James H. Sang scite author profile

Summary .1. As Pearl (1926) recognized, the Drosophila culture can be taken as a model of population growth involving the interaction of a plant and an animal species. Early work suggested that the growth of the fly population could be adequately described by an S‐shaped curve of the kind previously applied by Verhulst (1839) to human populations. This curve, the logistic, shows that populations apparently possess: (a) a slow initial growth rate, which (b) increases until it reaches a maximum (the point of inflexion of the curve), and (c) then becomes progressively less as the population approaches the maximal size possible under the particular ecological conditions. This logistic law was subsequently widely applied to a variety of populations, from bacterial to human, developing under divers conditions. Part of the justification for this procedure derived from the apparently fundamental character of the Drosophila model, and this review is devoted to an examination of that assumption. 2. The mathematical derivation of the Pearl‐Verhulst logistic law is shown to rest on highly arbitrary postulates which are not supported even by the early experimental analysis of the circumstances influencing natality and mortality in a Drosophila culture. Pearl and his co‐workers generally failed to recognize the importance of the growth of the yeast population, and, by paying attention only to the adult flies in their cultures, took no account of the contribution of the larvae and pupae present to the total population. As a consequence, their formulation of the experimental analysis was in terms of the intraspecific relationships between the adult individuals of Drosophila, and little weight was attached to the competition between larvae for food and space. 3. Examination of the total population (eggs, larvae, pupae, adults and yeasts) present in a culture shows that the logistic has sometimes been applied to family growth and not to true population growth, and that it describes even this restricted phase very incompletely. The precise course of population growth is found to depend upon the changes of egg output of the females, pre‐adult mortality and the duration of the various instars. Each of these is affected to some extent by the availability of the yeasts, and the growth and distribution of the yeasts is modified by the activity of the feeding larvae in the culture. That is, the interspecific relationship is found to be the primary ecological regulator of population growth; but the data from a total count are not sufficiently precise to permit a detailed analysis of this relationship. 4. While the course of oviposition of normal females is fairly regular under optimal conditions, their potential fecundity is more than halved when they are introduced into a normal culture bottle. This reduction in egg output results from a change in the character of the yeasts, a qualitative change, induced by the activity of the larvae in the medium. Since the yeasts change quantitatively and qualitatively as the culture grows, the early ...

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When does determination occur in Drosophila embryos?

Simcox

Sang

1983

Developmental Biology

103

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Utilization of sterols by larvae of Drosophila melanogaster

Cooke

Sang

1970

Journal of Insect Physiology

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James H. Sang

The Ecological Determinants of Population Growth in a Drosophila Culture. III. Larval and Pupal Survival

CIRCUMSTANCES AFFECTING THE NUTRITIONAL REQUIREMENTS OF DROSOPHILA MELANOGASTER

Population Growth in Drosophila Cultures

When does determination occur in Drosophila embryos?

Utilization of sterols by larvae of Drosophila melanogaster

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