hypersaline

简明释义

英[/ˌhaɪpərˈseɪlaɪn/]美[/ˌhaɪpərˈseɪlaɪn/]

adj. 超盐性的；超盐度的；超盐的；高盐的

英英释义

单词用法

同义词

反义词

例句

1.In this paper, the effect of salinity on biological system, biological feature and treatment performance in the hypersaline system are reviewed. Meanwhile, difficulties faced are also pointed out.

本文从盐度对生物系统的影响、高盐系统生物相特征、系统处理性能几方面对生物处理高盐有机废水研究现状进行了概述，并指出所面临的问题。

2.In this paper, the effect of salinity on biological system, biological feature and treatment performance in the hypersaline system are reviewed. Meanwhile, difficulties faced are also pointed out.

本文从盐度对生物系统的影响、高盐系统生物相特征、系统处理性能几方面对生物处理高盐有机废水研究现状进行了概述，并指出所面临的问题。

3.But over the past decade, scientists in Italy and Denmark sent three expeditions to fetch samples from sediment in what's known as a deep hypersaline anoxic basin in the Mediterranean.

但在过去的十年当中，意大利和丹麦的科学家派出过三组探险队前往地中海，从地中海盆地那众所周知的高盐缺氧沉积物中采集样本。

4.Colored deep red by algae adapted to survive in its hypersaline waters, this lake in the Ubari Sand Sea is fed by springs from an underground aquifer created by ancient rains.

这个奥巴里沙海中的湖被适于在高盐度水中生存的藻类染成了深红色，水源来自远古雨水形成的地下含水层的泉水。

5.Over the last decades, many researches were focused on biological treatment of hypersaline organic wastewater.

近几十年，许多研究致力于生物法处理高盐有机废水。

6.The adaptation of saline habitat Born in hypersaline environment mangroves, faced with two questions.

对盐渍生境的适应红树林生于高盐度的环境，面临着两个问题。

7.The bloom began following a period of extended drought, which caused hypersaline conditions.

花开开端经过一段时间的延伸，招致干旱与高盐环境伴生。

8.Halophilic archaea had been isolated from various hypersaline environments.

嗜盐古菌是一类生活在高盐环境中的古细菌。

9.The hypersaline 高盐度的 lakes in this region support unique ecosystems.

这个地区的高盐度的湖泊支持着独特的生态系统。

10.Researchers are studying the hypersaline 高盐度的 conditions of the Dead Sea.

研究人员正在研究死海的高盐度的环境。

11.Certain microorganisms thrive in hypersaline 高盐度的 environments, making them ideal for biotechnological applications.

某些微生物在高盐度的环境中繁衍生息，使它们成为生物技术应用的理想选择。

12.The hypersaline 高盐度的 marshes provide critical habitat for migratory birds.

这些高盐度的沼泽为候鸟提供了重要栖息地。

13.Salt production often occurs in hypersaline 高盐度的 ponds.

