chlorinity

简明释义

英[klɔːˈrɪnətɪ]美[klɔrˈɪnɪti;klorˈɪnɪti]

n. [海洋] 氯度，含氯量

英英释义

单词用法

同义词

反义词

例句

1.The number of species and total individuals of zooplankton decrease with the increasing chlorinity from the upper to the lower reach.

因此，所获浮游动物中，多数优势种类是广盐性种类。而且，从上游至下游各站位的种类数和个体数随着氯度的增高而减少。

2.The number of species and total individuals of zooplankton decrease with the increasing chlorinity from the upper to the lower reach.

因此，所获浮游动物中，多数优势种类是广盐性种类。而且，从上游至下游各站位的种类数和个体数随着氯度的增高而减少。

3.Some advice regarding chlorinity expressing measure and assessment method in the chloride ion permeability test is proposed.

并对混凝土氯离子渗透性试验的氯离子浓度表示和评价方法提出建议。

4.The relation between the chlorinity and porosity may be approximated by a hyperbola.

含氯量和孔隙度之间的关系图式也许近似于一条双曲线。

5.The chlorine log was originally sensitive to shales but a shale-compensated chlorinity log is now available.

最初的氯测井对泥岩较为敏感，现在可以使用一种补偿泥岩氯测井方法。

6.High chlorinity can affect marine life, making it crucial to monitor these levels regularly.

高氯度会影响海洋生物，因此定期监测这些水平至关重要。

7.The chlorinity of the aquarium water needs to be adjusted to ensure the health of the fish.

水族箱水的氯度需要调整以确保鱼的健康。

8.Scientists have found a direct correlation between chlorinity and the distribution of certain fish species.

科学家发现氯度与某些鱼类分布之间存在直接关联。

9.The researchers measured the chlorinity to determine the salinity levels in the coastal waters.

研究人员测量了氯度以确定沿海水域的盐度水平。

10.To maintain optimal conditions, the chlorinity in the laboratory tanks must be carefully controlled.

为了保持最佳条件，实验室水箱中的氯度必须被仔细控制。

作文

Chlorinity is a term that refers to the concentration of chloride ions in seawater or other water bodies. It is an important parameter in oceanography and marine science because it helps scientists understand the salinity and overall composition of seawater. Salinity, which is the total concentration of dissolved salts in water, is influenced significantly by the levels of chlorinity. In essence, chlorinity can be seen as a specific measure that contributes to the broader concept of salinity. The measurement of chlorinity is crucial for various reasons. First, it plays a vital role in determining the physical and chemical properties of seawater. For instance, higher levels of chlorinity typically indicate higher salinity, which affects the density of the water. This density, in turn, influences ocean currents and the distribution of marine life. When scientists study the chlorinity of different regions in the ocean, they can gain insights into how these factors interact with one another.Moreover, chlorinity is also essential for understanding the ecological dynamics of marine environments. Different species of fish and other marine organisms have varying tolerances to salinity levels. By measuring chlorinity, researchers can predict which species are likely to thrive in certain areas based on the water's chemical composition. This information is particularly important for fisheries management and conservation efforts, as it helps ensure sustainable practices that protect marine biodiversity.In addition to its ecological significance, chlorinity has implications for climate studies as well. The ocean acts as a carbon sink, absorbing large amounts of carbon dioxide from the atmosphere. The efficiency of this process can be affected by changes in chlorinity and salinity. For instance, variations in these parameters can influence the biological pump, a process where carbon is transported from the surface waters to the deep ocean through the sinking of organic matter. Understanding chlorinity thus aids in comprehending the ocean's role in regulating climate change.Furthermore, chlorinity is measured using various methods, including titration and conductivity measurements. These methods allow scientists to obtain accurate readings of chloride concentrations, which can then be used to calculate salinity levels. Regular monitoring of chlorinity in coastal and open ocean waters is essential for tracking changes over time, especially in the face of global climate change and human activities that impact marine environments.In conclusion, chlorinity (氯度) is a fundamental aspect of marine science that provides valuable insights into the composition and dynamics of seawater. Its measurement is crucial for understanding not only the physical and chemical properties of the ocean but also the ecological and climatic implications associated with it. As we continue to explore and study our oceans, the importance of chlorinity (氯度) will remain a key focus for researchers aiming to protect and sustain our marine ecosystems.

氯度是一个术语，指的是海水或其他水体中氯离子的浓度。它是海洋学和海洋科学中的一个重要参数，因为它帮助科学家理解海水的盐度和整体成分。盐度，即水中溶解盐的总浓度，受到氯度水平的显著影响。从本质上讲，氯度可以视为一个特定的测量，贡献于更广泛的盐度概念。氯度的测量至关重要，原因有很多。首先，它在确定海水的物理和化学性质方面发挥着重要作用。例如，较高的氯度通常表明较高的盐度，这会影响水的密度。这种密度反过来又影响海洋洋流和海洋生物的分布。当科学家研究海洋中不同区域的氯度时，他们可以深入了解这些因素之间的相互作用。此外，氯度对于理解海洋环境的生态动态也至关重要。不同种类的鱼类和其他海洋生物对盐度水平的耐受性各不相同。通过测量氯度，研究人员可以预测哪些物种可能在某些区域繁荣，基于水的化学成分。这些信息对于渔业管理和保护工作尤为重要，因为它有助于确保可持续的做法，以保护海洋生物多样性。除了生态意义外，氯度还对气候研究有影响。海洋作为碳汇，吸收大量来自大气的二氧化碳。这个过程的效率可能会受到氯度和盐度变化的影响。例如，这些参数的变化可能会影响生物泵的过程，即通过有机物沉降将碳从表层水运输到深海。理解氯度因此有助于理解海洋在调节气候变化中的角色。此外，氯度采用多种方法进行测量，包括滴定法和电导率测量。这些方法使科学家能够获得氯离子浓度的准确读数，这些读数随后可以用来计算盐度水平。定期监测沿海和公海水域的氯度对于跟踪随着时间推移的变化至关重要，尤其是在全球气候变化和人类活动影响海洋环境的背景下。总之，chlorinity（氯度）是海洋科学的一个基本方面，为理解海水的组成和动态提供了宝贵的见解。其测量对于理解海洋的物理和化学性质，以及与之相关的生态和气候影响至关重要。随着我们继续探索和研究我们的海洋，chlorinity（氯度）的重要性将始终是研究人员旨在保护和维持海洋生态系统的关键焦点。