photobiology

简明释义

英[ˌfoʊtoʊbaɪˈɑːlədʒi]美[ˌfoʊtoʊbaɪˈɑːlədʒi]

n. 光生物学

英英释义

单词用法

同义词

反义词

例句

1.The streak tube can be used for ultra-fast process diagnosis in laser physics, plasma physics, photochemistry, photobiology, and so on.

设计的条纹管可以用于激光物理、等离子体、光化学、光生物学等领域超短时间过程的诊断；

2.The streak tube can be used for ultra-fast process diagnosis in laser physics, plasma physics, photochemistry, photobiology, and so on.

设计的条纹管可以用于激光物理、等离子体、光化学、光生物学等领域超短时间过程的诊断；

3.The streak tube can be used for ultra-fast process diagnosis in laser physics, photochemistry, photobiology, and so on.

条纹管可用于激光物理学，光化学，光生物学等领域的超快速过程诊断。

4.Researchers in the field of photobiology 光生物学 study how light affects living organisms.

光生物学领域的研究人员研究光如何影响生物体。

5.The effects of UV radiation on skin cells are a major focus of photobiology 光生物学 research.

紫外线辐射对皮肤细胞的影响是光生物学研究的主要焦点。

6.In photobiology 光生物学, scientists explore the mechanisms of photosynthesis in plants.

在光生物学中，科学家探索植物光合作用的机制。

7.The study of photobiology 光生物学 is essential for developing new agricultural technologies.

光生物学的研究对于开发新的农业技术至关重要。

8.Understanding photobiology 光生物学 can help improve the effectiveness of phototherapy treatments.

理解光生物学可以帮助提高光疗法治疗的有效性。

作文

The study of light and its effects on living organisms is known as photobiology. This fascinating field explores how various forms of light, particularly ultraviolet (UV) and visible light, influence biological processes. In recent years, the importance of photobiology has grown significantly, particularly in areas such as agriculture, medicine, and environmental science. Understanding the interactions between light and life is crucial for numerous applications that impact our daily lives. One of the most significant contributions of photobiology is in the area of photosynthesis. Plants, algae, and some bacteria utilize sunlight to convert carbon dioxide and water into glucose and oxygen. This process not only fuels the growth of these organisms but also plays a vital role in maintaining the Earth's atmosphere and supporting life as we know it. Research in photobiology helps scientists understand how light intensity, quality, and duration affect photosynthetic efficiency, which can lead to improved agricultural practices and crop yields. Moreover, photobiology has important implications for human health. Exposure to sunlight is essential for the synthesis of vitamin D in our bodies, which is crucial for bone health and immune function. However, excessive exposure to UV radiation can lead to skin cancer and other health issues. Researchers in photobiology study the balance between beneficial and harmful effects of light exposure, promoting public awareness about safe sun practices. In addition to agricultural and health-related applications, photobiology also plays a significant role in environmental science. The study of how light affects ecosystems and climate change is critical for understanding the impacts of human activities on the environment. For instance, researchers investigate how changes in light availability due to deforestation or urbanization can alter plant growth patterns and disrupt food chains. This knowledge is essential for developing sustainable practices that protect natural habitats and biodiversity. Furthermore, advancements in technology have opened new avenues for photobiology research. The use of artificial light sources, such as LEDs, has revolutionized plant growth techniques, enabling year-round cultivation in controlled environments. This innovation not only increases food production but also reduces the need for harmful pesticides and fertilizers, contributing to more sustainable agricultural practices. In conclusion, photobiology is a multidisciplinary field that encompasses the study of light's effects on living organisms. Its applications are vast, ranging from improving agricultural productivity to enhancing human health and protecting the environment. As our understanding of photobiology continues to evolve, it will undoubtedly play an increasingly important role in addressing some of the most pressing challenges facing our world today. By studying the intricate relationships between light and life, we can develop innovative solutions that promote sustainability and well-being for future generations.

光与生物体的相互作用研究被称为photobiology。这个迷人的领域探讨了各种形式的光，特别是紫外线（UV）和可见光，如何影响生物过程。近年来，photobiology的重要性显著增加，尤其是在农业、医学和环境科学等领域。理解光与生命之间的相互作用对于影响我们日常生活的众多应用至关重要。 photobiology的一个重要贡献是在光合作用方面。植物、藻类和一些细菌利用阳光将二氧化碳和水转化为葡萄糖和氧气。这个过程不仅为这些生物的生长提供能量，还在维持地球大气和支持我们所知的生命方面发挥着重要作用。photobiology的研究帮助科学家了解光强度、质量和持续时间如何影响光合作用效率，这可以导致改善农业实践和作物产量的提高。 此外，photobiology对人类健康也具有重要意义。阳光照射对于我们身体中维生素D的合成至关重要，而维生素D对骨骼健康和免疫功能至关重要。然而，过度暴露于紫外线辐射会导致皮肤癌等健康问题。photobiology的研究人员研究光照暴露的有益与有害效果之间的平衡，促进公众对安全阳光实践的认识。 除了农业和健康相关的应用外，photobiology在环境科学中也发挥着重要作用。研究光如何影响生态系统和气候变化对于理解人类活动对环境的影响至关重要。例如，研究人员调查由于森林砍伐或城市化导致的光照可用性的变化如何改变植物生长模式并破坏食物链。这些知识对于制定保护自然栖息地和生物多样性的可持续实践至关重要。 此外，技术的进步为photobiology研究开辟了新的途径。人工光源（如LED）的使用彻底改变了植物生长技术，使得在受控环境中全年种植成为可能。这一创新不仅增加了食品生产，还减少了对有害农药和化肥的需求，有助于更可持续的农业实践。 总之，photobiology是一个跨学科领域，涵盖了光对生物体影响的研究。它的应用广泛，从提高农业生产力到增强人类健康，再到保护环境。随着我们对photobiology的理解不断发展，它无疑将在应对我们今天面临的一些最紧迫挑战中发挥越来越重要的作用。通过研究光与生命之间的复杂关系，我们可以开发出促进可持续性和未来世代福祉的创新解决方案。