photosynthesize
简明释义
英[ˌfəʊtəʊˈsɪnθəsaɪz]美[ˌfoʊtoʊˈsɪnθəsaɪz]
vi. 起光合作用;光能合成
vt. 通过光合作用产生
第 三 人 称 单 数 p h o t o s y n t h e s i z e s
现 在 分 词 p h o t o s y n t h e s i z i n g
过 去 式 p h o t o s y n t h e s i z e d
过 去 分 词 p h o t o s y n t h e s i z e d
英英释义
The process by which green plants and some other organisms use sunlight to synthesize foods with the help of chlorophyll. | 绿色植物和一些其他生物利用阳光通过叶绿素合成食物的过程。 |
单词用法
有效地进行光合作用 | |
能够进行光合作用的植物 | |
进行光合作用的能力 | |
利用阳光进行光合作用 | |
进行光合作用的生物 | |
光合作用二氧化碳和水 |
同义词
| 光合作用 | 植物通过光合作用将阳光转化为能量。 | ||
| 合成 | During photosynthesis, plants absorb carbon dioxide and release oxygen. | 在光合作用过程中,植物吸收二氧化碳并释放氧气。 |
反义词
| 呼吸 | Plants respire at night when photosynthesis is not occurring. | 植物在夜间呼吸,当光合作用不发生时。 | |
| 分解 | Organic matter decomposes, releasing carbon dioxide back into the atmosphere. | 有机物分解,释放二氧化碳回到大气中。 |
例句
1.All phytoplankton photosynthesize, but some get additional energy by consuming other organisms.
所有的浮游植物都会进行光合作用,但某些植物还通过消耗其他生物来获取额外的能量。
2.This suppression of the plankton's ability to photosynthesize could have a profound effect on the Earth's climate.
这抑制了浮游生物的光和作用能力,会对地球的气候产生深远的影响。
3.It gets worse: If mirror cells acquired the ability to photosynthesize, we'd be screwed.
更糟糕的是,如果镜像细胞获取了光合作用的能力,人类就完蛋了。
4.In an added bonus, the luminescence will cause the leaves' chloroplasts to photosynthesize, which will result in more carbon being captured from the air while the streets are lit.
作为额外的回报,其发出的冷光能使叶子内的叶绿体进行光合作用,使街道被照亮的同时又能吸收掉更多的二氧化碳。
5.Euphotic layer of the sea refers to the layer where phytoplankton can photosynthesize; therefore, the retrieval of the euphotic depth is in favor of estimating ocean primary production.
海水真光层是指海洋浮游植物进行光合作用的水层,海水真光层深度的反演有利于对海洋初级生产力的估算。
6.For years, scientists have also been trying to do what plants do-use sunlight to photosynthesize fuel.
多年来,科学家也已经尝试着象工厂生产产品那样做,用阳光给燃料做光合作用。
7.Euphotic layer of the sea refers to the layer where phytoplankton can photosynthesize; therefore, the retrieval of the euphotic depth is in favor of estimating ocean primary production.
海水真光层是指海洋浮游植物进行光合作用的水层,海水真光层深度的反演有利于对海洋初级生产力的估算。
8.Even it is a leaf, it must try to photosynthesize. — That Love Comes.
“即使是一片叶子,也要努力进行光合作用。”——《欢迎爱光临》。
9.The plant can then reach the light faster and photosynthesize and synthesize more chlorophyll.
这种植物被置于光下后,可迅速的开始光合作用,合成大量叶绿素。
10.In the process of photosynthesize 光合作用, chlorophyll captures light energy.
在光合作用的过程中,叶绿素捕获光能。
11.Plants use sunlight to photosynthesize 光合作用 and produce oxygen.
植物利用阳光来光合作用,产生氧气。
12.Without the ability to photosynthesize 光合作用, plants would not survive.
没有进行光合作用的能力,植物将无法生存。
13.Algae are important because they photosynthesize 光合作用 and provide food for aquatic life.
藻类很重要,因为它们进行光合作用,为水生生物提供食物。
14.Certain bacteria can also photosynthesize 光合作用, contributing to the ecosystem.
