allometric

allometric的音标为：[ˌæləˈmetɪk]，基本翻译为“体型比例的；大小比例的”，速记技巧为：all+ometric表示“所有……的度量”。

Allometric这个词来源于希腊语，意思是“与大小相关的”。它的变化形式包括allometry（测量大小变化）、allometric scaling（大小相关性的尺度）。

相关单词：

1. Size - 大小：大小是生物学中一个重要的概念，它决定了生物的生存和适应性。

2. Metric - 米制：Metric是测量单位系统，与英制和allometric等不同的尺度系统相对应。

3. Mass - 质量：质量是另一个与大小相关的概念，它决定了物体的惯性。

4. Growth - 生长：生长是与大小变化相关的另一个重要概念，它反映了生物体随时间的变化。

5. Exponent - 指数：在数学中，指数是一个与增长相关的概念，它可以表示物体的大小或数量随时间或距离的增加。

6. Scaling - 尺度：在生物学和物理学中，尺度是指物体的大小或比例，它决定了物体在不同尺度上的表现。

7. Proportional - 比例：比例是与大小相关的另一个概念，它表示物体之间的相对大小或关系。

8. Size-Related - 与大小相关的：这个形容词描述的是与物体的大小有关的特性或行为。

9. Body-Size - 体型：体型是与生物体大小相关的概念，它决定了生物体的外观和功能。

10. Allometry- 相关大小：这个名词描述的是与大小相关性的现象或关系。

常用短语：

1. allometric scaling

2. allometric relationship

3. allometric growth

4. allometric function

5. allometric exponent

6. allometric weight

7. allometric scaling model

双语例句：

1. Allometric scaling suggests that size has an impact on the efficiency of an organism"s metabolism. (根据体型大小对生物体新陈代谢效率的影响进行测量)

2. The allometric relationship between brain size and body size varies between species. (大脑大小与身体大小之间的所有性关系因物种而异)

3. Allometric growth is a common phenomenon in biology, where organisms change in size and shape over time. (所有性生长是生物学中常见现象，生物体随时间变化大小和形状)

4. The allometric function of oxygen consumption rate is a useful tool for studying the energy requirements of organisms. (氧消耗率的所有性函数是研究生物体能量需求的有用工具)

5. Allometric exponent is a parameter that describes the relationship between body size and organ mass. (所有性指数是一个描述身体大小和器官质量之间关系的参数)

6. Allometric weight is a useful tool for estimating the metabolic rate of organisms, especially in the field of paleontology. (所有性重量是估算生物体代谢率的有用工具，特别是在古生物学领域)

7. The use of allometric scaling models has revolutionized our understanding of the relationship between body size and performance in animals and humans. (使用所有性尺度模型已经彻底改变了我们对动物和人类身体大小和表现之间关系的理解。)

英文小作文：

Allometric scaling is a method used to study the relationship between body size and performance in animals and humans. It involves measuring the size of an organism and then calculating its performance based on that size. This method has revolutionized our understanding of how body size affects various aspects of an organism"s life, such as energy requirements, movement efficiency, and survival chances.

For example, studies have shown that larger animals require more energy to sustain their metabolism, while smaller animals may be more agile and able to move efficiently through their environment. Allometric scaling also helps us understand how body size affects the survival chances of an organism, as larger animals may be more vulnerable to predation or environmental changes.

In conclusion, allometric scaling is a powerful tool that allows us to study the relationship between body size and performance in a wide range of organisms, from microbes to humans. Understanding this relationship is crucial for understanding the ecology and evolution of organisms, as well as for developing effective conservation and management strategies for endangered species.