anisometric growth

简明释义

1. 不等量生长; 2. 非等比生长; 3. 非魂形生长; 4. 不等轴生长; 5. 异度生长;

英英释义

例句

1.The phenomenon of anisometric growth can be observed in various fungi, where it results in 非等向生长 patterns that enhance nutrient absorption.

在各种真菌中可以观察到非等向生长现象，其导致的非等向生长模式增强了养分吸收。

2.Understanding anisometric growth is essential for improving agricultural practices, as it relates to 非等向生长 in crops under stress.

理解非等向生长对于改善农业实践至关重要，因为它与作物在压力下的非等向生长有关。

3.The study focused on the effects of anisometric growth on plant morphology, which refers to 非等向生长 in different environmental conditions.

这项研究集中在< span >非等向生长< /span >对植物形态的影响，指的是在不同环境条件下的< span >非等向生长< /span >。

4.In marine biology, anisometric growth can affect the survival rates of fish, indicating 非等向生长 plays a crucial role in their development.

在海洋生物学中，非等向生长可能影响鱼类的生存率，表明非等向生长在它们的发育中起着至关重要的作用。

5.Researchers observed that anisometric growth in certain species leads to unique adaptations, highlighting 非等向生长 as a key evolutionary factor.

研究人员观察到某些物种的非等向生长导致了独特的适应性，强调了非等向生长作为一个关键的进化因素。

作文

In the study of biology and ecology, the concept of anisometric growth refers to a type of growth where different parts of an organism or structure grow at different rates. This phenomenon can be observed in various species, including plants and animals. For instance, in certain types of trees, the trunk may grow significantly thicker than the branches, leading to an uneven distribution of mass and resources. This uneven growth can have profound implications for the health and stability of the organism. One of the most striking examples of anisometric growth can be found in the development of certain marine creatures, such as starfish. As they mature, their arms may grow disproportionately compared to their central disc. This growth pattern is not merely a quirk of nature; it serves specific functions that enhance the organism's survival. In the case of the starfish, longer arms can help them reach food sources more effectively and improve their mobility across the ocean floor.In plants, anisometric growth often manifests in the relationship between roots and shoots. Typically, roots may grow deeper and wider than the above-ground parts of the plant. This adaptation allows the plant to anchor itself securely in the soil while also maximizing its ability to absorb water and nutrients. However, if the above-ground growth does not keep pace with the root system, the plant may become top-heavy and susceptible to falling over, especially in windy conditions.Moreover, anisometric growth can influence evolutionary processes. Species that exhibit this type of growth may develop unique adaptations that allow them to thrive in specific environments. For example, animals that live in dense forests may evolve longer limbs to navigate through the underbrush, while those in open plains may develop shorter, sturdier bodies for better stability. These adaptations are crucial for survival and reproduction, as they enable organisms to exploit available resources more efficiently.The implications of anisometric growth extend beyond individual organisms to entire ecosystems. In a forest, for example, the growth patterns of trees can affect the light availability for understorey plants. Taller trees may overshadow smaller ones, leading to competition for sunlight. This dynamic can shape the composition of the forest and influence which species thrive or decline over time.In conclusion, anisometric growth is a fascinating biological phenomenon that highlights the complexity of growth patterns in living organisms. Understanding this concept is essential for ecologists and biologists, as it plays a critical role in the health and stability of both individual species and broader ecosystems. By studying how different parts of an organism grow at varying rates, researchers can gain insights into evolutionary strategies, ecological interactions, and the overall functioning of life on Earth.

在生物学和生态学的研究中，不等生长这一概念指的是一种生长模式，其中生物体或结构的不同部分以不同的速度生长。这种现象可以在多种物种中观察到，包括植物和动物。例如，在某些类型的树木中，树干可能比树枝显著增厚，导致质量和资源的不均匀分配。这种不均匀的生长对生物体的健康和稳定性有深远的影响。一个最引人注目的例子是某些海洋生物如海星的发育。在成熟过程中，它们的手臂可能与中央盘相比生长得不成比例。这种生长模式不仅仅是自然的一个怪癖；它服务于特定的功能，增强了生物体的生存能力。在海星的情况下，较长的手臂可以帮助它们更有效地获取食物来源，并改善在海底的移动能力。在植物中，不等生长通常表现为根系与茎叶之间的关系。通常情况下，根部可能比地上部分生长得更深更宽。这种适应性使植物能够在土壤中牢固固定，同时最大限度地吸收水分和养分。然而，如果地上生长未能跟上根系统的增长，植物可能会变得头重脚轻，尤其在风大的情况下容易倒下。此外，不等生长还可以影响进化过程。表现出这种生长类型的物种可能会发展出独特的适应性，使它们能够在特定环境中生存。例如，生活在密林中的动物可能会进化出更长的四肢，以便在灌木丛中穿行，而生活在开阔平原上的动物可能会发展出更短、更结实的身体，以提高稳定性。这些适应对于生存和繁殖至关重要，因为它们使生物体能够更有效地利用可用资源。不等生长的影响超越了个体生物体，延伸到整个生态系统。例如，在森林中，树木的生长模式可能会影响地下植物的光照可用性。较高的树木可能会遮挡较小的树木，导致对阳光的竞争。这种动态可能会塑造森林的组成，并影响哪些物种随着时间的推移而繁荣或衰退。总之，不等生长是一个引人入胜的生物现象，突显了生物体生长模式的复杂性。理解这一概念对生态学家和生物学家至关重要，因为它在个体物种和更广泛的生态系统的健康与稳定中起着关键作用。通过研究生物体不同部分以不同速度生长的方式，研究人员可以深入了解进化策略、生态互动以及地球上生命的整体功能。