palynology
简明释义
英[ˌpælɪˈnɒlədʒi]美[ˌpæləˈnɑːlədʒi]
n. [古生] 孢粉学
英英释义
The scientific study of pollen and spores, particularly in relation to their distribution, morphology, and ecological significance. | 对花粉和孢子的科学研究,特别是与它们的分布、形态和生态意义相关的研究。 |
单词用法
花粉学分析 | |
花粉学数据 | |
花粉学研究 | |
进行花粉学研究 | |
应用花粉学技术 | |
考古学中的花粉学 |
同义词
花粉分析 | Pollen analysis is crucial in understanding past climates and vegetation. | 花粉分析对于理解过去的气候和植被至关重要。 | |
孢子分析 | Spore analysis can provide insights into the ecological history of an area. | 孢子分析可以提供一个地区生态历史的见解。 |
反义词
地质学 | Geology studies the Earth's physical structure and substance. | 地质学研究地球的物理结构和成分。 | |
人类学 | Anthropology examines human societies, cultures, and their development. | 人类学研究人类社会、文化及其发展。 |
例句
1.The surface sculpture observation integrated with cluster analysis was a resultful method to group varieties of apricot with the aid of palynology.
根据表面纹饰并结合聚类分析对杏品种进行分类是一个有效的方法。
2.The surface sculpture observation integrated with cluster analysis was a resultful method to group varieties of apricot with the aid of palynology.
根据表面纹饰并结合聚类分析对杏品种进行分类是一个有效的方法。
3.So the critical point drying method is better than the natural drying method for palynology research.
进行孢粉学研究,临界点干燥法优于自然干燥法。
4.The result provides scientific reference for pollen identification, breeding and palynology.
为梅花的花粉鉴别、品种选育、分类及孢粉学提供了依据。
5.They can also provide basic information about the palynology and phylogeny of ferns.
并为蕨类植物孢粉学和系统学研究提供基础资料。
6.The study of ancient pollen grains is a key aspect of palynology.
古代花粉颗粒的研究是花粉学的一个关键方面。
7.Researchers in palynology can help reconstruct past climates.
从事花粉学的研究人员可以帮助重建过去的气候。
8.In palynology, scientists analyze sediment layers for pollen content.
在花粉学中,科学家分析沉积层中的花粉含量。
9.The field of palynology provides insights into plant evolution.
花粉学领域提供了植物进化的见解。
10.Understanding palynology can aid in oil exploration by identifying ancient vegetation.
理解花粉学可以通过识别古代植被来帮助石油勘探。
作文
Palynology, the study of pollen and spores, is an essential branch of science that provides us with valuable insights into past climates, ecosystems, and even human activities. By examining these microscopic particles, researchers can reconstruct ancient environments and understand how they have changed over time. This field plays a crucial role in various disciplines, including geology, archaeology, and environmental science. The significance of palynology (孢粉学) extends beyond academic curiosity; it has practical applications in agriculture, forensics, and climate change research. For instance, farmers can use palynological data to determine which crops were historically grown in a particular area, thus guiding their planting decisions today. In forensic science, palynology (孢粉学) can help solve crimes by analyzing pollen found at crime scenes, linking suspects to locations or times based on the types of pollen present. One of the most fascinating aspects of palynology (孢粉学) is its ability to reveal information about extinct species and ancient ecosystems. By studying sediment cores from lakes or ocean floors, scientists can identify pollen grains from different plants, allowing them to piece together a timeline of vegetation changes over thousands of years. For example, during the last Ice Age, certain regions were dominated by coniferous forests, while warmer periods saw the emergence of deciduous trees. This data not only informs us about plant evolution but also helps us understand how climate shifts impacted biodiversity. Moreover, palynology (孢粉学) has become increasingly important in the context of climate change. As global temperatures rise and weather patterns shift, understanding how ecosystems have responded to past climatic changes can provide valuable lessons for the future. By analyzing pollen records, scientists can predict how current plant species might react to ongoing environmental stressors. This predictive capability is vital for conservation efforts, as it helps identify which species are at risk and what measures can be taken to protect them. In addition to its scientific relevance, palynology (孢粉学) also intersects with cultural studies. Many indigenous communities possess traditional ecological knowledge that aligns with findings from palynological studies. By integrating indigenous wisdom with scientific research, we can gain a more comprehensive understanding of how humans have interacted with their environment over millennia. This collaboration not only enriches our knowledge but also empowers local communities in conservation efforts. Despite its importance, palynology (孢粉学) faces challenges, particularly in terms of funding and public awareness. Many people are unaware of how much we can learn from pollen and spores, leading to underrepresentation of this field in educational curricula. Increased outreach and education about palynology (孢粉学) could foster greater interest and investment in research, ultimately benefiting both science and society. In conclusion, palynology (孢粉学) is a multifaceted discipline that offers profound insights into our planet's history and future. By studying pollen and spores, we unlock the secrets of ancient ecosystems, inform modern agricultural practices, enhance forensic investigations, and contribute to climate change research. As we continue to explore the intricate relationships between plants, animals, and their environments, palynology (孢粉学) will undoubtedly remain a vital tool in our quest for knowledge.
