The hermaphrodites of Lychnis dioica are modified males. They are of two kinds, which are here distinguished as "genetic" and "somatic" hermaphrodites. When the genetic hermaphrodites are used as pollen parents, either when self-fertilized or in crosses with females, their progenies consist of females and hermaphrodites
Most plant species are hermaphrodites, with both male and female functions performed by the same ind...
The optimal deployment of reproductive resources by hermaphrodites to male versus female function (i...
In unisexual flowers, sex is determined by the selective repression of growth or the abortion of eit...
Hermaphrodite mutants occur in pure-bred families of Lychnis dioica L., the ratio of mutability bein...
Lychnis alba was found to produce four categories of flowers; i.e. pistillate, staminate, gynohermap...
Separate sexes have evolved on numerous independent occasions from hermaphroditic ancestors in flowe...
International audienceGynodioecy is defined as the coexistence of two different sexual morphs in a p...
Several different pathways for the evolution of dioecy from hermaphroditism have been invoked and an...
Sex habit in plants is known to be controlled by genetic factors, although subject to environmental ...
Urtica dioica (“stinging nettle”) includes both dioecious and monoecious forms. In most sexually dim...
Fax: +45 89422722Email: bodil.ehlers@biology.au.dkInternational audience• Here, we evaluate the role...
The evolution of dioecy from hermaphroditism allows for avoidance of self-pollination, and its evolu...
In many gynodioecious species the nuclear inheritance of male fertility is complex and involves mult...
I.fluviatilis occurs in diploid hermaphrodite, tetraploid hermaphrodite, and diploid dioecious popul...
SummaryThe optimal deployment of reproductive resources by hermaphrodites to male versus female func...
Most plant species are hermaphrodites, with both male and female functions performed by the same ind...
The optimal deployment of reproductive resources by hermaphrodites to male versus female function (i...
In unisexual flowers, sex is determined by the selective repression of growth or the abortion of eit...
Hermaphrodite mutants occur in pure-bred families of Lychnis dioica L., the ratio of mutability bein...
Lychnis alba was found to produce four categories of flowers; i.e. pistillate, staminate, gynohermap...
Separate sexes have evolved on numerous independent occasions from hermaphroditic ancestors in flowe...
International audienceGynodioecy is defined as the coexistence of two different sexual morphs in a p...
Several different pathways for the evolution of dioecy from hermaphroditism have been invoked and an...
Sex habit in plants is known to be controlled by genetic factors, although subject to environmental ...
Urtica dioica (“stinging nettle”) includes both dioecious and monoecious forms. In most sexually dim...
Fax: +45 89422722Email: bodil.ehlers@biology.au.dkInternational audience• Here, we evaluate the role...
The evolution of dioecy from hermaphroditism allows for avoidance of self-pollination, and its evolu...
In many gynodioecious species the nuclear inheritance of male fertility is complex and involves mult...
I.fluviatilis occurs in diploid hermaphrodite, tetraploid hermaphrodite, and diploid dioecious popul...
SummaryThe optimal deployment of reproductive resources by hermaphrodites to male versus female func...
Most plant species are hermaphrodites, with both male and female functions performed by the same ind...
The optimal deployment of reproductive resources by hermaphrodites to male versus female function (i...
In unisexual flowers, sex is determined by the selective repression of growth or the abortion of eit...
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