concretionary

简明释义

英[kɒnkˈriːʃnəri]美[kɑːnˈkriːʃnəri]

adj. 凝固的；含凝块的；凝固而成的

英英释义

单词用法

同义词

反义词

例句

1.Comparing bacterial cellulose yogurt to common yogurt, the result showed the concretionary state, texture, oral feel and function of bacterial cellulose yogurt could improve greatly.

生产出的细菌纤维素酸奶和普通酸奶相比较，凝固状态、质地、口感以及功能性都有了很大的改善。

2.In very long period of time, I can not sleep well. The darkness resembled the gradually concretionary plaster envelop, sealing me inside.

很长的日子里，我无法入睡，黑暗像渐渐凝固的石膏，把我封印在里面。

3.Comparing bacterial cellulose yogurt to common yogurt, the result showed the concretionary state, texture, oral feel and function of bacterial cellulose yogurt could improve greatly.

生产出的细菌纤维素酸奶和普通酸奶相比较，凝固状态、质地、口感以及功能性都有了很大的改善。

4.The museum displayed fossils with concretionary 结核状的 features, showcasing their unique formation.

博物馆展出了具有结核状的特征的化石，展示了它们独特的形成过程。

5.Researchers found that concretionary 结核状的 structures can help in understanding ancient ecosystems.

研究人员发现，结核状的结构有助于理解古代生态系统。

6.In the study of soil composition, concretionary 结核状的 materials can indicate past biological activity.

在土壤成分的研究中，结核状的材料可以指示过去的生物活动。

7.The geologist noted the presence of concretionary 结核状的 formations in the sedimentary rock.

地质学家注意到沉积岩中存在结核状的构造。

8.The farmer discovered concretionary 结核状的 deposits in his field, which improved soil fertility.

农民在他的田地里发现了结核状的沉积物，这改善了土壤肥力。

作文

In the realm of geology, the term concretionary refers to a specific type of rock formation that occurs when minerals precipitate around a nucleus, gradually accumulating layers over time. This phenomenon can be observed in various environments, from riverbeds to ocean floors. The process is often slow and requires a combination of chemical and physical conditions that favor the precipitation of minerals. Understanding concretionary formations is crucial for geologists, as they can provide valuable insights into the history of the Earth and its geological processes. For instance, when examining sedimentary rocks, one might come across concretionary structures that indicate the past presence of water. These formations often have unique shapes and sizes, making them an interesting subject of study. They can also reveal important information about the mineral composition of the surrounding area, which can help scientists reconstruct ancient environments. Moreover, concretionary formations are not just limited to natural settings; they can also occur in man-made environments. For example, in construction sites where concrete is used, one might find concretionary deposits forming due to the accumulation of cement and aggregates. This can lead to issues such as reduced structural integrity if not addressed properly. Thus, understanding the implications of concretionary formations is essential for engineers and architects as well. In addition to their geological significance, concretionary formations can also have economic implications. Certain types of concretionary rocks, such as those containing valuable minerals like iron or copper, can be mined and processed for commercial use. This makes the study of these formations not only relevant to science but also to industry. Furthermore, the aesthetic value of concretionary formations cannot be overlooked. Many people are fascinated by the unique and often beautiful shapes that these formations take on. They can serve as natural sculptures, attracting tourists and nature enthusiasts alike. This aspect highlights the importance of preserving such geological features, as they contribute to our planet's natural heritage. In conclusion, the study of concretionary formations encompasses a wide range of disciplines, from geology to engineering and even economics. Their formation processes offer insights into the Earth's history, while their practical applications affect various industries. As we continue to explore and understand our planet, recognizing the significance of concretionary structures will undoubtedly enhance our appreciation for the intricate systems that govern our natural world. Whether through scientific inquiry or artistic admiration, the implications of concretionary formations are far-reaching and multifaceted, reminding us of the beauty and complexity of the Earth beneath our feet.

在地质学领域，术语concretionary指的是一种特定类型的岩石形成，当矿物围绕一个核沉淀时，逐渐积累层。这种现象可以在各种环境中观察到，从河床到海底。这个过程通常是缓慢的，需要化学和物理条件的结合，以促进矿物的沉淀。理解concretionary形成对地质学家至关重要，因为它们可以提供有关地球历史和地质过程的宝贵见解。例如，在检查沉积岩时，人们可能会发现concretionary结构，这表明过去存在水。这些形成通常具有独特的形状和大小，使其成为一个有趣的研究对象。它们还可以揭示周围地区的矿物成分的重要信息，这可以帮助科学家重建古代环境。此外，concretionary形成不仅限于自然环境；它们也可以发生在人工环境中。例如，在使用混凝土的建筑工地上，人们可能会发现由于水泥和骨料的积累而形成的concretionary沉积物。如果不妥善处理，这可能会导致结构完整性降低。因此，理解concretionary形成的影响对工程师和建筑师也是至关重要的。除了它们的地质意义外，concretionary形成还可能具有经济意义。某些类型的concretionary岩石，例如那些含有铁或铜等有价值矿物的岩石，可以被开采并加工用于商业用途。这使得对这些形成的研究不仅与科学相关，还与工业相关。此外，concretionary形成的美学价值也不容忽视。许多人对这些形成所呈现的独特且常常美丽的形状感到着迷。它们可以作为自然雕塑，吸引游客和自然爱好者。这一方面突显了保护这些地质特征的重要性，因为它们为我们星球的自然遗产做出了贡献。总之，对concretionary形成的研究涵盖了广泛的学科，从地质学到工程学，甚至经济学。它们的形成过程提供了对地球历史的见解，而它们的实际应用影响着各个行业。随着我们继续探索和理解我们的星球，认识到concretionary结构的重要性无疑会增强我们对支配我们自然世界的复杂系统的欣赏。无论是通过科学探究还是艺术欣赏，concretionary形成的影响都是广泛和多面的，提醒我们脚下的地球的美丽和复杂性。