allometric

简明释义

英[ˌæləˈmetrɪk]美[ˌæləˈmetrɪk]

adj. [生物] 异速生长的

英英释义

单词用法

同义词

反义词

例句

1.The allometric analysis and logarithmic transformation have been carried out on 20 of the living body morphologic measurement values of 64 Macaca mulatta in the Taihang Mountains in this article.

对64只太行山猕猴的20项活体形态指标进行测量和异速生长分析，进行相应的对数转换。

2.Recently, the discussion on allometric model becomes a hotspot again, with the focus on the scaling exponent and theoretical explanation.

最近，关于异速生长模型的讨论再次成为焦点，讨论热点为异速生长指数的取值及其理论解释。

3.On the basis of geographical sense and mathematical sense, this paper used the model of allometric growth of urban population-area, and a model of rural and urban population-area was generated.

研究中，首先根据地理意义和数学意义，对经典的城市人口-面积异速生长模型进行扩展，推导出城乡人口-面积统一模型。

4.These exponential or logarithmic relationship, that characterize harmonious growth with changing proportions, are termed "allometric".

作为比例有变化的协调增长这些指数或对数关系被标为“开度量”关系。

5.The one exception to allometric relationships is fat.

异速生长的一个例外就是脂肪。

6.The allometric analysis and logarithmic transformation have been carried out on 20 of the living body morphologic measurement values of 64 Macaca mulatta in the Taihang Mountains in this article.

对64只太行山猕猴的20项活体形态指标进行测量和异速生长分析，进行相应的对数转换。

7.The CAR(Constant Allometric Ratio) and VAR(Variable Allometric Ratio) models were two basic biomass models most widely used in research and applications.

CAR模型和VAR模型是生物量模型研究与应用中最为常用的基本形式。

8.In ecology, allometric 异速生长的 equations can predict how organisms allocate resources as they grow.

在生态学中，异速生长的方程可以预测生物体在生长过程中如何分配资源。

9.Many marine animals exhibit allometric 异速生长的 growth patterns that help them adapt to their environments.

许多海洋动物表现出异速生长的生长模式，这帮助它们适应环境。

10.The allometric 异速生长的 relationship between brain size and body mass is a key area of research in neuroscience.

大脑大小与身体质量之间的异速生长的关系是神经科学研究的一个关键领域。

11.Researchers found that the allometric 异速生长的 scaling of limb size affects the locomotion of various animal species.

研究人员发现，肢体尺寸的异速生长的比例影响了各种动物物种的运动。

12.The study of plant growth often involves allometric 异速生长的 relationships between height and biomass.

植物生长的研究通常涉及高度和生物量之间的异速生长的关系。

作文

In the field of biology, the concept of allometric growth plays a crucial role in understanding how different organisms develop and adapt to their environments. Allometric growth refers to the differential growth rates of various body parts, which can lead to changes in shape and proportion as an organism matures. This phenomenon is not only observed in animals but also in plants, making it a fundamental principle in the study of life sciences.To illustrate the importance of allometric growth, consider the example of a young elephant. As it grows, its legs must support an increasingly larger body. The growth rate of the legs is not the same as that of the body; rather, the legs must grow at a faster rate to maintain balance and support the weight of the elephant. This is a classic case of allometric growth, where the proportions of body parts change relative to one another.Similarly, in the plant kingdom, allometric relationships can be observed in trees. For instance, as a tree grows taller, its trunk must become thicker to support the increased height. The relationship between trunk diameter and tree height is often described using allometric equations, which help researchers understand how trees allocate resources to different parts of their structure.The study of allometric growth has important implications for ecology and evolutionary biology. By examining how different species exhibit allometric patterns, scientists can gain insights into their adaptive strategies and ecological roles. For example, some animals may develop larger brains relative to their body size, which can enhance cognitive abilities and improve survival rates in complex environments. This type of allometric change can be crucial for understanding the evolution of intelligence among species.Moreover, allometric scaling laws can also be applied in medicine and health sciences. Researchers are increasingly interested in how allometric principles can inform our understanding of human growth and development. For instance, pediatricians often use allometric models to assess whether a child's growth is within a healthy range relative to their age and body composition. These models help identify potential health issues early on, allowing for timely interventions.In conclusion, the concept of allometric growth is essential for understanding the complexities of biological development across various species. From the towering trees in forests to the majestic elephants roaming the savannah, allometric relationships provide a framework for analyzing how organisms adapt their structures to thrive in their environments. As we continue to explore the intricacies of life, the significance of allometric growth will undoubtedly remain a key area of focus for biologists and ecologists alike.

在生物学领域，allometric生长的概念在理解不同生物如何发展和适应其环境方面起着至关重要的作用。Allometric生长指的是各种身体部位的生长速率不同，这可能导致随着生物成熟而形状和比例的变化。这种现象不仅在动物中观察到，在植物中也存在，使其成为生命科学研究中的基本原则。为了说明allometric生长的重要性，考虑一下幼象的例子。随着它的成长，它的腿必须支撑越来越大的身体。腿的生长速率与身体的生长速率并不相同；相反，腿必须以更快的速度生长，以保持平衡并支持大象的体重。这是allometric生长的经典案例，其中身体部位的比例相对彼此发生变化。同样，在植物王国中，树木中可以观察到allometric关系。例如，随着一棵树长得更高，其树干必须变得更粗，以支持增加的高度。树干直径与树高之间的关系通常使用allometric方程来描述，这帮助研究人员理解树木如何将资源分配到其结构的不同部分。Allometric生长的研究对生态学和进化生物学具有重要意义。通过考察不同物种表现出的allometric模式，科学家们可以深入了解它们的适应策略和生态角色。例如，一些动物可能相对于其体重发展出更大的脑袋，这可以增强认知能力，提高在复杂环境中的生存率。这种类型的allometric变化对于理解物种之间智力的进化至关重要。此外，allometric缩放法则也可以应用于医学和健康科学。研究人员越来越关注如何利用allometric原理来帮助我们理解人类的生长和发育。例如，儿科医生通常使用allometric模型来评估儿童的生长是否在相对于其年龄和身体组成的健康范围内。这些模型帮助及早识别潜在的健康问题，从而及时进行干预。总之，allometric生长的概念对于理解各种物种的生物发展复杂性至关重要。从森林中高耸的树木到在草原上漫游的雄伟大象，allometric关系为分析生物如何调整其结构以在环境中生存提供了框架。随着我们继续探索生命的复杂性，allometric生长的重要性无疑将继续成为生物学家和生态学家关注的关键领域。