phosphatized

简明释义

英[ˈfɒsfətaɪzd]美[ˈfɑsfətaɪzd]

磷化的（phosphatize 的过去式和过去分词）

英英释义

单词用法

同义词

反义词

例句

1.The small pits usually seen on the surface of the ornamented middle wall of phosphatized specimens correspond to the attachment spots of the spines in the outer wall.

磷酸盐化标本的中间壁瘤突表面上普遍见到的凹坑，相当于外层壁刺饰所遗留下的附着点。

2.Other researchers at the site had applied acid to dissolve the rock matrix in the laboratory, revealing the tiny phosphatized fossils.

同样地区也有其他研究者，在实验室中以酸溶掉岩石基质，找出了磷酸化的化石。

3.In recent years much attention has been paid to phosphatized spheroidal fossils found in the Sinian Doushantuoan phosphorites in Weng an, Guizhou Province.

我国贵州瓮安陡山沱期磷块岩中的磷酸盐化球状化石是近年来受到广泛关注的一类微体化石。

4.The small pits usually seen on the surface of the ornamented middle wall of phosphatized specimens correspond to the attachment spots of the spines in the outer wall.

磷酸盐化标本的中间壁瘤突表面上普遍见到的凹坑，相当于外层壁刺饰所遗留下的附着点。

5.In phosphatized specimens the outer wall is often peeled off, exposing the ornamented middle wall.

磷酸盐化标本的外层壁经常脱落，而暴露其具纹饰的中问壁。

6.The phosphatized remains provide valuable insights into ancient ecosystems.

这些磷酸化的遗骸为古代生态系统提供了宝贵的见解。

7.In the lab, scientists can artificially phosphatize organic materials for study.

在实验室里，科学家可以人为地磷酸化有机材料以供研究。

8.The process of phosphatization is crucial for fossil preservation.

对于化石保存来说，磷酸化的过程至关重要。

9.The fossils were found in a layer of sediment that had been phosphatized.

这些化石发现于一层已经磷酸化的沉积物中。

10.Researchers discovered that the bones had been phosphatized, preserving their structure remarkably well.

研究人员发现这些骨骼已经被磷酸化，其结构保存得非常完好。

作文

The process of fossilization is a fascinating subject that encompasses various chemical and biological transformations. One of the key processes involved in the preservation of organic materials is known as phosphatized, which refers to the incorporation of phosphate minerals into the structure of the remains. This process can significantly enhance the durability and longevity of fossils, allowing them to survive for millions of years. Understanding how organisms become phosphatized is crucial for paleontologists who seek to uncover the history of life on Earth.Phosphatization typically occurs in environments rich in phosphates, such as marine settings where organic matter accumulates. When an organism dies, its soft tissues often decompose quickly, but under certain conditions, the hard parts, like bones and shells, can be preserved. During the phosphatized process, phosphate ions from the surrounding sediment infiltrate the organic material and replace some of the original components. This mineralization not only protects the fossil from decay but also creates a detailed record of the organism's structure.One notable example of phosphatized fossils can be found in the Burgess Shale, a famous fossil site in Canada. The exceptional preservation of soft-bodied organisms in this location is attributed to the rapid burial in anoxic conditions, coupled with the presence of phosphates. The resulting fossils provide invaluable insights into the Cambrian explosion, a period characterized by a rapid diversification of life forms. By studying phosphatized specimens from Burgess Shale, scientists have been able to reconstruct ancient ecosystems and understand evolutionary processes.Moreover, the study of phosphatized fossils extends beyond mere curiosity; it has practical implications for fields such as paleobiology and geology. For instance, understanding the conditions that lead to phosphatization can help researchers locate new fossil sites or interpret geological records more accurately. In addition, the chemical analysis of phosphatized remains can yield information about the environmental conditions at the time of deposition, including temperature, salinity, and nutrient availability.In conclusion, the concept of phosphatized remains is a vital aspect of paleontological research. It illustrates the intricate relationship between chemistry and biology in the fossilization process. As we continue to explore the depths of our planet's history, the study of phosphatized fossils will undoubtedly play a crucial role in unraveling the mysteries of ancient life. Through ongoing research and technological advancements, we can expect to gain even more knowledge about how life has evolved over time and how these processes are reflected in the geological record. The significance of phosphatized fossils cannot be overstated, as they serve as a bridge connecting us to the distant past, revealing the stories of organisms that once roamed the Earth.

化石化的过程是一个迷人的主题，涉及各种化学和生物转化。保存有机材料的关键过程之一被称为phosphatized，指的是磷酸盐矿物质被纳入遗骸结构的过程。这个过程可以显著增强化石的耐久性和长久性，使它们能够存活数百万年。理解生物如何变得phosphatized对于寻求揭示地球生命历史的古生物学家至关重要。磷酸盐化通常发生在富含磷酸盐的环境中，例如有机物积累的海洋环境。当一个生物体死亡时，其软组织通常会迅速分解，但在某些条件下，硬部分如骨骼和贝壳可以被保存下来。在phosphatized过程中，来自周围沉积物的磷酸盐离子渗透到有机材料中，并取代一些原始成分。这种矿化不仅保护化石免于腐烂，还创建了有机体结构的详细记录。一个显著的phosphatized化石例子可以在加拿大著名的化石遗址——伯吉斯页岩中找到。该地点软体生物的卓越保存归因于无氧条件下的快速埋藏，以及磷酸盐的存在。从伯吉斯页岩研究phosphatized标本，科学家们能够重建古代生态系统并理解进化过程。此外，phosphatized化石的研究不仅仅是出于好奇，它对古生物学和地质学等领域具有实际意义。例如，理解导致磷酸盐化的条件可以帮助研究人员定位新的化石遗址或更准确地解释地质记录。此外，对phosphatized遗骸的化学分析可以提供关于沉积时环境条件的信息，包括温度、盐度和营养物质的可用性。总之，phosphatized遗骸的概念是古生物学研究的重要方面。它展示了化学与生物之间在化石化过程中的复杂关系。随着我们继续探索地球历史的深度，phosphatized化石的研究无疑将在揭示古代生命的奥秘中发挥关键作用。通过持续的研究和技术进步，我们可以期待获得更多关于生命如何随着时间演变以及这些过程如何反映在地质记录中的知识。phosphatized化石的重要性不容小觑，因为它们作为连接我们与遥远过去的桥梁，揭示了曾经在地球上漫游的生物的故事。