hydrobiology

简明释义

英[ˌhaɪdrəʊbaɪˈɒlədʒi]美[ˈhaɪdroʊbaɪˈɑːlədʒi]

n. 流体生物学，水生生物学

英英释义

单词用法

同义词

反义词

例句

1.A team of marine-life scholars led by Wang Ding, a scientist at China's Institute of Hydrobiology, examined digital video footage recently taken along the eastern section of the Yangtze River.

一支以王玎(中国水生生物学研究所的科学家)为领导的由海洋生物学者组成的专家组最近对一部拍摄于长江东部流域的数字电视录象带进行了审核。

2.The hydrobiology status in pond with died fish and live fish is analyzed through massive investigation of died fish accident in surrounded pond in Longxue island, Nansha.

对广州番禺南沙龙穴岛大面积基围鱼塘死鱼事件进行调查，分析了死鱼鱼塘和未死鱼鱼塘的水生生物状况。

3.A team of marine-life scholars led by Wang Ding, a scientist at China's Institute of Hydrobiology, examined digital video footage recently taken along the eastern section of the Yangtze River.

一支以王玎(中国水生生物学研究所的科学家)为领导的由海洋生物学者组成的专家组最近对一部拍摄于长江东部流域的数字电视录象带进行了审核。

4.Students studying hydrobiology (水生生物学) may conduct experiments on algae growth in different water conditions.

学习水生生物学的学生可能会在不同水条件下进行藻类生长实验。

5.The conference on hydrobiology (水生生物学) attracted scientists from around the world.

关于水生生物学的会议吸引了来自世界各地的科学家。

6.Researchers in hydrobiology (水生生物学) often focus on the impact of pollution on fish populations.

从事水生生物学的研究人员通常关注污染对鱼类种群的影响。

7.The study of aquatic ecosystems falls under the field of hydrobiology (水生生物学).

水生生态系统的研究属于水生生物学这一领域。

8.Understanding the principles of hydrobiology (水生生物学) is crucial for effective water resource management.

理解水生生物学的原则对于有效的水资源管理至关重要。

作文

Hydrobiology is a fascinating field of study that focuses on the biological aspects of aquatic environments. It encompasses various disciplines, including ecology, zoology, and botany, all aimed at understanding life in water bodies such as rivers, lakes, and oceans. The importance of hydrobiology (水生生物学) cannot be overstated, especially in our rapidly changing world where freshwater and marine ecosystems are under threat from pollution, climate change, and overexploitation. One of the primary goals of hydrobiology (水生生物学) is to assess the health of aquatic ecosystems. Scientists in this field conduct research to monitor the biodiversity of aquatic organisms, including fish, amphibians, invertebrates, and plant life. By studying these organisms, hydrobiologists can gain insights into the ecological balance of aquatic habitats and identify any changes that may indicate environmental stressors. For example, a decline in fish populations may signal problems such as habitat degradation or water quality issues. Moreover, hydrobiology (水生生物学) plays a crucial role in conservation efforts. Understanding the life cycles and habitats of aquatic species is essential for developing effective management strategies. Hydrobiologists often collaborate with conservation organizations and governmental agencies to create policies that protect vulnerable species and restore degraded habitats. This collaboration is vital for maintaining biodiversity and ensuring that future generations can enjoy healthy aquatic ecosystems. In addition to conservation, hydrobiology (水生生物学) also contributes to our understanding of global issues such as climate change. Aquatic ecosystems are among the first to respond to environmental changes, making them valuable indicators of overall ecosystem health. By studying how aquatic organisms react to temperature fluctuations, altered salinity levels, and changing nutrient dynamics, researchers can predict potential impacts on broader ecological systems. This research is crucial for developing strategies to mitigate the effects of climate change on both aquatic and terrestrial environments. Furthermore, hydrobiology (水生生物学) has significant implications for human health and well-being. Freshwater resources are vital for drinking water, agriculture, and industry. Understanding the biology of aquatic ecosystems helps ensure that these resources remain safe and sustainable. Hydrobiologists study the effects of pollutants on aquatic life and, by extension, on human health. For instance, the presence of harmful algal blooms can produce toxins that contaminate drinking water sources, posing serious health risks to communities. In conclusion, hydrobiology (水生生物学) is an essential discipline that bridges the gap between science and environmental stewardship. It provides critical insights into the functioning of aquatic ecosystems and informs conservation efforts that are crucial for preserving biodiversity. As we face unprecedented environmental challenges, the work of hydrobiologists will be vital in ensuring the health of our planet's water bodies. By investing in research and conservation initiatives, we can safeguard these precious ecosystems for future generations.

水生生物学是一个迷人的研究领域，专注于水生环境的生物学方面。它涵盖了多个学科，包括生态学、动物学和植物学，旨在理解河流、湖泊和海洋等水体中的生命。水生生物学的重要性不言而喻，尤其是在我们这个快速变化的世界中，淡水和海洋生态系统正受到污染、气候变化和过度开发的威胁。水生生物学的主要目标之一是评估水生生态系统的健康。该领域的科学家进行研究，以监测水生生物的生物多样性，包括鱼类、两栖动物、无脊椎动物和植物生命。通过研究这些生物，水生生物学家可以深入了解水生栖息地的生态平衡，并识别任何可能表明环境压力的变化。例如，鱼类种群的下降可能表明栖息地退化或水质问题。此外，水生生物学在保护工作中也发挥着至关重要的作用。了解水生物种的生命周期和栖息地对于制定有效的管理策略至关重要。水生生物学家通常与保护组织和政府机构合作，制定保护脆弱物种和恢复退化栖息地的政策。这种合作对于维持生物多样性和确保未来几代人能够享受健康的水生生态系统至关重要。除了保护，水生生物学还帮助我们理解气候变化等全球性问题。水生生态系统是对环境变化反应最迅速的生态系统之一，使其成为整体生态系统健康的宝贵指标。通过研究水生生物如何对温度波动、盐度变化和养分动态变化作出反应，研究人员可以预测对更广泛生态系统的潜在影响。这项研究对于制定减缓气候变化对水生和陆地环境影响的策略至关重要。此外，水生生物学对人类健康和福祉也有重要意义。淡水资源对于饮用水、农业和工业至关重要。理解水生生态系统的生物学有助于确保这些资源保持安全和可持续。水生生物学家研究污染物对水生生命的影响，从而间接影响人类健康。例如，有害藻华的存在可能产生污染饮用水源的毒素，对社区构成严重健康风险。总之，水生生物学是一个重要的学科，它架起了科学与环境管理之间的桥梁。它提供了对水生生态系统功能的关键见解，并为保护努力提供信息，这对保护生物多样性至关重要。面对前所未有的环境挑战，水生生物学家的工作将在确保我们星球水体的健康方面发挥重要作用。通过投资于研究和保护倡议，我们可以为未来几代人保护这些珍贵的生态系统。