hygrophilous
简明释义
英[haɪˈɡrɒfɪləs]美[haɪˈɡrɑfələs]
adj. 生活在水中或湿地的;[生态] 喜湿的
英英释义
Referring to organisms, especially plants, that thrive in or prefer moist environments. | 指在潮湿环境中繁茂或偏好的生物,尤其是植物。 |
单词用法
喜湿物种 | |
湿润环境 | |
湿生生物 | |
湿生植被 | |
湿生栖息地 | |
湿生生态系统 |
同义词
| 喜湿的 | 这些喜湿植物在湿地环境中生长良好。 | ||
| 爱水的 | Certain species are moisture-loving and require high humidity to survive. | 某些物种是喜湿的,需在高湿度环境中生存。 | |
| 喜潮湿的 | 喜潮湿的生物通常可以在雨林中找到。 |
反义词
| 耐旱的 | 耐旱植物在干旱环境中生长良好。 | ||
| 耐干燥的 | Desiccation-tolerant species can survive long periods without water. | 耐干燥物种可以在没有水的情况下存活很长时间。 |
例句
1.Through investigate the species of zooplankton and phytoplankton and distribution of hygrophilous vegetation in Fu River's headstream, we evaluate the ecological environment in Fu River's headstream.
通过研究抚河源头水体中浮游动植物的种类及湿地植被分布状况,科学评价抚河源头水生生态环境。
2.Through investigate the species of zooplankton and phytoplankton and distribution of hygrophilous vegetation in Fu River's headstream, we evaluate the ecological environment in Fu River's headstream.
通过研究抚河源头水体中浮游动植物的种类及湿地植被分布状况,科学评价抚河源头水生生态环境。
3.On the basis of quantification of damage and hygrophilous extend, the indicator plants was studied by multiple regression.
结果表明,油松林分郁闭度是影响松毛虫害发生的主要因子,林内灌草植物喜湿度对虫害具有指示意义。
4.Certain species of moss are classified as hygrophilous 喜湿的 due to their preference for damp conditions.
某些种类的苔藓被归类为喜湿的,因为它们偏爱潮湿的环境。
5.In botanical studies, hygrophilous 喜湿的 plants are often examined for their adaptations to high humidity.
在植物学研究中,喜湿的植物常常被研究其对高湿度的适应性。
6.The hygrophilous 喜湿的 characteristics of these flowers make them suitable for wetland gardens.
这些花卉的喜湿的特性使它们适合湿地花园。
7.Farmers often choose hygrophilous 喜湿的 crops for areas with abundant rainfall.
农民通常选择喜湿的作物种植在降雨量丰富的地区。
8.The rainforest is home to many hygrophilous 喜湿的 plants that thrive in the moist environment.
雨林中有许多喜湿的植物,它们在潮湿的环境中茁壮成长。
作文
In the realm of ecology, understanding the various adaptations of organisms is crucial for comprehending the intricate relationships within ecosystems. One such adaptation is seen in plants that thrive in moist environments, commonly referred to as hygrophilous plants. These plants have evolved unique characteristics that allow them to flourish in conditions where water is abundant. The term hygrophilous originates from the Greek words 'hygro' meaning wet or moist, and 'philos' meaning loving or fond of. Therefore, hygrophilous essentially describes organisms that prefer wet habitats.A prime example of hygrophilous plants includes species such as ferns, mosses, and certain types of sedges. These plants are often found in wetlands, along riverbanks, or in areas with high humidity. Their ability to adapt to such environments is remarkable; for instance, many hygrophilous plants possess specialized structures that help them absorb and retain moisture. This adaptation not only allows them to survive but also enables them to play a significant role in their ecosystems.The ecological importance of hygrophilous plants cannot be overstated. They contribute to the stabilization of soil in wetland areas, reducing erosion and providing habitat for various animal species. Additionally, these plants play a vital role in water filtration, improving water quality by absorbing excess nutrients and pollutants. The presence of hygrophilous plants can indicate the health of an ecosystem, as they often require specific conditions to thrive, making them excellent bioindicators.Moreover, the study of hygrophilous plants can provide insights into climate change and its impact on biodiversity. As global temperatures rise and precipitation patterns shift, the habitats suitable for hygrophilous plants may change significantly. Some species may adapt to new conditions, while others could face extinction if their moisture-dependent environments are altered beyond their tolerance levels.In conclusion, the term hygrophilous encapsulates a fascinating aspect of plant ecology. Understanding these moisture-loving organisms enhances our knowledge of ecosystem dynamics and highlights the importance of conserving wetland habitats. As we face ongoing environmental challenges, recognizing the value of hygrophilous plants is essential for maintaining biodiversity and ensuring the health of our planet's ecosystems.
在生态学领域,理解生物体的各种适应性对于理解生态系统内复杂的关系至关重要。一个这样的适应性在于那些在潮湿环境中茁壮成长的植物,通常被称为hygrophilous植物。这些植物已经进化出独特的特征,使它们能够在水分丰富的条件下繁荣生长。术语hygrophilous源自希腊词'hygro'意为湿或潮湿,以及'philos'意为爱或喜爱。因此,hygrophilous本质上描述了喜欢潮湿栖息地的生物。hygrophilous植物的一个主要例子包括蕨类植物、苔藓和某些类型的莎草。这些植物通常生长在湿地、河岸或高湿度的地区。它们适应这种环境的能力是显著的;例如,许多hygrophilous植物具有专门的结构,帮助它们吸收和保持水分。这种适应不仅使它们能够生存,还使它们在生态系统中发挥重要作用。hygrophilous植物的生态重要性不可低估。它们有助于湿地地区土壤的稳定,减少侵蚀,并为各种动物物种提供栖息地。此外,这些植物在水过滤中发挥着至关重要的作用,通过吸收过量的养分和污染物来改善水质。hygrophilous植物的存在可以指示生态系统的健康,因为它们通常需要特定的条件才能繁荣,这使它们成为优秀的生物指示剂。此外,对hygrophilous植物的研究可以提供关于气候变化及其对生物多样性影响的见解。随着全球气温上升和降水模式的变化,适合hygrophilous植物生长的栖息地可能会发生显著变化。一些物种可能会适应新的条件,而其他物种如果其依赖水分的环境被改变到超出其耐受水平的程度,可能面临灭绝。总之,术语hygrophilous概括了植物生态学的一个迷人方面。理解这些喜湿的生物增强了我们对生态系统动态的认识,并突显了保护湿地栖息地的重要性。面对持续的环境挑战,认识到hygrophilous植物的价值对于维护生物多样性和确保我们星球生态系统的健康至关重要。
