可持续的实践,确保我们从过去学习,以保护我们的星球,使其造福后代。