孢粉学,即对花粉和孢子的研究,是一个重要的科学分支,为我们提供了对过去气候、生态系统甚至人类活动的宝贵见解。通过检查这些微观颗粒,研究人员可以重建古代环境,并了解它们如何随着时间的推移而变化。这个领域在地质学、考古学和环境科学等多个学科中发挥着至关重要的作用。 palynology(孢粉学)的重要性超越了学术好奇心;它在农业、法医学和气候变化研究中具有实际应用。例如,农民可以利用孢粉数据来确定特定地区历史上种植了哪些作物,从而指导他们今天的种植决策。在法医学中,palynology(孢粉学)可以通过分析犯罪现场发现的花粉来帮助破案,根据存在的花粉类型将嫌疑人与地点或时间联系起来。 palynology(孢粉学)最令人着迷的方面之一是它能够揭示有关灭绝物种和古代生态系统的信息。通过研究湖泊或海洋底部的沉积物核心,科学家可以识别来自不同植物的花粉颗粒,使他们能够拼凑出数千年来植被变化的时间线。例如,在最后的冰河时代,某些地区以针叶林为主,而温暖的时期则出现了落叶树。这些数据不仅告诉我们植物进化的故事,还帮助我们理解气候变化如何影响生物多样性。 此外,palynology(孢粉学)在气候变化背景下变得越来越重要。随着全球气温上升和天气模式变化,了解生态系统如何应对过去的气候变化可以为未来提供宝贵的教训。通过分析花粉记录,科学家可以预测当前植物物种可能如何应对正在进行的环境压力。这种预测能力对于保护工作至关重要,因为它有助于识别哪些物种面临风险以及可以采取什么措施来保护它们。 除了科学相关性,palynology(孢粉学)还与文化研究交叉。许多土著社区拥有与孢粉学研究结果一致的传统生态知识。通过将土著智慧与科学研究相结合,我们可以更全面地理解人类如何与环境互动数千年。这种合作不仅丰富了我们的知识,而且还赋予了当地社区在保护工作中的权力。 尽管其重要性,palynology(孢粉学)面临着挑战,特别是在资金和公众意识方面。许多人对我们从花粉和孢子中能学到多少知之甚少,导致这一领域在教育课程中的代表性不足。增加关于palynology(孢粉学)的宣传和教育可能会激发更大的兴趣和对研究的投资,最终使科学和社会受益。 总之,palynology(孢粉学)是一个多面的学科,为我们对地球历史和未来的深刻见解提供了机会。通过研究花粉和孢子,我们揭开了古代生态系统的秘密,告知现代农业实践,增强法医调查,并为气候变化研究做出贡献。随着我们继续探索植物、动物及其环境之间错综复杂的关系,palynology(孢粉学)无疑将继续成为我们追求知识的重要工具。
文章标题:palynology的意思是什么
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