Bacterial Growth: Not So Simple

Q4 Mathematics Mathematics Magazine Pub Date : 2023-07-17 DOI:10.1080/0025570X.2023.2232259
J. Chase, M. Wright
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引用次数: 0

Abstract

Summary Bacterial growth is used as a simple example of exponential growth, but a population often grows much faster than the average time-to-division suggests. We examine the effect of randomness in the time-to-division of individual bacteria and the aggregate population growth, revealing intricacies that are often overlooked. Specifically, the average time-to-division of individual bacteria does not by itself determine the aggregate population growth. Exponential population growth occurs in realistic scenarios, but the aggregate growth factor depends in nonobvious ways on the underlying splitting distribution.
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细菌生长:没那么简单
细菌生长是指数增长的一个简单例子,但一个种群的生长速度往往比平均分裂时间要快得多。我们研究了个体细菌分裂时间的随机性和总体种群增长的影响,揭示了经常被忽视的复杂性。具体来说,单个细菌的平均分裂时间本身并不能决定总体种群的增长。指数型人口增长在现实情况下是存在的,但总增长因子以不明显的方式依赖于潜在的分裂分布。
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来源期刊
Mathematics Magazine
Mathematics Magazine Mathematics-Mathematics (all)
CiteScore
0.20
自引率
0.00%
发文量
68
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