limnological

简明释义

英[lɪm.nəˈlɒɡ.ɪ.kəl]美[lɪm.nəˈlɑː.ɡɪ.kəl]

adj. 湖沼学的，湖泊学的

英英释义

单词用法

同义词

反义词

例句

1.The water level's raise of limnological region may be dangerous for bamboos' growing which also means that pandas who have bamboo as their food would be in danger.

湖区水位提高可能要危及竹子的生长。这意味着以竹子为食物的大熊猫也将受到威胁。

2.The method shown in this paper could be a new way to analyze the paleocurrent in paleo-limnological delta and will provide new scientific data to serve the petroleum exploration.

沉积物磁各向异性的研究方法本身也为古湖泊三角洲流向分析提供了新手段，为油气勘探的深化提供了新的科学依据。

3.The method shown in this paper could be a new way to analyze the paleocurrent in paleo-limnological delta and will provide new scientific data to serve the petroleum exploration.

沉积物磁各向异性的研究方法本身也为古湖泊三角洲流向分析提供了新手段，为油气勘探的深化提供了新的科学依据。

4.Heituhu formation is gray and gray-black silty clay with limnological facies in early and middle period of Holocene, and bearing lots of spiral case;

黑土湖组为全新世早—中期湖沼相沉积的灰—灰黑色粘土类粉砂质粘土，含大量淡水螺蚌介壳；

5.Understanding the limnological 湖泊学的 characteristics of this lake is crucial for conservation efforts.

了解这个湖泊的湖泊学的特征对于保护工作至关重要。

6.The university offers a course focused on limnological 湖泊学的 studies, including water quality and ecosystem dynamics.

该大学提供一门专注于湖泊学的课程，包括水质和生态系统动态。

7.The research team conducted a comprehensive study on the limnological 湖泊学的 aspects of the local river system.

研究小组对当地河流系统的湖泊学的各个方面进行了全面研究。

8.The conference featured several talks on limnological 湖泊学的 research methods and findings.

会议上有几场关于湖泊学的研究方法和发现的演讲。

9.Her thesis explored the limnological 湖泊学的 impacts of urban development on freshwater ecosystems.

她的论文探讨了城市发展对淡水生态系统的湖泊学的影响。

作文

The study of freshwater ecosystems is a vital area of research that encompasses various disciplines, including biology, chemistry, and environmental science. One specific aspect of this field is what is known as limnological (湖泊学的) research, which focuses on the characteristics and dynamics of inland water bodies such as lakes, rivers, and wetlands. Understanding these ecosystems is crucial for several reasons, ranging from biodiversity conservation to water resource management. Firstly, limnological (湖泊学的) studies provide insights into the biological communities that inhabit freshwater environments. These ecosystems are home to a diverse array of organisms, including fish, amphibians, insects, and various plant species. By examining the interactions between these organisms, scientists can assess the health of the ecosystem and identify potential threats, such as pollution or invasive species. For instance, the presence of certain algae can indicate nutrient overloads in water bodies, which may lead to harmful algal blooms that threaten aquatic life and human health.Moreover, limnological (湖泊学的) research plays a significant role in understanding the chemical properties of freshwater. Water chemistry is influenced by various factors, including land use, climate change, and human activities. Regular monitoring of water quality parameters such as pH, dissolved oxygen, and nutrient levels helps researchers detect changes over time. This data is essential for managing freshwater resources effectively, ensuring that they remain safe for drinking, recreation, and wildlife habitats.In addition to biological and chemical aspects, limnological (湖泊学的) studies also encompass physical characteristics of water bodies, such as temperature, flow patterns, and sediment dynamics. These physical factors influence not only the habitat conditions for aquatic organisms but also the overall functioning of the ecosystem. For example, temperature variations can affect the breeding cycles of fish, while sediment transport can impact the clarity of water and the availability of nutrients.As climate change continues to alter global weather patterns, limnological (湖泊学的) research becomes increasingly important. Changes in precipitation and temperature can lead to shifts in the hydrology of lakes and rivers, affecting everything from water levels to species distributions. Understanding these changes is critical for developing adaptive management strategies that can help mitigate the impacts of climate change on freshwater ecosystems.Furthermore, the knowledge gained from limnological (湖泊学的) studies can inform policy decisions related to water management and conservation efforts. Policymakers rely on scientific data to create regulations that protect water quality and ensure sustainable use of freshwater resources. Effective management practices, informed by limnological (湖泊学的) research, can help balance the needs of various stakeholders, including local communities, industries, and conservationists.In conclusion, limnological (湖泊学的) research is essential for understanding the complexities of freshwater ecosystems. By integrating biological, chemical, and physical perspectives, scientists can gain a comprehensive understanding of these vital resources. As we face increasing environmental challenges, the insights provided by limnological (湖泊学的) studies will be crucial for promoting sustainable management and conservation of our precious freshwater ecosystems.

对淡水生态系统的研究是一个重要的研究领域，涵盖了生物学、化学和环境科学等多个学科。这个领域的一个具体方面被称为limnological（湖泊学的）研究，专注于内陆水体（如湖泊、河流和湿地）的特征和动态。理解这些生态系统至关重要，原因有很多，从生物多样性保护到水资源管理。首先，limnological（湖泊学的）研究提供了对栖息在淡水环境中的生物群落的洞察。这些生态系统是多种生物的家园，包括鱼类、两栖动物、昆虫和各种植物种类。通过考察这些生物之间的相互作用，科学家可以评估生态系统的健康状况，并识别潜在的威胁，例如污染或外来物种。例如，某些藻类的存在可以表明水体中的营养物质过量，这可能导致有害的藻类繁殖，威胁水生生命和人类健康。此外，limnological（湖泊学的）研究在理解淡水的化学特性方面也发挥着重要作用。水化学受到多种因素的影响，包括土地使用、气候变化和人类活动。定期监测水质参数，如pH值、溶解氧和营养水平，有助于研究人员检测随时间变化的情况。这些数据对有效管理淡水资源至关重要，确保它们在饮用、娱乐和野生动物栖息地方面保持安全。除了生物和化学方面，limnological（湖泊学的）研究还包括水体的物理特性，如温度、流动模式和沉积物动态。这些物理因素不仅影响水生生物的栖息条件，还影响生态系统的整体功能。例如，温度变化可能影响鱼类的繁殖周期，而沉积物运输可能影响水的清澈度和营养物质的可用性。随着气候变化持续改变全球天气模式，limnological（湖泊学的）研究变得愈发重要。降水和温度的变化可能导致湖泊和河流的水文变化，影响从水位到物种分布的方方面面。理解这些变化对于制定适应性管理策略至关重要，这些策略可以帮助减轻气候变化对淡水生态系统的影响。此外，从limnological（湖泊学的）研究中获得的知识可以为与水管理和保护工作相关的政策决策提供信息。政策制定者依赖科学数据来制定保护水质和确保可持续利用淡水资源的法规。通过limnological（湖泊学的）研究提供的信息，制定有效的管理实践可以帮助平衡地方社区、工业和保护主义者等各方利益相关者的需求。总之，limnological（湖泊学的）研究对理解淡水生态系统的复杂性至关重要。通过整合生物、化学和物理的视角，科学家可以全面了解这些重要资源。面对日益严峻的环境挑战，limnological（湖泊学的）研究所提供的见解将对促进我们珍贵淡水生态系统的可持续管理和保护至关重要。