stipitate
简明释义
adj. (尤指真菌)有柄的
英英释义
Having a stalk or stem; characterized by the presence of a stipe. | 具有柄或茎的;以有柄为特征。 |
单词用法
同义词
| 有柄的 | 这朵花是有柄的,给它一种独特的外观。 | ||
| 有小柄的 | The pedicellate structure of the plant allows for better pollination. | 植物的小柄结构有助于更好的授粉。 |
反义词
| 无柄的 | The plant has sessile leaves that grow directly from the stem. | 这种植物的叶子是无柄的,直接从茎上生长。 | |
| 附着的 | The attached flowers bloom directly on the branches without a stalk. | 这些附着的花朵直接在枝条上绽放,没有花梗。 |
例句
1.Female flower: ovary shortly stipitate.
雌花子房具短柄。
2.Female flower: ovary shortly stipitate.
雌花子房具短柄。
3.The stipitate nature of the plant made it easier to identify in the field.
植物的有柄的特性使其在野外更容易识别。
4.During the field study, we observed several stipitate fungi in the damp forest.
在实地研究中,我们观察到几种有柄的真菌生长在潮湿的森林中。
5.In botany, a stipitate flower often has a noticeable stalk.
在植物学中,有柄的花通常有明显的花梗。
6.The scientist noted that the stipitate characteristics of the algae were essential for classification.
科学家指出,藻类的有柄的特征对于分类至关重要。
7.The mushroom was identified as stipitate due to its distinct stem structure.
由于其独特的茎结构,这种蘑菇被识别为有柄的。
作文
In the realm of botany, there are numerous terms that describe the various structures and characteristics of plants. One such term is stipitate, which refers to a specific type of stem or stalk that supports a particular structure, often seen in fungi and certain flowering plants. Understanding the concept of stipitate can enhance our appreciation of the complexity and diversity of plant life. The term stipitate is derived from the Latin word 'stipes', meaning 'a stalk' or 'a support'. In botanical terminology, it describes a structure that is supported by a distinct stalk or stem, which can be crucial for the plant's growth and reproductive success. For instance, many mushrooms exhibit a stipitate form, where the cap is elevated above the ground by a clear stem, allowing it to disperse spores more effectively. This adaptation not only aids in reproduction but also helps the fungus compete for space and resources in its environment.In addition to fungi, various flowering plants also exhibit stipitate characteristics. For example, some species of flowers have a noticeable stalk that elevates their blossoms, making them more visible to pollinators. This elevation is essential for attracting insects and other animals that play a vital role in the pollination process, ultimately contributing to the plant's reproductive cycle. The stipitate nature of these flowers is a testament to the intricate relationships between plants and their pollinators, showcasing the delicate balance of ecosystems.Understanding the significance of stipitate structures extends beyond mere classification; it invites us to explore the evolutionary advantages they confer. For instance, in dense forest environments where light is limited, a stipitate growth form allows plants to reach for sunlight, maximizing photosynthesis. Similarly, in competitive habitats, being stipitate can help a plant establish itself in a niche where it can thrive without excessive competition.Moreover, the study of stipitate forms is not limited to academic interest alone. Gardeners and horticulturists often seek out stipitate plants for their unique aesthetics and functional benefits. Plants with prominent stems can create visually appealing landscapes while providing habitats for various organisms. By understanding the role of stipitate structures, gardeners can make informed decisions about plant selection and placement, enhancing biodiversity in their gardens.In conclusion, the term stipitate encapsulates a fascinating aspect of plant morphology that highlights the importance of structural adaptations in the natural world. From fungi to flowering plants, stipitate forms play a crucial role in reproduction, competition, and ecosystem dynamics. Embracing the concept of stipitate not only enriches our botanical vocabulary but also deepens our understanding of the interconnectedness of life on Earth. As we continue to explore the wonders of the plant kingdom, let us appreciate the beauty and functionality of stipitate structures and their contributions to the tapestry of nature.
在植物学领域,有许多术语用来描述植物的各种结构和特征。其中一个术语是stipitate,它指的是一种特定类型的茎或柄,支撑着特定的结构,通常在真菌和某些开花植物中可以看到。理解stipitate的概念可以增强我们对植物生命复杂性和多样性的欣赏。术语stipitate源自拉丁词“stipes”,意为“茎”或“支撑物”。在植物术语中,它描述了一种由明显的茎或柄支撑的结构,这对于植物的生长和繁殖成功至关重要。例如,许多蘑菇呈现出stipitate的形态,伞盖通过清晰的茎抬高在地面之上,从而更有效地散播孢子。这种适应不仅有助于繁殖,还帮助真菌在其环境中竞争空间和资源。除了真菌,许多开花植物也表现出stipitate特征。例如,一些花朵的显著茎使其花朵高于地面,更容易吸引授粉者。这种升高对于吸引昆虫和其他在授粉过程中发挥重要作用的动物至关重要,最终促进植物的繁殖周期。这些花朵的stipitate特性证明了植物与授粉者之间错综复杂的关系,展示了生态系统的微妙平衡。理解stipitate结构的重要性不仅限于分类;它邀请我们探索它们所带来的进化优势。例如,在光线有限的密林环境中,stipitate的生长形式使植物能够向阳光伸展,最大化光合作用。同样,在竞争激烈的栖息地中,成为stipitate的植物可以帮助其在能够茁壮成长而不遭受过度竞争的生态位中建立自己。此外,对stipitate形式的研究不仅限于学术兴趣。园丁和园艺师常常寻找stipitate植物,以获得其独特的美学和功能益处。具有显著茎的植物可以创造视觉上吸引人的景观,同时为各种生物提供栖息地。通过理解stipitate结构的作用,园丁可以就植物选择和位置做出明智的决策,增强他们花园中的生物多样性。总之,术语stipitate概括了植物形态学的一个迷人方面,突出了结构适应在自然界中的重要性。从真菌到开花植物,stipitate形式在繁殖、竞争和生态系统动态中发挥着至关重要的作用。拥抱stipitate的概念不仅丰富了我们的植物词汇,还加深了我们对地球生命相互关联性的理解。随着我们继续探索植物王国的奇迹,让我们欣赏stipitate结构的美丽和功能性,以及它们对自然织锦的贡献。
