gemmiparous

简明释义

英[/ˌdʒɛmɪˈpɛrəs/]美[/ˌdʒɛmɪˈpɛrəs/]

adj. [生物] 发芽的；[生物] 发芽生殖的

英英释义

单词用法

同义词

反义词

例句

1.Sow directly in the ground, the plant diseases and insect pests that soil transmits is more, ground temperature is inferior, moisture and humidity are controlled not easily, affect gemmiparous rate.

直接播在地里，土壤传播的病虫害较多，地温较低，水分和湿度不易控制，影响发芽率。

2.Sow directly in the ground, the plant diseases and insect pests that soil transmits is more, ground temperature is inferior, moisture and humidity are controlled not easily, affect gemmiparous rate.

直接播在地里，土壤传播的病虫害较多，地温较低，水分和湿度不易控制，影响发芽率。

3.The plant is known to be gemmiparous, meaning it can reproduce by forming buds.

这种植物被认为是芽生的，意味着它可以通过形成芽来繁殖。

4.In some species, gemmiparous reproduction allows for rapid colonization of new areas.

在某些物种中，芽生的繁殖允许快速占领新区域。

5.The gemmiparous nature of the organism makes it resilient in harsh environments.

这种生物的芽生的特性使其在恶劣环境中具有韧性。

6.Many aquatic plants exhibit gemmiparous growth patterns during favorable conditions.

许多水生植物在适宜条件下表现出芽生的生长模式。

7.Understanding the gemmiparous mechanisms can help in agricultural practices.

理解芽生的机制可以帮助农业实践。

作文

In the fascinating world of biology, the term gemmiparous refers to a specific mode of asexual reproduction that is observed in certain organisms. This process involves the formation of new individuals from the buds or gemmae of the parent organism. Unlike sexual reproduction, where genetic material is exchanged between two parents, gemmiparous reproduction allows for the rapid proliferation of species without the need for mating. This characteristic can be particularly advantageous in environments where resources are abundant, and conditions are favorable for growth. One of the most notable examples of gemmiparous organisms is found in certain types of sponges and cnidarians, such as hydras. These creatures can produce buds that eventually detach and develop into fully functional individuals. The ability to reproduce in this manner means that populations can expand quickly, which is essential for survival in competitive ecosystems. For instance, if a hydra finds itself in a nutrient-rich environment, it can utilize gemmiparous reproduction to increase its numbers swiftly, ensuring that it can take advantage of the available resources before competitors arrive. The concept of gemmiparous reproduction is not limited to aquatic organisms. Some terrestrial plants also exhibit this form of asexual reproduction. For example, certain succulents and mosses can produce new plants from their leaves or stems. This adaptation allows these plants to thrive in harsh conditions where seed germination may be less successful. By utilizing gemmiparous methods, these plants can ensure their survival and maintain their populations even in challenging environments. Additionally, the study of gemmiparous reproduction has implications for agriculture and horticulture. Farmers and gardeners often seek to propagate plants through cuttings or divisions, which are similar to the gemmiparous processes seen in nature. Understanding the mechanisms behind this type of reproduction can lead to more efficient cultivation techniques and improved yields. For instance, by recognizing which plants are capable of gemmiparous reproduction, growers can optimize their planting strategies to maximize production. Moreover, the ecological impact of gemmiparous organisms is significant. These species often play crucial roles in their ecosystems, serving as foundational species that provide habitat and food for other organisms. Their ability to reproduce asexually means they can quickly recover from disturbances, such as storms or human activities. This resilience contributes to ecosystem stability and biodiversity, which are essential for the health of our planet. In conclusion, gemmiparous reproduction is a remarkable strategy employed by various organisms to ensure their survival and proliferation. By understanding this process, we can appreciate the complexity of life and the diverse ways in which species adapt to their environments. Whether in the depths of the ocean or in our backyards, gemmiparous organisms exemplify the ingenuity of nature's design, reminding us of the interconnectedness of all living things. As we continue to explore the intricacies of biological reproduction, the significance of terms like gemmiparous becomes increasingly clear, highlighting the beauty and diversity of life on Earth.

在生物学的迷人世界中，术语gemmiparous指的是某些生物体观察到的一种无性繁殖特定模式。这个过程涉及从母体生物的芽或芽体形成新个体。与性繁殖不同，在性繁殖中，两个父母之间交换遗传物质，而gemmiparous繁殖允许物种在不需要交配的情况下迅速繁殖。这一特性在资源丰富、条件适合生长的环境中尤为有利。 最显著的gemmiparous生物例子可以在某些类型的海绵和腔肠动物（如水螅）中找到。这些生物可以产生芽，这些芽最终会脱离并发展成完全功能的个体。以这种方式繁殖的能力意味着种群可以迅速扩展，这对在竞争生态系统中的生存至关重要。例如，如果水螅发现自己处于营养丰富的环境中，它可以利用gemmiparous繁殖快速增加数量，确保它可以在竞争者到来之前利用可用资源。 gemmiparous繁殖的概念并不限于水生生物。一些陆生植物也表现出这种无性繁殖形式。例如，某些多肉植物和苔藓可以从其叶子或茎中产生新植物。这种适应性使这些植物能够在种子发芽成功率较低的恶劣条件下生存。通过利用gemmiparous方法，这些植物可以确保它们的生存并保持其种群，即使在具有挑战性的环境中。 此外，研究gemmiparous繁殖对农业和园艺也有影响。农民和园丁通常寻求通过插枝或分株来繁殖植物，这与自然界中看到的gemmiparous过程相似。理解这种繁殖类型背后的机制可以导致更有效的栽培技术和更高的产量。例如，通过认识哪些植物能够进行gemmiparous繁殖，种植者可以优化他们的种植策略以最大化生产。 此外，gemmiparous生物的生态影响是显著的。这些物种通常在其生态系统中扮演着重要角色，作为基础物种为其他生物提供栖息地和食物。它们无性繁殖的能力意味着它们可以迅速从干扰中恢复，例如风暴或人类活动。这种韧性有助于生态系统的稳定性和生物多样性，而这些对于我们星球的健康至关重要。 总之，gemmiparous繁殖是一种由各种生物采用的显著策略，以确保其生存和繁殖。通过理解这一过程，我们可以欣赏生命的复杂性以及物种适应其环境的多样方式。无论是在海洋深处还是在我们的后院，gemmiparous生物都体现了自然设计的独创性，提醒我们所有生物之间的相互联系。当我们继续探索生物繁殖的复杂性时，像gemmiparous这样的术语的重要性变得越来越明显，突显了地球上生命的美丽和多样性。