microclimatic
简明释义
英[ˌmaɪkroʊˈklaɪmətɪk]美[ˌmaɪkroʊˈklaɪmətɪk]
小气候的
英英释义
单词用法
同义词
反义词
例句
1.The linear equations of temperature and humidity with distance were developed, and the impact of microclimatic edge effects on community structure and species distribution was also discussed.
本文还给出了温度和湿度随水平距离变化的线性关系,并探讨了小气候边缘效应对群落结构、物种分布的影响。
2.Thermal effect of tropical seasonal rain forest is so complicated and multiform that makes thermal effect distribution diversification and induces microclimatic environment heterogeneity.
热带季节雨林中热力作用复杂、多样,使得热力效应时空分布趋于多样化,导致小气候环境异质性。
3.Microclimatic factors including solar radiation, temperature, humidity, and wind and so on in artificial rainforest were studied.
以纯胶林、胶茶人工林及旷地为对照,分析了人工雨林的小气候效应。
4.Several studies of the microclimatic conditions on the site have informed the planning of the landscape.
场地上小气候条件的几项研究也结合了景观规划。
5.The linear equations of temperature and humidity with distance were developed, and the impact of microclimatic edge effects on community structure and species distribution was also discussed.
本文还给出了温度和湿度随水平距离变化的线性关系,并探讨了小气候边缘效应对群落结构、物种分布的影响。
6.The garden's design takes advantage of the microclimatic 微气候的 conditions to promote plant growth.
花园的设计利用了<微气候的>条件来促进植物生长。
7.The microclimatic 微气候的 differences between the valley and the hilltop can affect local wildlife.
山谷与山顶之间的<微气候的>差异可能影响当地野生动物。
8.Certain plants thrive in specific microclimatic 微气候的 zones, making them ideal for permaculture.
某些植物在特定的<微气候的>区域茁壮成长,使它们非常适合进行永久农业。
9.Understanding the microclimatic 微气候的 factors is essential for sustainable agriculture.
理解<微气候的>因素对可持续农业至关重要。
10.Farmers often select crops based on the microclimatic 微气候的 variations in their fields.
农民通常根据他们田地中的<微气候的>变化选择作物。
作文
The concept of microclimatic conditions plays a crucial role in understanding the environmental variations that occur within localized areas. While we often think of climate in broad terms—such as the general weather patterns of a region—microclimatic refers to the specific atmospheric conditions that can differ significantly from the surrounding areas. These localized climates can be influenced by various factors, including topography, vegetation, and human activities. For instance, a small valley may experience different temperature and humidity levels than the surrounding hills due to its unique geographical features. This phenomenon is particularly important in agriculture, where farmers must consider microclimatic variations to optimize crop yields. Different parts of a farm may have distinct microclimatic conditions, affecting soil moisture, sunlight exposure, and wind patterns. Understanding these variations allows farmers to make informed decisions about planting times, crop selection, and irrigation practices.In urban environments, microclimatic effects are also evident. Cities often create their own climates, known as the urban heat island effect, where built-up areas become significantly warmer than their rural surroundings. This occurs due to the concentration of buildings, roads, and other infrastructure that absorb and retain heat. Within a city, certain neighborhoods may exhibit microclimatic differences based on vegetation cover, water bodies, and building materials. For example, a park surrounded by trees may have a cooler and more humid microclimatic condition compared to a nearby concrete-heavy area. Recognizing these differences is essential for urban planning, as it can influence energy consumption, air quality, and public health.Moreover, microclimatic studies are vital for biodiversity conservation. Different species thrive in specific climatic conditions, and even slight variations can determine their survival. Conservationists must understand the microclimatic needs of various flora and fauna to protect their habitats effectively. For example, certain plants may only grow in specific microclimatic zones that provide the right amount of sunlight and moisture. As climate change continues to alter broader climatic patterns, recognizing and preserving these microclimatic zones becomes increasingly important for maintaining ecological balance.In conclusion, the term microclimatic encapsulates the intricate and localized climate variations that exist within broader climatic frameworks. Whether in agriculture, urban planning, or biodiversity conservation, understanding microclimatic conditions is essential for making informed decisions that impact our environment and livelihoods. As we face the challenges posed by climate change, paying attention to these localized climates will be crucial in developing effective adaptation strategies. By recognizing the significance of microclimatic variations, we can better appreciate the complexity of our ecosystems and work towards sustainable solutions that benefit both humans and nature.
微气候条件的概念在理解局部区域内发生的环境变化方面起着至关重要的作用。虽然我们通常以广泛的术语思考气候——例如一个地区的一般天气模式——但微气候指的是与周围地区显著不同的特定大气条件。这些局部气候可以受到多种因素的影响,包括地形、植被和人类活动。例如,一个小山谷可能由于其独特的地理特征而经历与周围山丘不同的温度和湿度水平。这种现象在农业中尤为重要,农民必须考虑微气候变化以优化作物产量。农场的不同部分可能具有不同的微气候条件,影响土壤湿度、阳光照射和风向。了解这些变化使农民能够就种植时间、作物选择和灌溉实践做出明智的决定。在城市环境中,微气候效应也很明显。城市往往会创造出自己的气候,被称为城市热岛效应,其中建筑密集区的温度显著高于周围农村地区。这是由于建筑物、道路和其他基础设施的集中吸收和保持热量。在城市中,某些社区可能会因植被覆盖、水体和建筑材料而表现出微气候的差异。例如,被树木环绕的公园可能具有比附近混凝土重的区域更凉爽和潮湿的微气候。认识到这些差异对城市规划至关重要,因为它会影响能源消耗、空气质量和公共健康。此外,微气候研究对于生物多样性保护至关重要。不同的物种在特定的气候条件下繁衍生息,即使是轻微的变化也能决定它们的生存。保护主义者必须了解各种植物和动物的微气候需求,以有效保护它们的栖息地。例如,某些植物可能只能在提供适当阳光和湿度的特定微气候区生长。随着气候变化继续改变更广泛的气候模式,识别和保护这些微气候区域对于维持生态平衡变得越来越重要。总之,微气候一词概括了存在于更广泛气候框架内的复杂和局部气候变化。无论是在农业、城市规划还是生物多样性保护中,理解微气候条件对于做出影响我们环境和生计的明智决策至关重要。随着我们面临气候变化带来的挑战,关注这些局部气候将是制定有效适应策略的关键。通过认识到微气候变化的重要性,我们可以更好地欣赏生态系统的复杂性,并朝着有利于人类和自然的可持续解决方案努力。
