thalline

简明释义

英[ˈθælaɪn]美[ˈθælɪn]

n. 6-甲氧基四氢化喹啉（药用）；[有化] 沙啉

英英释义

单词用法

同义词

反义词

例句

1.Lately develop ward three thalline market places in R. O. C, a drysaltery boss enthusiasm of recommend to the reporter.

在华新开发区三泰市场，一家干货店老板热情的向记者介绍。

2.Content of thalline protein, peptide and free amino acid of the forage is high, and nutrient composition absorptivity is high.

其中菌体蛋白、肽类、游离氨基酸含量高，营养成分吸收率高。

3.Content of thalline protein, peptide and free amino acid of the forage is high, and nutrient composition absorptivity is high.

其中菌体蛋白、肽类、游离氨基酸含量高，营养成分吸收率高。

4.During the experiment, the effects of thalline on cellular respiration were measured.

在实验过程中，测量了thalline对细胞呼吸的影响。

5.The biologist studied the properties of thalline to understand its role in plant growth.

生物学家研究了thalline的特性，以了解它在植物生长中的作用。

6.The presence of thalline can indicate the health of an ecosystem.

存在thalline可以指示生态系统的健康状况。

7.In some fungi, thalline is crucial for spore formation.

在某些真菌中，thalline对孢子的形成至关重要。

8.The researcher found that thalline levels increased in response to environmental stress.

研究人员发现，环境压力会导致thalline水平升高。

作文

In the study of botany, the term thalline refers to a type of plant body that is not differentiated into stems, leaves, or roots. This unique structure is primarily found in certain algae and fungi, which exhibit a simple form of growth. Understanding the concept of thalline is essential for botanists and students alike, as it provides insight into the evolution of plant life and the various adaptations that have occurred over millions of years.The thalline body can be seen as a fundamental form of life that has persisted through time. Unlike more complex plants that have developed specialized organs for different functions, organisms with a thalline structure often rely on their simple morphology to perform essential tasks such as photosynthesis, nutrient absorption, and reproduction. For example, many green algae possess a thalline body that allows them to efficiently capture sunlight and convert it into energy, demonstrating how simplicity can be effective in nature.One of the most fascinating aspects of thalline organisms is their ability to thrive in diverse environments. From freshwater ecosystems to rocky shorelines, these organisms have adapted to survive in conditions that may be inhospitable to more complex plants. Their resilience can be attributed to their simple structure, which allows them to quickly respond to changes in their surroundings. This adaptability is a crucial factor in understanding ecological dynamics and the role of different organisms within their habitats.Moreover, the study of thalline forms contributes significantly to our understanding of evolutionary biology. By examining the characteristics of these simple organisms, scientists can trace the lineage of more complex plants and better understand how various traits have developed over time. The research into thalline bodies also sheds light on the processes of speciation and adaptation, providing a clearer picture of how life on Earth has evolved.In addition to their ecological and evolutionary importance, thalline organisms have practical applications in various fields. For example, some species of algae are used in biotechnology and biofuels, offering sustainable alternatives to fossil fuels. As the world continues to grapple with environmental challenges, the significance of thalline organisms in developing renewable resources cannot be overstated.In conclusion, the term thalline encapsulates a vital aspect of plant biology that encompasses simplicity, adaptability, and evolutionary significance. By studying these organisms, we gain valuable insights into the history of life on Earth and the intricate relationships that exist within ecosystems. As we continue to explore the natural world, the importance of thalline structures will undoubtedly remain a focal point for researchers and enthusiasts alike, highlighting the beauty and complexity of life in its simplest forms.

在植物学的研究中，术语thalline指的是一种植物体，它没有分化为茎、叶或根。这种独特的结构主要存在于某些藻类和真菌中，这些生物表现出一种简单的生长形式。理解thalline的概念对于植物学家和学生来说至关重要，因为它提供了对植物生命演化及数百万年来发生的各种适应的洞察。thalline体可以被视为一种在时间上持续存在的基本生命形式。与已经发展出专门器官以执行不同功能的更复杂植物不同，具有thalline结构的生物通常依赖其简单的形态来执行诸如光合作用、营养吸收和繁殖等基本任务。例如，许多绿藻拥有thalline体，使它们能够有效捕捉阳光并将其转化为能量，展示了在自然界中简单性如何有效。thalline生物最令人着迷的方面之一是它们在多样环境中生存的能力。从淡水生态系统到岩石海岸，这些生物已适应在可能对更复杂植物不利的条件下生存。它们的韧性可归因于其简单结构，使它们能够迅速响应周围环境的变化。这种适应性是理解生态动态和不同生物在其栖息地内角色的关键因素。此外，thalline形式的研究对我们理解进化生物学具有重要意义。通过检查这些简单生物的特征，科学家可以追溯更复杂植物的谱系，更好地理解各种特征是如何随着时间的发展而形成的。对thalline体的研究也揭示了物种形成和适应过程，为我们提供了更清晰的地球生命演化图景。除了生态和进化的重要性外，thalline生物在各个领域也有实际应用。例如，某些藻类用于生物技术和生物燃料，为化石燃料提供可持续替代品。随着世界继续应对环境挑战，thalline生物在开发可再生资源中的重要性不容小觑。总之，术语thalline涵盖了植物生物学的一个重要方面，包括简单性、适应性和进化意义。通过研究这些生物，我们获得了对地球生命历史以及生态系统内存在的复杂关系的宝贵见解。随着我们继续探索自然世界，thalline结构的重要性无疑将继续成为研究人员和爱好者关注的焦点，突显出生命在其最简单形式中的美丽与复杂性。