某些细菌也能进行光合作用,对生态系统作出贡献。
作文
Photosynthesis is a fundamental biological process that occurs in plants, algae, and some bacteria. It is the method by which these organisms convert light energy into chemical energy, specifically glucose, which they use as food. During this process, plants take in carbon dioxide from the air and water from the soil. Using sunlight, they are able to transform these raw materials into glucose and oxygen. The equation for this process can be simplified as: carbon dioxide + water + light energy → glucose + oxygen. This transformation not only provides energy for the plant itself but also releases oxygen into the atmosphere, which is essential for the survival of most living organisms on Earth.The term photosynthesize (光合作用) describes the entire process of converting light energy into chemical energy. This process takes place primarily in the leaves of plants, where chlorophyll, the green pigment responsible for capturing light, is located. Chlorophyll absorbs sunlight and uses it to drive the reactions that lead to the production of glucose. Without the ability to photosynthesize (光合作用), plants would not be able to produce their own food and would ultimately perish.In addition to providing food for themselves, plants play a crucial role in sustaining life on Earth through photosynthesis (光合作用). They are at the base of the food chain, serving as primary producers. Herbivores rely on plants for nourishment, and in turn, carnivores depend on herbivores for their energy needs. This interconnectedness highlights the importance of photosynthesis (光合作用) in maintaining ecological balance.Moreover, photosynthesis (光合作用) has significant implications for the environment. As plants absorb carbon dioxide, they help mitigate the effects of climate change by reducing the amount of this greenhouse gas in the atmosphere. The oxygen released during photosynthesis (光合作用) is vital for the respiration of most living organisms, making this process essential for life as we know it.However, human activities such as deforestation and pollution threaten the ability of plants to photosynthesize (光合作用) effectively. When forests are cut down or burned, the number of trees available to perform photosynthesis (光合作用) decreases, leading to higher carbon dioxide levels in the atmosphere. This not only contributes to global warming but also reduces the overall oxygen supply. Therefore, it is imperative that we protect our forests and promote sustainable practices that allow plants to thrive and continue their critical role in photosynthesis (光合作用).In conclusion, photosynthesis (光合作用) is a remarkable process that sustains life on Earth. It allows plants to create their own food while simultaneously providing oxygen for other living beings. Understanding the significance of photosynthesis (光合作用) helps us appreciate the intricate connections within ecosystems and the importance of preserving our natural environment. By safeguarding the ability of plants to photosynthesize (光合作用), we ensure a healthier planet for future generations.
光合作用是植物、藻类和某些细菌发生的基本生物过程。这是这些生物将光能转化为化学能(特别是葡萄糖)的方法,植物利用这些能量作为食物。在这一过程中,植物从空气中吸收二氧化碳,从土壤中吸收水。利用阳光,它们能够将这些原材料转化为葡萄糖和氧气。这个过程的方程式可以简化为:二氧化碳 + 水 + 光能 → 葡萄糖 + 氧气。这一转化不仅为植物自身提供能量,还将氧气释放到大气中,这对于地球上大多数生物的生存至关重要。术语photosynthesize(光合作用)描述了将光能转化为化学能的整个过程。这个过程主要发生在植物的叶子中,叶绿素是负责捕捉光的绿色颜料,位于此处。叶绿素吸收阳光,并利用它驱动产生葡萄糖的反应。如果没有能力photosynthesize(光合作用),植物将无法自给自足,最终会灭绝。除了为自己提供食物外,植物通过photosynthesis(光合作用)在维持地球生命方面也发挥着重要作用。它们是食物链的基础,作为初级生产者。食草动物依靠植物获取营养,而肉食动物则依赖食草动物满足其能量需求。这种相互关联性突显了photosynthesis(光合作用)在维持生态平衡中的重要性。此外,photosynthesis(光合作用)对环境有重大影响。当植物吸收二氧化碳时,它们通过减少大气中这种温室气体的含量来缓解气候变化的影响。在photosynthesis(光合作用)过程中释放的氧气对大多数生物的呼吸至关重要,使这一过程成为生命存在的基础。然而,人类活动如砍伐森林和污染威胁着植物有效photosynthesize(光合作用)的能力。当森林被砍伐或焚烧时,可进行photosynthesize(光合作用)的树木数量减少,导致大气中二氧化碳水平升高。这不仅加剧了全球变暖,还减少了整体氧气供应。因此,保护我们的森林和促进可持续实践,使植物能够繁荣生长并继续在photosynthesize(光合作用)中发挥关键作用,是至关重要的。总之,photosynthesis(光合作用)是一个令人惊叹的过程,它维持着地球上的生命。它使植物能够创造自己的食物,同时为其他生物提供氧气。理解photosynthesis(光合作用)的重要性帮助我们欣赏生态系统内的复杂联系以及保护自然环境的重要性。通过保护植物的photosynthesize(光合作用)能力,我们确保了未来几代人拥有一个更健康的星球。
