hydric
简明释义
adj. 氢气的;含氢的
英英释义
与水的存在有关或具有水的特征。 | |
Pertaining to wetland ecosystems or environments that are saturated with water. | 与湿地生态系统或被水饱和的环境相关。 |
单词用法
水分压力 | |
水分环境 | |
水分平衡 | |
水分限制 | |
水分栖息地 | |
水分植物 |
同义词
| 水生的 | 水生植物在水分充足的环境中茁壮成长。 | ||
| 潮湿的 | 潮湿的土壤对水分丰富的栖息地至关重要。 | ||
| 湿地的 | 湿地生态系统的特征是水分条件丰富。 |
反义词
| 干旱的 | 干旱的气候使得作物生长困难。 | ||
| 干燥的 | This region is known for its dry conditions and lack of rainfall. | 这个地区以干燥的条件和缺乏降雨而闻名。 |
例句
1.The 9th kind: But mount is hydric, use when children toy.
第九种:可装上氢气,当小儿玩具用。
2.So, the strain gradients and consequently the related gradients of mechanical properties are closely linked to hydric heterogeneities generated by non-uniform drying in the layer of material.
因此,应变梯度,因此有关梯度的力学性能有着密切的联系氢气所产生的非均质性非均匀干燥在一层的材料。
3.The proposed project will occur within hydric pine flatwoods.
拟议的项目将在氢化松平地内进行。
4.The application of low-temperature hydric-plasma is summarized.
对低温氢气等离子体的用途作了概述。
5.So, the strain gradients and consequently the related gradients of mechanical properties are closely linked to hydric heterogeneities generated by non-uniform drying in the layer of material.
因此,应变梯度,因此有关梯度的力学性能有着密切的联系氢气所产生的非均质性非均匀干燥在一层的材料。
6.The application of low - temperature hydric - plasma is summarized.
对低温氢气等离子体的用途作了概述。
7.Hydrogen ion lens are loaded and neutral hydric gas is filled in simulation in order to observe the interactional behavior of electrons and ions.
模拟通过加载氢离子圆盘和充入中性氢气,观察了引入离子后电子束和离子的行为。
8.The hydric 水分的 conditions in this area make it ideal for rice cultivation.
该地区的水分的hydric条件使其成为水稻种植的理想场所。
9.Understanding hydric 水分的 stress is crucial for managing agricultural practices effectively.
理解水分的hydric压力对于有效管理农业实践至关重要。
10.The study of hydric 水分的 ecosystems can provide insights into climate change impacts.
对水分的hydric生态系统的研究可以提供气候变化影响的见解。
11.Certain plants thrive in hydric 水分的 environments, such as cattails and willows.
某些植物在水分的hydric环境中茁壮成长,如香蒲和柳树。
12.Wetlands are characterized by their unique hydric 水分的 soils that support diverse plant and animal life.
湿地以其独特的水分的hydric土壤为特征,支持多样的植物和动物生命。
作文
Water is essential for all life forms, and its importance extends beyond just hydration. In the study of ecology, the term hydric refers to environments or conditions that are characterized by the presence of water. These hydric conditions play a crucial role in shaping ecosystems, influencing the types of vegetation that can thrive in certain areas, and determining the biodiversity of habitats. For instance, wetlands are classic examples of hydric environments. They provide unique habitats for numerous species, including birds, amphibians, and aquatic plants. The presence of standing water or saturated soil creates a distinct ecological niche that supports life forms adapted to these hydric conditions.Understanding hydric environments is vital for conservation efforts. As climate change continues to impact weather patterns, the availability of water in various ecosystems is changing. Some regions may experience increased flooding, while others face droughts. This shift can alter hydric habitats significantly, leading to a decline in species that rely on specific moisture levels. Conservationists must monitor these changes to implement effective strategies for protecting vulnerable species and their habitats.Moreover, the concept of hydric also extends to agriculture and land management. Farmers must consider the hydric characteristics of their land when planning irrigation and crop selection. Certain crops thrive in hydric soils, while others may suffer if they receive too much water. By understanding the hydric nature of their fields, farmers can optimize their yields and contribute to sustainable practices. In urban planning, recognizing hydric areas is equally important. Cities often expand into areas that were once rich in hydric ecosystems, such as wetlands and floodplains. This encroachment can lead to significant environmental consequences, including increased flooding, loss of biodiversity, and diminished water quality. Planners must balance development with the preservation of hydric areas to maintain ecological integrity and protect communities from the adverse effects of flooding.In conclusion, the term hydric encompasses a wide range of ecological, agricultural, and urban considerations. Recognizing and understanding hydric environments is essential for promoting biodiversity, ensuring sustainable agricultural practices, and planning resilient cities. As we face the challenges posed by climate change and urbanization, prioritizing the health of hydric ecosystems will be crucial for the future of our planet and its inhabitants.
水是所有生命形式的必需品,其重要性不仅仅体现在水分补充上。在生态学研究中,术语hydric指的是以水的存在为特征的环境或条件。这些hydric条件在塑造生态系统方面发挥着至关重要的作用,影响着某些地区能够繁荣的植被类型,并决定栖息地的生物多样性。例如,湿地就是典型的hydric环境。它们为众多物种提供了独特的栖息地,包括鸟类、两栖动物和水生植物。静水或饱和土壤的存在创造了一个独特的生态位,支持适应这些hydric条件的生命形式。理解hydric环境对保护工作至关重要。随着气候变化持续影响天气模式,各种生态系统中的水资源可用性正在发生变化。一些地区可能经历洪水增加,而另一些地区则面临干旱。这种变化可能显著改变hydric栖息地,导致依赖特定湿度水平的物种数量下降。保护主义者必须监测这些变化,以实施有效的策略来保护脆弱物种及其栖息地。此外,hydric的概念还扩展到农业和土地管理。农民在规划灌溉和作物选择时,必须考虑土地的hydric特性。某些作物在hydric土壤中茁壮成长,而如果水分过多,其他作物可能会受到影响。通过了解他们田地的hydric性质,农民可以优化产量并促进可持续实践。在城市规划中,认识到hydric区域同样重要。城市往往扩展到曾经富含hydric生态系统的区域,如湿地和洪泛区。这种侵占可能导致显著的环境后果,包括洪水增加、生物多样性丧失和水质下降。规划者必须在发展与保护hydric区域之间取得平衡,以维护生态完整性并保护社区免受洪水的不利影响。总之,术语hydric涵盖了广泛的生态、农业和城市考虑因素。认识和理解hydric环境对于促进生物多样性、确保可持续农业实践和规划有韧性的城市至关重要。随着我们面临气候变化和城市化带来的挑战,优先考虑hydric生态系统的健康将对我们星球及其居民的未来至关重要。
