hydromorphic
简明释义
英[/ˌhaɪdrəˈmɔrfɪk/]美[/ˌhaɪdrəˈmɔrfɪk/]
adj. 具有适于水生的结构特性的
英英释义
Relating to or characterized by the presence of water, especially in soil or geological formations. | 与水的存在有关或具有特征,特别是在土壤或地质构造中。 |
单词用法
同义词
| 水生的 | 水生植物在水文形态土壤中茁壮成长。 | ||
| 液压的 | 液压系统依赖于流体力学。 | ||
| 与水相关的 | 与水相关的生态系统对生物多样性至关重要。 |
反义词
| 干燥形态的 | Xeromorphic plants are adapted to survive in dry environments. | 干燥形态的植物适应于在干旱环境中生存。 | |
| 干旱的 | The arid climate of the region limits agricultural activities. | 该地区的干旱气候限制了农业活动。 |
例句
1.The order of semi-hydromorphic soil contains the great groups of Chao soil and mountain scrubby-meadow soil.
半水成土土纲的潮土和山地灌丛草甸土等土类;
2.The order of semi-hydromorphic soil contains the great groups of Chao soil and mountain scrubby-meadow soil.
半水成土土纲的潮土和山地灌丛草甸土等土类;
3.Geologists often examine hydromorphic 水文形态的 features when assessing land for construction.
地质学家在评估建设用地时经常检查水文形态的特征。
4.Researchers studied the hydromorphic 水文形态的 characteristics of wetlands to understand their ecological functions.
研究人员研究了湿地的水文形态的特征,以了解它们的生态功能。
5.The hydromorphic 水文形态的 properties of the terrain influence local water drainage patterns.
地形的水文形态的特性影响当地的水流排放模式。
6.The soil in this area is classified as hydromorphic 水文形态的 due to its high moisture retention.
该地区的土壤由于其高水分保持能力被归类为水文形态的。
7.In agriculture, hydromorphic 水文形态的 soils can be beneficial for certain crops that require a lot of water.
在农业中,水文形态的土壤对某些需要大量水分的作物是有益的。
作文
The term hydromorphic refers to the characteristics of soils that are influenced by the presence of water. In many parts of the world, the interaction between soil and water is crucial for understanding the landscape and its ecological dynamics. Soils that are classified as hydromorphic typically exhibit certain traits such as poor drainage, a high level of saturation, and specific color patterns that differentiate them from other soil types. These soils often form in low-lying areas where water accumulates, creating conditions that promote anaerobic processes. In agricultural contexts, recognizing hydromorphic soils is essential for effective land management. Farmers need to understand how these soils behave under different weather conditions, particularly during periods of heavy rainfall. The waterlogged conditions can lead to reduced crop yields if not managed properly. Additionally, hydromorphic soils can be rich in nutrients due to the decomposition of organic matter in saturated environments, making them potentially fertile but also challenging to work with. Ecologically, hydromorphic soils play a significant role in supporting various plant species that thrive in wet conditions. Wetlands, which are often associated with hydromorphic soils, provide critical habitats for wildlife and help in maintaining biodiversity. These ecosystems are vital for water purification, flood control, and carbon storage, showcasing the importance of hydromorphic soils in environmental sustainability. Furthermore, the study of hydromorphic soils is essential for understanding climate change impacts. As global temperatures rise, the hydrological cycles are altered, affecting the moisture levels in soils. This change can lead to shifts in the distribution of hydromorphic soils, impacting agriculture and natural ecosystems. Scientists are increasingly focusing on these soils to predict how landscapes will evolve in response to climate change, emphasizing their relevance in both research and practical applications. In conclusion, the concept of hydromorphic soils encompasses a wide range of implications for agriculture, ecology, and climate science. Understanding these soils not only aids in effective land use and conservation efforts but also highlights the intricate relationships within our environment. As we face ongoing environmental challenges, the study of hydromorphic soils will remain a key area of focus for researchers and practitioners alike, ensuring that we can sustainably manage our natural resources for future generations.
“水文形态”这个术语是指受水的存在影响的土壤特征。在世界许多地方,土壤与水之间的相互作用对于理解地貌及其生态动态至关重要。被归类为水文形态的土壤通常表现出某些特征,例如排水不良、高饱和度和特定的颜色模式,这些特征将其与其他土壤类型区分开来。这些土壤通常形成在低洼地区,水分积聚,创造出促进厌氧过程的条件。在农业背景下,识别水文形态土壤对于有效的土地管理至关重要。农民需要了解这些土壤在不同天气条件下的表现,特别是在强降雨期间。水涝条件如果管理不当,会导致作物产量降低。此外,水文形态土壤由于在饱和环境中有机物质的分解,可能富含养分,使其潜在肥沃但也难以处理。从生态角度来看,水文形态土壤在支持多种适应湿润条件的植物种类方面发挥着重要作用。湿地通常与水文形态土壤相关,提供了野生动物的关键栖息地,并帮助维持生物多样性。这些生态系统对水质净化、洪水控制和碳储存至关重要,展示了水文形态土壤在环境可持续性中的重要性。此外,水文形态土壤的研究对于理解气候变化的影响至关重要。随着全球气温上升,水文循环发生变化,影响土壤中的水分水平。这种变化可能导致水文形态土壤分布的变化,影响农业和自然生态系统。科学家们越来越关注这些土壤,以预测景观如何响应气候变化,从而强调它们在研究和实际应用中的相关性。总之,水文形态土壤的概念涵盖了农业、生态和气候科学的广泛影响。理解这些土壤不仅有助于有效的土地利用和保护工作,还突显了我们环境内部复杂的关系。面对持续的环境挑战,水文形态土壤的研究将继续成为研究人员和从业者关注的重点,确保我们能够为未来世代可持续管理我们的自然资源。
