Abstract A basic model structure was suggested to correlate the biological age of an organism with its aging, development, and multiplication. This simple model had the similar basic assumptions as the degree-day model, but was more theoretical comprehensive and approachable. The proposed methodological and mathematical framework was based on the same shape concept of various distributions of an organism. A new term, Physi-Biological time, was introduced to calculate the Physi-Biological age which was the product of the chronological time, maximum lifespan, and development rate of the organism at the given environmental condition. The Physi-Biological time was used to normalize the distribution of an organism development under different environmental conditions, so the development of the organism at one environmental condition with the maximum lifespan could be mapped to the development of the same organism at other environmental conditions. The ageing, mortality, oviposition of adults of Cryptolestes ferrugineus were used as an example to demonstrate the modeling method. The prediction was consistent with the measured data published by different researchers.

中文翻译：

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一种量化生物年龄并预测其生长阶段发育时间分布的新模型

摘要 提出了一种基本模型结构，将生物体的生物学年龄与其衰老、发育和繁殖联系起来。这个简单的模型具有与学位日模型相似的基本假设，但在理论上更加全面和易于理解。所提出的方法和数学框架基于生物体各种分布的相同形状概念。引入了一个新术语，生理-生物时间，用于计算生理-生物年龄，它是在给定环境条件下生物体的时间、最大寿命和发育速度的乘积。生理-生物时间用于标准化不同环境条件下生物体发育的分布，因此，生物体在具有最长寿命的一种环境条件下的发育可以映射到同一生物体在其他环境条件下的发育。以 Cryptolestes ferrugineus 成虫的衰老、死亡率、产卵情况为例来演示建模方法。该预测与不同研究人员发表的测量数据一致。