盐的生产通常发生在高盐度的池塘中。

作文

The world is home to a variety of ecosystems, each uniquely adapted to its environment. Among these, one of the most fascinating types is that of hypersaline environments. These areas, characterized by their extremely high salt concentrations, can be found in places such as salt flats, certain coastal lagoons, and even some inland lakes. The term hypersaline refers to water bodies that have a salinity greater than that of seawater, often exceeding three times the salt content of the ocean. This extreme salinity creates unique challenges for life forms that inhabit these waters. In hypersaline environments, the high salt concentration limits the types of organisms that can survive. Most aquatic life struggles to thrive in such conditions; however, some microorganisms, known as halophiles, have adapted remarkably well. These organisms not only survive but flourish in hypersaline waters, utilizing specialized mechanisms to manage the osmotic pressures that would otherwise dehydrate them. The study of these halophiles has provided scientists with insights into the limits of life on Earth and the potential for life on other planets with similar extreme conditions. One notable example of a hypersaline environment is the Great Salt Lake in Utah, USA. This lake is known for its high salinity levels, which can fluctuate dramatically due to evaporation and varying inflow of freshwater. The lake supports a unique ecosystem, including brine shrimp and various bird species that depend on the lake's nutrient-rich waters. The presence of such life in a hypersaline habitat highlights the resilience of nature and the adaptability of organisms to extreme conditions. Another interesting aspect of hypersaline environments is their economic and scientific importance. Many hypersaline lakes are rich in minerals, particularly salts like sodium chloride, potassium, and magnesium. These resources are harvested for various industrial applications, from food production to chemical manufacturing. Additionally, researchers study hypersaline environments to better understand biogeochemical cycles and the role of extremophiles in ecological systems. However, hypersaline environments are also sensitive to human activities. Pollution, climate change, and water diversion can significantly impact these delicate ecosystems. For instance, the drying up of the Aral Sea, once one of the largest lakes in the world, has led to increased salinity and the collapse of local fisheries, devastating the communities that depended on them. Protecting hypersaline environments is crucial, not only for the organisms that live there but also for maintaining biodiversity and ecological balance. In conclusion, hypersaline environments are remarkable examples of nature's resilience and adaptability. They challenge our understanding of life and highlight the importance of preserving such unique ecosystems. As we continue to explore these extreme habitats, we uncover valuable knowledge that could inform conservation efforts and enhance our understanding of life on Earth and beyond. The study of hypersaline environments reminds us of the intricate connections between organisms and their habitats, urging us to protect the diverse forms of life that share our planet.

世界上有多种生态系统，每种生态系统都独特地适应其环境。在这些生态系统中，最迷人的类型之一是高盐度环境。这些区域的特点是盐浓度极高，可以在盐滩、某些沿海潟湖甚至一些内陆湖泊中找到。术语高盐度指的是盐度超过海水的水体，通常超过海洋盐分的三倍。这种极端的盐度为生存于这些水域的生物带来了独特的挑战。 在高盐度环境中，高盐浓度限制了能够生存的生物类型。大多数水生生物很难在这样的条件下生存；然而，一些微生物，称为嗜盐菌，已经适应得相当不错。这些生物不仅能够生存，还能在高盐度水域中繁荣，利用特殊机制来管理否则会使它们脱水的渗透压力。对这些嗜盐菌的研究为科学家提供了关于地球生命极限以及在类似极端条件下其他星球上生命潜力的见解。 一个显著的高盐度环境例子是美国犹他州的大盐湖。这个湖因其高盐度水平而闻名，这些水平由于蒸发和淡水流入的变化而剧烈波动。该湖支持着一个独特的生态系统，包括盐水虾和依赖湖中富营养水域的各种鸟类。如此环境中的生命存在突显了自然的韧性和生物适应极端条件的能力。 高盐度环境的另一个有趣方面是它们的经济和科学重要性。许多高盐度湖泊富含矿物质，特别是氯化钠、钾和镁等盐。这些资源被用于各种工业应用，从食品生产到化学制造。此外，研究人员研究高盐度环境，以更好地理解生物地球化学循环和极端生物在生态系统中的作用。 然而，高盐度环境也对人类活动敏感。污染、气候变化和水资源转移会显著影响这些脆弱的生态系统。例如，曾经是世界上最大的湖泊之一的咸海的干涸导致盐度增加和当地渔业的崩溃，给依赖这些渔业的社区带来了毁灭性的影响。保护高盐度环境至关重要，不仅是为了生活在其中的生物，也是为了维持生物多样性和生态平衡。 总之，高盐度环境是自然韧性和适应性的令人惊叹的例子。它们挑战着我们对生命的理解，并强调保护这些独特生态系统的重要性。随着我们继续探索这些极端栖息地，我们发现了宝贵的知识，这些知识可以为保护工作提供信息，并增强我们对地球及其以外生命的理解。对高盐度环境的研究提醒我们生物与栖息地之间的复杂联系，敦促我们保护与我们星球共享的多样生命形式。