rewetting
简明释义
n. 再湿润
v. 再润湿(rewet 的 ing 形式)
英英释义
The process of reintroducing water to a previously drained or dried wetland area. | 将水重新引入到之前排水或干燥的湿地区域的过程。 |
Refers to the act of saturating a surface or material again with water. | 指再次用水浸润表面或材料的行为。 |
单词用法
土壤的重新湿润 | |
重新湿润技术 | |
在重新湿润之后 | |
重新湿润表面 | |
重新湿润剂 | |
重新湿润能力 |
同义词
| 水合作用 | The process of rewetting is essential for restoring wetland ecosystems. | 重新湿润的过程对于恢复湿地生态系统至关重要。 | |
| 重新湿润 | Hydration is crucial for maintaining healthy soil conditions. | 水合作用对于维持健康的土壤条件至关重要。 | |
| 湿润 | 重新湿润土壤可以改善植物生长。 |
反义词
| 干燥 | 干燥过程对食品保存至关重要。 | ||
| 脱水 | 脱水会导致水果营养成分的流失。 |
例句
1.Drying wet rice rapidly and soaking or rewetting dry rice kernels imperatively results in severe fissuring.
潮湿米粒快速干燥或干燥籽粒浸水、回潮均会产生严重的裂纹。
2.It was discussed that the rewetting process and its effects on wet-blue before retanning in this paper.
对复鞣前蓝湿革回湿工艺及其回湿效果进行了研究和探讨。
3.The concentration of nitrate-N increased continuously in soil surface, which resulted in nitrate leaching to groundwater after rewetting.
土表的硝态氮浓度不断增加,烤田增大了复水后硝态氮向地下水淋溶的趋势。
4.The concentration of nitrate-N increased continuously in soil surface, which resulted in nitrate leaching to groundwater after rewetting.
土表的硝态氮浓度不断增加,烤田增大了复水后硝态氮向地下水淋溶的趋势。
5.Soil rewetting is an important ecological process that caused by the uneven distribution of precipitation.
由降雨分布不均引起的土壤干湿交替是重要的生态学过程,其对土壤呼吸产生强烈影响。
6.Farmers use rewetting techniques to improve soil moisture levels.
农民使用重新湿润技术来提高土壤湿度。
7.The process of rewetting is crucial for restoring the health of peatlands.
这个重新湿润的过程对恢复泥炭地的健康至关重要。
8.After a long drought, rewetting the fields was essential for crop recovery.
经过长时间的干旱,重新湿润农田对作物恢复至关重要。
9.Researchers are studying the effects of rewetting on carbon storage in wetlands.
研究人员正在研究重新湿润对湿地碳储存的影响。
10.The rewetting of dried lakes can help revive local ecosystems.
干涸湖泊的重新湿润可以帮助恢复当地生态系统。
作文
In recent years, the concept of rewetting has gained significant attention in the fields of ecology and environmental science. Rewetting refers to the process of restoring moisture to areas that have been drained or dried out, particularly wetlands. These ecosystems play a crucial role in maintaining biodiversity, regulating water cycles, and sequestering carbon dioxide. However, due to human activities such as agriculture, urban development, and climate change, many wetlands have been degraded or lost altogether.The importance of rewetting cannot be overstated. Wetlands serve as natural buffers against floods, providing storage for excess water during heavy rainfall. They also filter pollutants from water, improving water quality before it reaches rivers and lakes. Moreover, wetlands are vital habitats for numerous species of plants and animals, some of which are endangered. By implementing rewetting strategies, we can help restore these critical habitats and promote biodiversity.One of the most effective methods of rewetting involves the use of water management techniques. This can include the construction of barriers to retain water, creating channels to redirect flow, and reintroducing native vegetation that helps to stabilize the soil and retain moisture. In addition, community involvement is essential for successful rewetting projects. Local stakeholders, including farmers, conservationists, and government agencies, must collaborate to develop sustainable practices that benefit both the environment and local economies.Moreover, rewetting has implications for climate change mitigation. Wetlands act as carbon sinks, meaning they absorb and store carbon dioxide from the atmosphere. When wetlands are drained, this stored carbon is released back into the atmosphere, contributing to global warming. By restoring these ecosystems through rewetting, we can help reduce greenhouse gas emissions and combat climate change.However, rewetting is not without its challenges. It requires careful planning and consideration of the local ecosystem. For instance, simply flooding an area may not be sufficient if the underlying soil structure has been compromised. Additionally, there may be conflicts of interest among different stakeholders, particularly in agricultural regions where land use is heavily impacted by water availability. Therefore, a holistic approach that considers ecological, social, and economic factors is necessary for successful rewetting initiatives.In conclusion, rewetting is a vital process for restoring the health of our planet's ecosystems. As we face increasing environmental challenges, it is imperative that we prioritize the restoration of wetlands and other critical habitats. Through collaborative efforts and innovative management strategies, we can enhance biodiversity, improve water quality, and mitigate the effects of climate change. The future of our environment depends on our ability to embrace rewetting as a key component of conservation and sustainability efforts.
近年来,rewetting的概念在生态学和环境科学领域引起了广泛关注。rewetting指的是恢复湿地等区域水分的过程,这些区域曾因排水或干旱而失去水分。这些生态系统在维持生物多样性、调节水循环和固碳方面发挥着至关重要的作用。然而,由于农业、城市发展和气候变化等人类活动,许多湿地遭到破坏或完全消失。rewetting的重要性不容小觑。湿地作为自然洪水缓冲区,在暴雨期间提供多余水分的储存。此外,湿地能过滤水中的污染物,改善水质,使之在流入河流和湖泊之前得到净化。此外,湿地是众多植物和动物物种的重要栖息地,其中一些物种濒临灭绝。通过实施rewetting策略,我们可以帮助恢复这些关键栖息地,促进生物多样性。最有效的rewetting方法之一是采用水管理技术。这可以包括建设障碍物以保持水分、创建渠道以重新引导水流以及重新引入有助于稳定土壤和保持水分的本土植被。此外,社区参与对成功的rewetting项目至关重要。地方利益相关者,包括农民、环保主义者和政府机构,必须合作制定可持续的做法,以使环境和地方经济受益。此外,rewetting还与气候变化缓解相关。湿地作为碳汇,吸收和储存来自大气的二氧化碳。当湿地被排干时,这些储存的碳会释放回大气中,导致全球变暖。通过通过rewetting恢复这些生态系统,我们可以帮助减少温室气体排放,并应对气候变化。然而,rewetting并非没有挑战。这需要对当地生态系统进行仔细规划和考虑。例如,仅仅淹没一个地区可能不足以解决底层土壤结构已被破坏的问题。此外,在农业地区,不同利益相关者之间可能存在利益冲突,尤其是在水资源可用性受到严重影响的情况下。因此,需要一种综合的方法,考虑生态、社会和经济因素,以确保rewetting倡议的成功。总之,rewetting是恢复我们星球生态系统健康的重要过程。面对日益严峻的环境挑战,我们必须优先考虑湿地和其他关键栖息地的恢复。通过协作努力和创新管理策略,我们可以增强生物多样性、改善水质并减轻气候变化的影响。我们环境的未来取决于我们是否能够将rewetting视为保护和可持续发展努力的关键组成部分。
