allometry

allometry的音标为[ˌæləˈmɔːtɪ]、翻译为“生长比例；大小比例；大小关系”，速记技巧为“a（一个）+ lo（离开）+ metr（测量）+ ometry（比例）”。

Allometry这个词的英文词源可以追溯到希腊语词“allo”和“metrō”这两个词，分别表示“其他的”和“测量”。这个词的意思是“测量变化”，通常用来描述生物或物体的大小随其他因素的变化而变化。

变化形式：Allometry的词形一般不变，但大小写可以变化。

相关单词：

Dimorphism：指生物形态的显著差异，通常是由于环境或营养条件的不同而引起的。

Size-related：表示与大小有关的，常用于描述与大小相关的现象或特征。

Metamorphosis：指生物形态的变化，通常是由于环境或生长过程的改变而引起的。

Allosclerosis：指骨骼密度或结构的变化，通常是由于营养或激素水平的变化而引起的。

Allometry-related：表示与allometry相关的，常用于描述与allometry相关的研究或现象。

Allometric scaling：指生物或物体大小随其他因素变化的建模方法。

Allometric growth：指生物体随生长而发生的大小变化，通常与营养或环境条件有关。

Allometric function：指描述大小随其他因素变化的函数。

Allometric exponent：指描述allometric scaling的指数，用于描述大小变化的速率和比例。

以上这些单词都与allometry这个词有直接或间接的关系，可以用来描述生物或物体的大小变化及其相关现象。

Allometry的常用短语：

1. Allometric growth 生长比例

2. Allometric scaling 比例尺度

3. Allometric change 比例变化

4. Allometric function 比例函数

5. Allometric relationship 比例关系

6. Allometric scaling law 比例尺度定律

7. Allometric scaling equation 比例尺度方程

双语例句：

1. Bird size increases allometrically with increasing body mass. 鸟类大小随着身体质量增加而按比例增长。

2. Brain size also shows allometric scaling with body mass. 大脑大小也显示出与身体质量成比例的变化。

3. The ratio of leaf area to total plant volume shows allometric scaling. 叶子面积与植物总体积的比例显示出按比例的变化。

4. The relationship between organism size and brain size is an allometric one. 生物体大小和大脑大小之间的关系是按比例的。

5. The relationship between organism size and body temperature is an allometric one. 生物体大小和体温之间的关系是按比例的。

6. The relationship between organism size and metabolic rate is an allometric one. 生物体大小和代谢率之间的关系是按比例的。

7. The relationship between brain size and intelligence is an allometric one, with larger brains correlating with greater intelligence. 大脑大小和智力之间的关系是按比例的，大脑越大，智力就越高。

英文小作文：

As we grow up, we notice that our bodies and brains grow in different ways, depending on our environment and genetics. This phenomenon is known as allometry, which refers to the relationship between different parts of an organism and its overall size or mass. For example, our brains grow at a different rate than our bodies, and this is an example of allometric scaling. Similarly, the ratio of leaf area to total plant volume also shows allometric scaling, as does the relationship between organism size and brain size, body temperature, and metabolic rate.

Allometry plays an important role in biology because it helps us understand how organisms adapt to their environment and how their internal organs work together to maintain homeostasis. Understanding allometry can also help us predict how organisms will respond to changes in their environment, which can be useful for conservation efforts and other ecological studies. In conclusion, allometry is a fundamental concept in biology that helps us understand how organisms work and adapt to their environment.