halogenoid
简明释义
英[/ˌhæloʊˈɡɛnɔɪd/]美[/ˌhæloʊˈɡɛnɔɪd/]
n. 类卤基
英英释义
A term referring to a group of marine organisms that exhibit characteristics similar to those of halogens, particularly in their chemical properties or behavior. | 指一组海洋生物,表现出类似卤素的特征,特别是在其化学性质或行为方面。 |
单词用法
同义词
| 卤素化的 | Halogenated compounds are often used in industrial applications. | 卤素化合物常用于工业应用。 | |
| 氯化的 | 氯化溶剂在清洁产品中很常见。 | ||
| 氟化的 | Fluorinated gases have a significant impact on climate change. | 氟化气体对气候变化有显著影响。 |
反义词
| 非卤素化的 | Non-halogenated compounds are often used in environmentally friendly applications. | 非卤素化化合物常用于环保应用。 | |
| 烷烃 | Alkanes are saturated hydrocarbons that do not contain halogens. | 烷烃是饱和烃,不含卤素。 |
例句
1.The results indicated that the single toxicity of the six halophenols enhanced with the increasing of the halogenoid atoms;
结果表明:单一卤代酚的生物毒性随着卤素原子数目在化合物中的增多呈增强趋势;
2.The results indicated that the single toxicity of the six halophenols enhanced with the increasing of the halogenoid atoms;
结果表明:单一卤代酚的生物毒性随着卤素原子数目在化合物中的增多呈增强趋势;
3.The research team discovered a new species of fish that exhibited halogenoid 卤素类的 characteristics.
研究小组发现了一种新的鱼类,表现出halogenoid 卤素类的特征。
4.Researchers are investigating the effects of halogenoid 卤素类的 pollutants on marine life.
研究人员正在调查halogenoid 卤素类的污染物对海洋生物的影响。
5.The chemist explained how halogenoid 卤素类的 compounds can affect water quality.
化学家解释了halogenoid 卤素类的化合物如何影响水质。
6.In the study of marine biology, halogenoid 卤素类的 organisms play a crucial role in the ecosystem.
在海洋生物学的研究中,halogenoid 卤素类的生物在生态系统中起着至关重要的作用。
7.The unique adaptations of halogenoid 卤素类的 species allow them to thrive in extreme environments.
这些halogenoid 卤素类的物种的独特适应能力使它们能够在极端环境中生存。
作文
In the realm of biology, particularly in the study of fish, the term halogenoid refers to a specific group of species that possess unique adaptations for living in saline environments. These adaptations are crucial for their survival and reproduction in habitats such as estuaries and coastal waters. Understanding the characteristics of halogenoid species provides insight into the broader ecological dynamics of aquatic ecosystems. The term itself is derived from Greek roots, where 'halo' means salt and 'geno' refers to origin or kind. This etymology highlights the essential nature of these organisms, which thrive in conditions that would be hostile to many other species. For instance, halogenoid fish have specialized gills that allow them to regulate salt concentrations in their bodies, enabling them to maintain osmotic balance despite the high salinity of their surroundings.One fascinating example of a halogenoid species is the mullet, which can often be found swimming in both freshwater and saltwater. Their ability to adapt to varying salinity levels showcases the evolutionary resilience of halogenoid fish. These adaptations not only allow them to survive but also to exploit a wider range of habitats, giving them a competitive edge in the ecosystem.Moreover, the study of halogenoid species contributes to our understanding of biodiversity and the impacts of environmental changes. As climate change continues to affect ocean salinity and temperature, monitoring halogenoid populations can serve as an indicator of ecological health. Researchers often look at the distribution and abundance of these fish to gauge the overall state of marine ecosystems.In addition to their ecological significance, halogenoid fish also hold economic importance. Many of these species are commercially fished, providing livelihoods for communities around the world. Sustainable management of halogenoid fisheries is crucial to ensure that these resources are available for future generations. Overfishing and habitat degradation pose significant threats to their populations, making conservation efforts imperative.In conclusion, the term halogenoid encapsulates a fascinating aspect of marine biology, emphasizing the adaptability and resilience of certain fish species in saline environments. By studying these organisms, we gain valuable insights into ecological dynamics, the impacts of climate change, and the importance of sustainable fisheries. The continued research on halogenoid species will undoubtedly enhance our understanding of marine ecosystems and contribute to their preservation for years to come.
在生物学的领域,特别是在鱼类研究中,术语halogenoid指的是一组特定的物种,这些物种具有独特的适应能力,可以在盐水环境中生存。这些适应对于它们在河口和沿海水域等栖息地的生存和繁殖至关重要。理解halogenoid物种的特征可以为我们提供关于水生生态系统更广泛生态动态的见解。这个术语本身源自希腊语,其中“halo”意为盐,“geno”指的是起源或种类。这种词源突出了这些生物的基本性质,它们在对许多其他物种来说可能是敌对的条件下茁壮成长。例如,halogenoid鱼类具有特殊的鳃,能够调节体内的盐浓度,使它们能够在高盐度的环境中维持渗透平衡。一个有趣的halogenoid物种例子是鲻鱼,它们常常在淡水和盐水中游泳。它们适应不同盐度水平的能力展示了halogenoid鱼类的进化韧性。这些适应不仅使它们能够生存,还让它们能够利用更广泛的栖息地,从而在生态系统中获得竞争优势。此外,对halogenoid物种的研究有助于我们理解生物多样性和环境变化的影响。随着气候变化继续影响海洋的盐度和温度,监测halogenoid种群可以作为生态健康的指标。研究人员通常会观察这些鱼类的分布和丰度,以评估海洋生态系统的整体状态。除了生态重要性外,halogenoid鱼类也具有经济重要性。这些物种中的许多都是商业捕捞的对象,为全球各地的社区提供生计。可持续管理halogenoid渔业对于确保这些资源在未来几代人中可用至关重要。过度捕捞和栖息地退化对其种群构成了重大威胁,因此保护工作势在必行。总之,术语halogenoid概括了海洋生物学的一个迷人方面,强调了某些鱼类在盐水环境中的适应性和韧性。通过研究这些生物,我们获得了对生态动态、气候变化影响以及可持续渔业重要性的宝贵见解。对halogenoid物种的持续研究无疑将增强我们对海洋生态系统的理解,并为它们的保护做出贡献,确保这些生态系统在未来的岁月中得以保存。
