photosynthetic

简明释义

英[fəʊtəʊsɪnˈθetɪk]美[foʊtoʊsɪnˈθetɪk]

adj. [生化] 光合的；光合作用的

英英释义

单词用法

同义词

反义词

例句

1.Aim to study the effects and influence factors of treating wastewater from saponin manufacturing by photosynthetic bacteria.

目的研究光合细菌对皂素生产废水的处理效果及其影响因素。

2.Photosynthetic microbes also store plenty of fat, which forms the basis for fuel.

光合微生物还能在细胞内储存大量的脂肪，这就是用于合成生物燃料的基础原料。

3.Is now generally believed that the size of photosynthetic units calculated according to their function.

现在一般认为，光合单位的大小是按其功能来计算的。

4.All the photosynthetic bacteria possess the capability in addition to various facultative aerobes and obligate anaerobes.

所有光合细菌加上各种兼性的好氧生物和绝对的厌氧生物具有这种能力。

5.Plants and cyanobacteria (also called blue-green algae), she says, “have evolved highly organized photosynthetic systems for the efficient oxidation of water.”

植物和蓝藻（又称蓝绿色藻类），她说，“已经进化为高度的有组织的光合系统以有效的氧化水。”

6.I think what they found here is a new modification of chlorophyll that shows the flexibility of photosynthetic organisms to use whatever light is available.

我认为他们发现的新叶绿素分子是叶绿素分子的一个新的修饰，它展示了不同光条件下光合生物的灵活性。

7.Algae are primarily photosynthetic 光合作用的, producing oxygen as a byproduct.

藻类主要是photosynthetic 光合作用的，产生氧气作为副产品。

8.Plants are able to convert sunlight into energy through a process called photosynthetic 光合作用的.

植物能够通过一种叫做photosynthetic 光合作用的过程将阳光转化为能量。

9.The photosynthetic 光合作用的 process is essential for life on Earth.

这一photosynthetic 光合作用的过程对地球上的生命至关重要。

10.Researchers are studying photosynthetic 光合作用的 bacteria to improve biofuel production.

研究人员正在研究photosynthetic 光合作用的细菌以改善生物燃料生产。

11.The efficiency of photosynthetic 光合作用的 organisms can greatly affect the ecosystem.

生物体的photosynthetic 光合作用的效率会对生态系统产生重大影响。

作文

Photosynthesis is a remarkable process that occurs in plants, algae, and some bacteria. This process allows these organisms to convert light energy into chemical energy, which is stored in the form of glucose. The term photosynthetic (光合作用的) refers to the ability of these organisms to utilize sunlight to produce their own food. During photosynthesis, carbon dioxide from the atmosphere and water from the soil are combined in the presence of sunlight to create glucose and oxygen. This chemical reaction can be summarized by the equation: 6CO₂ + 6H₂O + light energy → C₆H₁₂O₆ + 6O₂. The significance of photosynthetic (光合作用的) organisms cannot be overstated. They form the foundation of the food chain, providing energy for nearly all living organisms on Earth. Herbivores consume plants, and in turn, carnivores eat herbivores. This interdependence highlights the critical role that photosynthetic (光合作用的) organisms play in sustaining life. Moreover, during the process of photosynthesis, oxygen is released as a byproduct, which is essential for the survival of aerobic organisms, including humans.In addition to producing food and oxygen, photosynthetic (光合作用的) organisms also contribute to the regulation of atmospheric carbon dioxide levels. By absorbing CO₂, they help mitigate climate change and maintain ecological balance. Forests, for instance, are vital photosynthetic (光合作用的) systems that act as carbon sinks, absorbing more carbon than they emit. This function is crucial in combating global warming and promoting a healthier planet.The efficiency of photosynthetic (光合作用的) processes varies among different species. Some plants have adapted to thrive in low-light conditions, while others require direct sunlight to maximize their energy production. For example, shade-tolerant species have developed unique adaptations that allow them to capture and use light more effectively in dim environments. Conversely, sun-loving plants often have thicker leaves and larger surface areas to absorb as much sunlight as possible.Recent advancements in scientific research have also focused on enhancing the photosynthetic (光合作用的) efficiency of crops to address global food security challenges. By genetically modifying plants to improve their photosynthetic (光合作用的) capabilities, scientists aim to increase yields and reduce the amount of land and resources needed for agriculture. This could lead to a more sustainable food production system in the face of a growing population and changing climate.In conclusion, the photosynthetic (光合作用的) process is fundamental to life on Earth. It not only provides food and oxygen but also plays a crucial role in regulating our climate. Understanding and preserving photosynthetic (光合作用的) organisms is essential for maintaining ecological balance and ensuring a sustainable future. As we continue to explore the intricacies of this process, it becomes increasingly clear that enhancing photosynthetic (光合作用的) efficiency in plants could hold the key to solving some of the most pressing challenges facing humanity today.

光合作用是植物、藻类和某些细菌中发生的一种显著过程。这个过程使这些生物能够将光能转化为化学能，以葡萄糖的形式储存。术语photosynthetic（光合作用的）指的是这些生物利用阳光生产自身食物的能力。在光合作用过程中，来自大气的二氧化碳和来自土壤的水在阳光的照射下结合，产生葡萄糖和氧气。这一化学反应可以用以下方程式总结：6CO₂ + 6H₂O + 光能 → C₆H₁₂O₆ + 6O₂。photosynthetic（光合作用的）生物的重要性不容小觑。它们形成了食物链的基础，为地球上几乎所有生物提供能量。食草动物吃植物，而肉食动物则吃食草动物。这种相互依赖关系突显了photosynthetic（光合作用的）生物在维持生命中的关键作用。此外，在光合作用过程中，氧气作为副产品释放出来，这对包括人类在内的需氧生物的生存至关重要。除了生产食物和氧气外，photosynthetic（光合作用的）生物还帮助调节大气中的二氧化碳水平。通过吸收CO₂，它们有助于缓解气候变化并维持生态平衡。例如，森林是重要的photosynthetic（光合作用的）系统，作为碳汇，吸收的碳量超过其排放的碳量。这一功能对于对抗全球变暖和促进更健康的地球至关重要。不同物种的photosynthetic（光合作用的）效率各不相同。一些植物适应在低光条件下生存，而另一些植物则需要直射阳光以最大化其能量生产。例如，耐阴物种发展出独特的适应性，使它们能够在昏暗的环境中更有效地捕捉和利用光线。相反，喜阳植物通常具有较厚的叶子和更大的表面积，以尽可能多地吸收阳光。最近的科学研究进展也集中在提高作物的photosynthetic（光合作用的）效率，以应对全球粮食安全挑战。通过基因改造植物以改善其photosynthetic（光合作用的）能力，科学家们旨在提高产量，并减少农业所需的土地和资源。这可能导致在面对日益增长的人口和气候变化时，更可持续的食品生产系统。总之，photosynthetic（光合作用的）过程是地球生命的基础。它不仅提供食物和氧气，还在调节我们的气候中发挥着至关重要的作用。理解和保护photosynthetic（光合作用的）生物对于维持生态平衡和确保可持续未来至关重要。随着我们继续探索这一过程的复杂性，越来越清楚的是，提高植物的photosynthetic（光合作用的）效率可能是解决当今人类面临的一些最紧迫挑战的关键。