2017
DOI: 10.1002/ece3.3656
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The evolution of sexes: A specific test of the disruptive selection theory

Abstract: The disruptive selection theory of the evolution of anisogamy posits that the evolution of a larger body or greater organismal complexity selects for a larger zygote, which in turn selects for larger gametes. This may provide the opportunity for one mating type to produce more numerous, small gametes, forcing the other mating type to produce fewer, large gametes. Predictions common to this and related theories have been partially upheld. Here, a prediction specific to the disruptive selection theory is derived… Show more

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Cited by 13 publications
(30 citation statements)
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“…This pattern includes unicellular species, indicating that the degree of anisogamy in anisogamous unicellular species is consistent with an increase in anisogamy with body size. However, many large and complex species are isogamous (figure 1), confirming previous reports of isogamy in large and complex species [7,8].…”
Section: (B) Anisogamy Ratiosupporting
confidence: 89%
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“…This pattern includes unicellular species, indicating that the degree of anisogamy in anisogamous unicellular species is consistent with an increase in anisogamy with body size. However, many large and complex species are isogamous (figure 1), confirming previous reports of isogamy in large and complex species [7,8].…”
Section: (B) Anisogamy Ratiosupporting
confidence: 89%
“…We argue that a chloroplast is necessary to provision gametes when gamete encounter rates are low, and that because a chloroplast occupies most of the volume of a gamete, this constrains the minimum gamete size. This minimum size may be large enough to violate the condition for stable anisogamy predicted by the Bulmer & Parker model and shown to be consistent with anisogamy in volvocine algae [8]. As predicted by this hypothesis, isogametes are larger than the microgametes of similar-size species.…”
Section: Discussionmentioning
confidence: 59%
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