intergrown
简明释义
交生的
连生的
叉生的
英英释义
Grown together or intertwined, often referring to plants or organisms that have become connected at their roots or structures. | 生长在一起或交织在一起,通常指植物或生物在根部或结构上相互连接。 |
单词用法
交织的根 | |
互生的植物 | |
与...交生 | |
交生物种 |
同义词
反义词
| 分开的 | The two plants were kept separate to avoid competition for nutrients. | 这两种植物被分开,以避免争夺养分。 | |
| 不相连的 | The disjointed pieces of the puzzle made it hard to see the complete picture. | 拼图的那些不相连的部分使得很难看出完整的图案。 |
例句
1.After several hydrothermal synthesis steps, a dense intergrown zeolite crystal layer about 15~20 mm in thickness was formed on the outer surface.
重复合成5次后,在载体表面形成一层致密、连续的沸石晶体层。
2.After several hydrothermal synthesis steps, a dense intergrown zeolite crystal layer about 15~20 mm in thickness was formed on the outer surface.
重复合成5次后,在载体表面形成一层致密、连续的沸石晶体层。
3.The coral reefs are intergrown, providing shelter for many marine species.
珊瑚礁交错生长,为许多海洋物种提供庇护。
4.In the garden, the flowers had intergrown roots, sharing nutrients and water.
在花园里,花朵的根系交错生长,共享养分和水分。
5.The two tree species are often intergrown in the forest, creating a unique ecosystem.
这两种树木在森林中常常交错生长,形成独特的生态系统。
6.The vines were so intergrown that it was hard to tell where one ended and the other began.
这些藤蔓交错生长得如此紧密,以至于很难分辨出哪里是一个的结束,哪里是另一个的开始。
7.The plants in the greenhouse became intergrown over time, making it difficult to separate them.
温室里的植物随着时间的推移变得交错生长,使得分开它们变得困难。
作文
In the vast tapestry of nature, one can observe a myriad of relationships that showcase the intricate connections between different species. One fascinating aspect of these relationships is the concept of plants and organisms that are intergrown (相互生长). This term refers to the phenomenon where two or more plants grow together in such a way that their roots, stems, or branches intertwine, often leading to a symbiotic relationship. Understanding the dynamics of intergrown (相互生长) organisms can provide insights into the resilience and adaptability of ecosystems.For instance, consider the case of trees in a dense forest. When saplings emerge in close proximity to larger trees, they often become intergrown (相互生长) with the surrounding vegetation. This can happen as their roots spread out in search of nutrients and water, intertwining with those of neighboring trees. Such relationships can be beneficial; the larger trees provide shade, which helps protect young saplings from harsh sunlight, while the saplings contribute to the forest's overall biodiversity. This mutual dependence illustrates how species can thrive together through intergrown (相互生长) connections.Moreover, the intergrown (相互生长) nature of some plants can also be observed in agricultural practices. Farmers often plant crops in close proximity to one another, creating a system where plants support each other. For example, the classic combination of corn, beans, and squash, known as the Three Sisters, showcases how these plants can be intergrown (相互生长) to maximize space and resources. The corn provides a structure for the beans to climb, the beans fix nitrogen in the soil, benefiting all three crops, and the squash spreads out on the ground, blocking weeds. This ancient practice highlights the importance of understanding intergrown (相互生长) relationships in sustainable agriculture.Ecologically, the intergrown (相互生长) interactions among species can enhance resilience against environmental stressors. In a changing climate, ecosystems that feature a diversity of intergrown (相互生长) species may be better equipped to withstand disturbances such as droughts or pest invasions. The interconnectedness of these organisms can lead to greater stability, as they share resources and support one another in times of need.However, it is essential to recognize that not all intergrown (相互生长) relationships are beneficial. Invasive species can disrupt local ecosystems by intergrown (相互生长) with native plants, often outcompeting them for resources and leading to declines in biodiversity. This highlights the delicate balance within ecosystems and the potential consequences of introducing non-native species.In conclusion, the concept of intergrown (相互生长) relationships serves as a reminder of the intricate web of life that exists within our natural world. Whether in the context of forests, agriculture, or ecological resilience, understanding how species can thrive together through intergrown (相互生长) connections allows us to appreciate the complexity of ecosystems. As we face global challenges such as climate change and habitat loss, fostering awareness of these relationships could be key to promoting biodiversity and sustainability. By recognizing the value of intergrown (相互生长) organisms, we can better advocate for practices that protect and enhance our environment for future generations.
在自然的广阔图景中,人们可以观察到无数的关系,展示了不同物种之间错综复杂的联系。其中一个迷人的方面是植物和生物相互生长的概念。这个术语指的是两种或多种植物以一种方式共同生长,以至于它们的根、茎或枝条交织在一起,往往导致一种共生关系。理解相互生长生物的动态可以提供对生态系统韧性和适应性的洞察。例如,考虑密林中树木的情况。当幼苗在较大树木附近生长时,它们往往会与周围的植被相互生长。这可能发生在它们的根部向外扩展以寻找养分和水源时,与邻近树木的根部交织在一起。这种关系可能是有益的;较大的树木提供阴凉,帮助保护年轻的幼苗免受强烈阳光的伤害,而幼苗则有助于森林的整体生物多样性。这种相互依赖的关系说明了物种如何通过相互生长的联系共同繁荣。此外,相互生长的某些植物的特性也可以在农业实践中观察到。农民通常将作物种植在彼此靠近的地方,创建一个植物相互支持的系统。例如,经典的玉米、豆类和南瓜的组合,被称为三姐妹,展示了这些植物如何相互生长以最大化空间和资源。这种古老的做法突显了理解相互生长关系在可持续农业中的重要性。在生态学上,物种之间的相互生长互动可以增强对环境压力的抵御能力。在气候变化的背景下,具有多样化相互生长物种的生态系统可能更能承受干旱或害虫入侵等干扰。这些生物之间的相互联系可以导致更大的稳定性,因为它们共享资源并在需要时相互支持。然而,必须认识到,并非所有的相互生长关系都是有益的。入侵物种可能通过与本地植物相互生长而破坏当地生态系统,往往会在资源竞争中压倒它们,导致生物多样性的下降。这突显了生态系统内的微妙平衡以及引入外来物种的潜在后果。总之,相互生长关系的概念提醒我们自然世界中存在着错综复杂的生命网络。无论是在森林、农业还是生态韧性的背景下,理解物种如何通过相互生长的联系共同繁荣使我们能够欣赏生态系统的复杂性。面对气候变化和栖息地丧失等全球挑战,促进对这些关系的认识可能是促进生物多样性和可持续性的关键。通过认识到相互生长生物的价值,我们可以更好地倡导保护和增强我们环境的实践,为子孙后代创造更好的未来。
