foraminiferal

简明释义

英[fəˌræmɪˈnɪfərəl]美[fɔrəˈmɪnɪfərəl]

adj. 有孔虫目的

英英释义

单词用法

同义词

反义词

例句

1.Therefore, the foraminiferal taphocoenoses in the study area are the combined product of ecological and taphonomic factors of the environment.

埋葬群与生态环境因素和埋葬环境因素均有密切关系。

2.Based on the study of small foraminiferal fauna in the Late Carboniferous and Early Permian in Feicheng coalfield, 25 genera and 73 species of small foraminiferal fossils are identified.

通过对肥城煤田晚石炭-早二叠世小有孔虫动物群的研究，共鉴定出小有孔虫化石25属73种。

3.Based on the study of small foraminiferal fauna in the Late Carboniferous and Early Permian in Feicheng coalfield, 25 genera and 73 species of small foraminiferal fossils are identified.

通过对肥城煤田晚石炭-早二叠世小有孔虫动物群的研究，共鉴定出小有孔虫化石25属73种。

4.Jian Xu, 2004. Quaternary Planktonic Foraminiferal Assemblages in the Southern South China Sea and Paleoclimatic Variations. Tongji University, Shanghai.

徐建，2004。南海南部第四纪浮游有孔虫群与古气候变化。同济大学，上海。

5.Variation of planktonic foraminiferal fauna in the Western Pacific Warm Pool (WPWP) since the last glacial and its respondence to global changes are discussed.

探讨了末次冰期以来西太平洋暖池区浮游有孔虫动物群变化对环境和全球气候变化的响应。

6.The presence of certain foraminiferal 有孔虫的 species can indicate the level of pollution in marine environments.

某些有孔虫的物种的存在可以指示海洋环境中的污染水平。

7.Scientists use foraminiferal 有孔虫的 assemblages to indicate changes in oceanic conditions over time.

科学家使用有孔虫的组合来指示海洋条件随时间的变化。

8.Geologists often analyze foraminiferal 有孔虫的 sediments to understand sedimentary processes.

地质学家经常分析有孔虫的沉积物以了解沉积过程。

9.In paleontology, foraminiferal 有孔虫的 data can provide insights into the evolutionary history of marine organisms.

在古生物学中，有孔虫的数据可以提供对海洋生物进化历史的见解。

10.The study of ancient marine environments often relies on foraminiferal 有孔虫的 fossils to reconstruct past climates.

对古代海洋环境的研究通常依赖于有孔虫的化石来重建过去的气候。

作文

The study of marine life is a fascinating field that encompasses various organisms, including the tiny yet significant foraminifera. These single-celled protists are characterized by their intricate shells, which can be made of various materials such as calcium carbonate or silica. The term foraminiferal refers to anything related to these remarkable creatures. Understanding foraminiferal organisms is crucial for scientists, particularly in the fields of paleontology and geology, as they provide valuable insights into the Earth's past environments and climate changes.Foraminifera are predominantly found in oceanic environments, where they play a vital role in the marine ecosystem. They serve as food for larger organisms and contribute to the formation of sedimentary deposits on the ocean floor. The shell structures of foraminiferal species vary greatly, leading to their classification into different groups based on their morphology. This diversity not only highlights their adaptability but also their evolutionary significance over millions of years.In paleontological studies, the presence of foraminiferal fossils in sedimentary rock layers helps scientists reconstruct ancient marine environments. By analyzing the types of foraminiferal species found in these layers, researchers can infer the temperature, salinity, and depth of the water at the time the sediments were deposited. This information is invaluable for understanding historical climate patterns and the effects of global warming.Moreover, modern environmental studies utilize foraminiferal analysis to assess the health of marine ecosystems. Changes in the abundance and diversity of foraminiferal populations can indicate shifts in environmental conditions, such as pollution or temperature changes. As a result, these microorganisms serve as bioindicators, allowing scientists to monitor the impact of human activities on marine life.In addition to their ecological importance, foraminiferal organisms have practical applications in various industries. For example, in the oil and gas sector, the study of foraminiferal fossils helps geologists identify potential hydrocarbon reservoirs. The distribution of these organisms within sedimentary rock formations can guide exploration efforts, making them an essential component of resource management.In conclusion, the term foraminiferal encapsulates a world of microscopic wonders that hold immense significance for both scientific research and practical applications. From providing clues about our planet's history to serving as indicators of environmental health, foraminiferal organisms are indispensable to our understanding of marine ecosystems and their responses to change. As we continue to explore the depths of our oceans, the study of foraminiferal life will undoubtedly reveal more secrets about the intricate web of life that exists beneath the waves.

对海洋生物的研究是一个迷人的领域，它包括各种生物，包括微小而重要的有孔虫。这些单细胞原生生物以其复杂的外壳为特征，外壳可以由碳酸钙或硅等多种材料制成。术语foraminiferal指的是与这些非凡生物相关的任何事物。理解foraminiferal生物对于科学家尤其是在古生物学和地质学领域至关重要，因为它们提供了对地球过去环境和气候变化的宝贵见解。有孔虫主要分布在海洋环境中，在海洋生态系统中发挥着重要作用。它们是大型生物的食物，并为海底沉积物的形成做出贡献。foraminiferal物种的壳体结构差异很大，因此根据其形态将其分类。这种多样性不仅突显了它们的适应能力，还凸显了它们在数百万年中的进化意义。在古生物学研究中，有孔虫化石在沉积岩层中的存在帮助科学家重建古代海洋环境。通过分析这些层中发现的foraminiferal物种类型，研究人员可以推断沉积时水温、盐度和水深。这些信息对理解历史气候模式和全球变暖的影响至关重要。此外，现代环境研究利用foraminiferal分析评估海洋生态系统的健康。foraminiferal种群的丰度和多样性的变化可以表明环境条件的变化，例如污染或温度变化。因此，这些微生物作为生物指示物，使科学家能够监测人类活动对海洋生物的影响。除了生态重要性之外，foraminiferal生物在各个行业中也具有实际应用。例如，在石油和天然气行业，foraminiferal化石的研究有助于地质学家识别潜在的碳氢化合物储层。这些生物在沉积岩层中的分布可以指导勘探工作，使它们成为资源管理的重要组成部分。总之，术语foraminiferal概括了一个微观奇迹的世界，对科学研究和实际应用具有重要意义。从提供有关我们星球历史的线索到作为环境健康的指示器，foraminiferal生物对于我们理解海洋生态系统及其对变化的响应是不可或缺的。随着我们继续探索海洋深处，foraminiferal生命的研究无疑会揭示更多关于波浪下复杂生命网络的秘密。