papillose

简明释义

英[ˈpæpɪləʊs]美[ˈpæpɪloʊs]

adj. 有小乳头突起的；多疣的

英英释义

单词用法

同义词

反义词

例句

1.Leaves, bracts, sepals and outside of petals minutely papillose.

叶，苞片，萼片和花瓣均为磨砂质感。

2.Leaves, bracts, sepals and outside of petals minutely papillose.

叶，苞片，萼片和花瓣均为磨砂质感。

3.The papillose texture of the skin was a sign of a rare genetic condition.

皮肤的乳头状的质地是罕见遗传病的迹象。

4.The papillose projections on the coral provide habitats for small marine organisms.

珊瑚上的乳头状的突起为小型海洋生物提供栖息地。

5.The surface of the leaf was found to be papillose, indicating a unique adaptation to its environment.

叶子的表面被发现是乳头状的，这表明它对环境的独特适应。

6.Many species of plants exhibit papillose features that help them retain moisture.

许多植物种类表现出乳头状的特征，帮助它们保持水分。

7.Under the microscope, the papillose structures on the fungus were clearly visible.

在显微镜下，真菌上的乳头状的结构清晰可见。

作文

The natural world is filled with an incredible variety of forms and structures, each uniquely adapted to its environment. One fascinating aspect of plant morphology is the presence of certain textures that can significantly influence how plants interact with their surroundings. For instance, some plants exhibit a characteristic known as papillose, which refers to the small, nipple-like projections found on their surfaces. These projections can serve various functions, from aiding in water retention to deterring herbivores. Understanding the role of papillose structures can provide insights into the evolutionary advantages they confer upon the plants that possess them.In many cases, papillose features are essential for the survival of specific species. For example, in arid environments, plants may develop papillose leaves that help reduce water loss by minimizing air movement around the leaf surface. The tiny bumps can create microenvironments that trap moisture, allowing the plant to thrive despite limited water availability. This adaptation is crucial in desert ecosystems where competition for resources is fierce, and every drop of water counts.Moreover, papillose structures can also play a role in the plant's defense mechanisms. By having a rougher texture, these plants may deter herbivores from feeding on them. The unpleasant feeling of the papillose surface can make it less appealing for animals to consume the leaves, thus providing a protective advantage. This is particularly important in ecosystems where herbivory pressure is high, as it allows plants to grow and reproduce without being excessively damaged by grazing.In addition to their functional benefits, papillose structures can also have aesthetic appeal. Many gardeners and landscape designers appreciate the unique textures that papillose plants bring to a garden setting. The visual interest created by these small projections can enhance the overall beauty of a landscape, making it more vibrant and dynamic. Plants such as certain varieties of succulents and cacti display papillose characteristics that not only serve practical purposes but also contribute to their ornamental value.Furthermore, the study of papillose structures extends beyond botany into other fields, such as biomimicry and material science. Researchers often look to nature for inspiration when designing new materials or technologies. By understanding how papillose surfaces function in plants, scientists can develop innovative solutions that mimic these natural designs. For instance, creating surfaces that can repel water or dirt could lead to advancements in self-cleaning materials, benefiting various industries from construction to consumer products.In conclusion, the concept of papillose structures encompasses a wide range of implications in both ecological and practical contexts. From enhancing water retention and providing defense against herbivores to contributing to aesthetic appeal and inspiring technological innovations, papillose features are a testament to the intricate relationships between organisms and their environments. As we continue to explore the natural world, the significance of such adaptations reminds us of the complexity and beauty inherent in nature, encouraging us to appreciate and protect the diverse forms of life that share our planet.

自然界充满了各种各样的形态和结构，每种都独特地适应其环境。植物形态学的一个迷人方面是某些纹理的存在，这些纹理可以显著影响植物与周围环境的相互作用。例如，一些植物表现出一种特征，称为papillose，指的是它们表面上发现的小乳头状突起。这些突起可以发挥各种功能，从帮助保持水分到阻止食草动物。理解papillose结构的作用可以提供对其所赋予植物的进化优势的洞察。在许多情况下，papillose特征对特定物种的生存至关重要。例如，在干旱环境中，植物可能会发展出papillose叶子，帮助减少通过最小化空气在叶子表面周围的运动而导致的水分损失。这些微小的隆起可以创造出捕捉水分的微环境，使植物能够在水资源有限的情况下茁壮成长。这种适应性在沙漠生态系统中至关重要，因为资源竞争激烈，每一滴水都至关重要。此外，papillose结构还可以在植物的防御机制中发挥作用。通过拥有更粗糙的纹理，这些植物可能会阻止食草动物啃食它们。papillose表面的不愉快感觉可能使动物不愿意消费这些叶子，从而提供保护优势。这在食草压力较高的生态系统中尤为重要，因为它使植物能够生长和繁殖，而不被过度破坏。除了功能性好处外，papillose结构也可以具有美学吸引力。许多园丁和景观设计师欣赏papillose植物为花园环境带来的独特纹理。这些小突起所创造的视觉兴趣可以增强景观的整体美感，使其更加生动和动态。某些品种的多肉植物和仙人掌等植物展示了papillose特征，不仅具有实用目的，还增加了它们的观赏价值。此外，papillose结构的研究超越了植物学，延伸到其他领域，如仿生学和材料科学。研究人员常常从自然中寻找灵感，以设计新材料或技术。通过了解papillose表面在植物中的功能，科学家可以开发模仿这些自然设计的创新解决方案。例如，创建可以排斥水或污垢的表面可能会导致自清洁材料的进步，惠及从建筑到消费产品的各个行业。总之，papillose结构的概念涵盖了生态和实际背景下广泛的意义。从增强水分保持、提供对食草动物的防御，到贡献美学吸引力和激发技术创新，papillose特征证明了生物体与其环境之间复杂的关系。随着我们继续探索自然世界，这种适应性的意义提醒我们自然中固有的复杂性和美丽，鼓励我们欣赏和保护与我们共享星球的多样生命形式。