respirometric

简明释义

英[ˌrespɪrəʊˈmetrɪk]美[ˌrespɪroˈmetrɪk]

adj. 透气性测定的；呼吸运动的

英英释义

单词用法

同义词

反义词

例句

1.For the first time we coupled respirometric and radiotracer techniques to simultaneously measure the rates of oxygen and metal uptake in the green mussel under different environmental conditions.

首次将呼吸计和放射性示踪技术相结合，同时测定同一翡翠贻贝个体在不同条件下的耗氧率和溶解态重金属吸收率。

2.For the first time we coupled respirometric and radiotracer techniques to simultaneously measure the rates of oxygen and metal uptake in the green mussel under different environmental conditions.

首次将呼吸计和放射性示踪技术相结合，同时测定同一翡翠贻贝个体在不同条件下的耗氧率和溶解态重金属吸收率。

3.The researchers conducted a respirometric test to measure the metabolic rate of the cells.

研究人员进行了一个呼吸计量测试，以测量细胞的代谢率。

4.Using respirometric methods, we can assess the oxygen consumption in various organisms.

通过使用呼吸计量方法，我们可以评估各种生物的氧气消耗情况。

5.The respirometric analysis provided insights into the respiratory efficiency of different species.

该呼吸计量分析为不同物种的呼吸效率提供了见解。

6.In the lab, we used respirometric techniques to determine how temperature affects respiration rates.

在实验室中，我们使用呼吸计量技术来确定温度如何影响呼吸速率。

7.The respirometric data indicated a significant increase in carbon dioxide production during the experiment.

该呼吸计量数据表明实验期间二氧化碳产生显著增加。

作文

The study of respiration is crucial in various fields, including biology, medicine, and environmental science. One of the key methods used to measure respiratory activity is through respirometry. This technique allows researchers to assess the metabolic rates of organisms by measuring the amount of oxygen consumed or carbon dioxide produced over time. The term respirometric (呼吸测量的) refers to the specific measurements and calculations involved in this process. By utilizing respirometric methods, scientists can gain insights into how different factors affect respiration, such as temperature, pH, and substrate availability. In ecological studies, respirometric techniques are employed to understand the respiration rates of various species in their natural habitats. For example, aquatic ecologists might use respirometric measurements to evaluate the health of a water body by assessing the respiration of fish and other aquatic organisms. A decline in respiration rates could indicate poor water quality or the presence of pollutants, prompting further investigation. In laboratory settings, respirometric assays are often used to study cellular respiration in microorganisms. By analyzing the oxygen consumption of bacteria or yeast, researchers can determine how these organisms respond to different environmental conditions. This information is vital for understanding metabolic pathways and the energy dynamics within ecosystems. Moreover, respirometric techniques are also applied in clinical settings to monitor patients' respiratory functions. In pulmonary medicine, doctors may use respirometric tests to diagnose conditions such as asthma or chronic obstructive pulmonary disease (COPD). By measuring the respiratory rate and efficiency, healthcare professionals can tailor treatment plans to improve patient outcomes. The importance of respirometric analysis extends to agriculture as well. Farmers and agronomists utilize respirometric data to optimize soil health and crop productivity. By understanding the respiration of soil microorganisms, they can make informed decisions about fertilization and irrigation practices. Healthy soil respiration indicates a thriving microbial community, which is essential for nutrient cycling and plant growth. In summary, the term respirometric (呼吸测量的) encompasses a range of techniques and applications aimed at measuring respiration across various fields. Whether in ecological research, clinical diagnostics, or agricultural practices, respirometric methods provide valuable insights into the metabolic processes that sustain life. As we continue to explore the complexities of respiration, the significance of respirometric analysis will undoubtedly grow, paving the way for advancements in science and medicine. Understanding and mastering the concept of respirometric measurements will enhance our ability to address environmental challenges, improve health outcomes, and promote sustainable practices in agriculture.

呼吸研究在生物学、医学和环境科学等多个领域至关重要。测量呼吸活动的关键方法之一是通过呼吸测量法。该技术允许研究人员通过测量一段时间内消耗的氧气或产生的二氧化碳的量来评估生物体的代谢率。术语respirometric（呼吸测量的）指的是这一过程中的特定测量和计算。通过利用respirometric方法，科学家可以深入了解不同因素如何影响呼吸，例如温度、pH值和底物可用性。 在生态研究中，respirometric技术被用于理解各种物种在其自然栖息地的呼吸速率。例如，水生生态学家可能使用respirometric测量来评估水体的健康状况，通过评估鱼类和其他水生生物的呼吸。如果呼吸速率下降，可能表明水质差或存在污染物，从而促使进一步调查。 在实验室环境中，respirometric测试常用于研究微生物的细胞呼吸。通过分析细菌或酵母的氧气消耗，研究人员可以确定这些生物体如何响应不同的环境条件。这些信息对于理解代谢途径和生态系统内的能量动态至关重要。 此外，respirometric技术也应用于临床设置，以监测患者的呼吸功能。在肺部医学中，医生可能会使用respirometric测试来诊断哮喘或慢性阻塞性肺病（COPD）。通过测量呼吸速率和效率，医疗专业人员可以制定个性化的治疗计划以改善患者的结果。 respirometric分析的重要性还扩展到农业。农民和农艺师利用respirometric数据来优化土壤健康和作物生产力。通过了解土壤微生物的呼吸，他们可以就施肥和灌溉实践做出明智的决策。健康的土壤呼吸表明微生物群落繁荣，这是养分循环和植物生长所必需的。 总之，术语respirometric（呼吸测量的）涵盖了一系列旨在测量各个领域呼吸的技术和应用。无论是在生态研究、临床诊断还是农业实践中，respirometric方法都提供了对维持生命的代谢过程的宝贵见解。随着我们继续探索呼吸的复杂性，respirometric分析的重要性无疑将增长，为科学和医学的进步铺平道路。理解和掌握respirometric测量的概念将增强我们应对环境挑战、改善健康结果和促进农业可持续实践的能力。