eurythermal
简明释义
英[jʊərɪ'θɜːməl]美[ˌjʊrəˈθərməl]
adj. 广温性的
英英释义
Eurythermal refers to organisms that are able to tolerate a wide range of temperatures. | 广温性指的是能够耐受较大温度范围的生物。 |
单词用法
广温鱼类 | |
广温植物 | |
广温栖息地 | |
广温和狭温 | |
广温环境 | |
广温特征 |
同义词
| 嗜热的 | Thermophilic bacteria thrive in high-temperature environments. | 嗜热细菌生长在高温环境中。 | |
| 变温的 | Poikilothermic animals rely on external sources for body heat. | 变温动物依赖外部来源来获取体温。 | |
| 狭温的 | 狭温物种对温度变化敏感。 |
反义词
| 狭温性 | Stenothermal organisms can only survive within a narrow temperature range. | 狭温性生物只能在狭窄的温度范围内生存。 | |
| 嗜热的 | Thermophilic bacteria thrive in hot springs and other extreme environments. | 嗜热细菌在温泉和其他极端环境中繁衍生息。 |
例句
1.The metazoan zooplankton species were mainly composed of eurythermal ones and only a few thermophil ones were also found.
星湖的后生浮游动物基本上为广温种类,兼具一些嗜暖种。
2.The metazoan zooplankton species were mainly composed of eurythermal ones and only a few thermophil ones were also found.
星湖的后生浮游动物基本上为广温种类,兼具一些嗜暖种。
3.Researchers are studying eurythermal fish to understand how they cope with temperature fluctuations.
研究人员正在研究广温性鱼类,以了解它们如何应对温度波动。
4.The eurythermal characteristics of certain amphibians allow them to survive in changing habitats.
某些两栖动物的广温性特征使它们能够在变化的栖息地中生存。
5.The eurythermal nature of this plant allows it to grow in various environments, from deserts to wetlands.
这种植物的广温性特性使其能够在从沙漠到湿地的各种环境中生长。
6.Farmers prefer eurythermal crops because they can yield produce in varying seasonal temperatures.
农民更喜欢广温性作物,因为它们可以在不同的季节温度下生产农产品。
7.The eurythermal species can thrive in both warm and cold waters, making them adaptable to different climates.
这种广温性物种能够在温暖和寒冷的水域中生存,使它们适应不同的气候。
作文
In the vast and diverse world of biology, organisms exhibit a remarkable range of adaptations that allow them to thrive in various environmental conditions. One such adaptation is the ability of certain species to tolerate a wide range of temperatures. These species are referred to as eurythermal, which means they can survive and function effectively in both high and low temperature extremes. This characteristic is particularly important for organisms living in environments where temperature fluctuations are common, such as tidal pools, deserts, and temperate forests.The concept of eurythermal organisms extends beyond just temperature tolerance; it reflects an intricate balance between physiological processes and environmental factors. For example, many fish species are eurythermal, allowing them to inhabit waters that may vary significantly in temperature due to seasonal changes or geographical differences. This adaptability not only aids their survival but also influences their reproductive cycles, feeding habits, and overall ecosystem dynamics.Moreover, the study of eurythermal species provides valuable insights into climate change and its impact on biodiversity. As global temperatures rise, many organisms face challenges that could threaten their existence. However, eurythermal species might possess a competitive advantage in adapting to these changes, as their inherent flexibility allows them to cope with varying thermal conditions. Understanding these species can help scientists predict which organisms are likely to thrive or decline in response to climate shifts.In agriculture, the principles of eurythermal adaptability are applied to crop selection and breeding. Farmers often choose eurythermal crops that can grow in a variety of climatic conditions, ensuring food security even in the face of unpredictable weather patterns. This approach not only maximizes yield but also minimizes the risks associated with climate variability, making agriculture more sustainable.Furthermore, the concept of eurythermal extends to the field of conservation biology. Protecting habitats that support eurythermal species is crucial for maintaining ecological balance. These species often serve as indicators of environmental health; their presence can signify a resilient ecosystem capable of withstanding temperature fluctuations. By focusing conservation efforts on eurythermal organisms, we can enhance biodiversity and promote ecosystem stability.In conclusion, the term eurythermal encapsulates a fascinating aspect of biological diversity and resilience. Whether in aquatic ecosystems, agricultural practices, or conservation efforts, understanding the significance of eurythermal species offers profound implications for our interactions with the natural world. As we continue to explore the complexities of life on Earth, recognizing the importance of temperature adaptability will be essential in fostering a sustainable future for all living organisms.
在生物学的广阔而多样的世界中,生物体表现出惊人的适应能力,使它们能够在各种环境条件下生存。其中一种适应能力是某些物种能够耐受广泛的温度范围。这些物种被称为广温性,这意味着它们可以在高温和低温极端条件下生存和有效运作。这一特征对于生活在温度波动频繁的环境中的生物尤其重要,例如潮汐池、沙漠和温带森林。广温性生物的概念不仅仅限于温度耐受力;它反映了生理过程与环境因素之间的复杂平衡。例如,许多鱼类物种都是广温性的,这使它们能够栖息在可能因季节变化或地理差异而温度显著变化的水域。这种适应能力不仅有助于它们的生存,还影响其繁殖周期、觅食习惯和整体生态系统动态。此外,对广温性物种的研究为气候变化及其对生物多样性的影响提供了宝贵的见解。随着全球气温的上升,许多生物面临可能威胁其生存的挑战。然而,广温性物种可能在适应这些变化方面具有竞争优势,因为它们固有的灵活性使它们能够应对不同的温度条件。理解这些物种可以帮助科学家预测哪些生物可能会在气候变化的影响下繁荣或衰退。在农业中,广温性适应原理被应用于作物选择和育种。农民通常选择能够在多种气候条件下生长的广温性作物,以确保在不可预测的天气模式下的粮食安全。这种方法不仅最大化产量,而且最小化与气候变异性相关的风险,使农业更加可持续。此外,广温性的概念扩展到保护生物学领域。保护支持广温性物种的栖息地对于维持生态平衡至关重要。这些物种通常作为环境健康的指示器;它们的存在可以标志着一个能够承受温度波动的弹性生态系统。通过将保护工作集中在广温性生物上,我们可以增强生物多样性并促进生态系统的稳定。总之,术语广温性概括了生物多样性和韧性的迷人方面。无论是在水生生态系统、农业实践还是保护工作中,理解广温性物种的重要性都对我们与自然界的互动具有深远的意义。随着我们继续探索地球生命的复杂性,认识到温度适应力的重要性将是促进所有生物可持续未来的关键。
