David L. Mulcahy scite author profile

In the primitive angiosperms, closed carpels are believed to have evolved as protection for ovules, which would otherwise be injured by animal pollinators. The hypothesis is presented that, whatever the origin and other functions of angiosperms, insect pollination and closed carpels may, in combination, reduce the influence of random variation on pollen tube competition, thus enhancing the ability of natural selection to act on the gametophytic phase of the life cycle. The microgametophytic phase represented by vast numbers of haploid individuals can then serve, by insect pollination and closed carpels, as a screen against any genome not functioning with a high degree of metabolic vigor. Poorly balanced genomes could thus be eliminated at relatively little cost. Insect-pollinated angiosperms would therefore benefit from positive aspects of sexual recombination. Such a system may have allowed the angiosperms to undergo their rise to dominance.

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The influence of gametophytic competition on sporophytic quality in Dianthus chinensis

Mulcahy

1975

Theoret. Appl. Genetics

201

113

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Genetics of Angiosperm Pollen

Ottaviano

Mulcahy

1989

148

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Biochar soil amendment increases tomato seedling resistance to drought in sandy soils

Mulcahy¹,

Mulcahy

Dietz

2013

Journal of Arid Environments

108

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Mode of Pollination and Floral Sexuality in Thalictrum

Kaplan¹,

Mulcahy²

1971

Evolution

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David L. Mulcahy

The Rise of the Angiosperms: A Genecological Factor

The influence of gametophytic competition on sporophytic quality in Dianthus chinensis

Genetics of Angiosperm Pollen

Biochar soil amendment increases tomato seedling resistance to drought in sandy soils

Mode of Pollination and Floral Sexuality in Thalictrum

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