22 research outputs found
In vitro antimicrobial properties of plant essential oils thymus vulgaris, cymbopogon citratus and laurus nobilis against five important foodborne pathogens
Full text linkEvolution des taux de femelles dans les populations naturelles de Thym, Thymus vulgaris L. Deux hypothÚses alternatives confirmées = Evolution of female frequencies in natural populations of Thyme, Thymus vulgaris L. Two alternative hypotheses accepted
No full textInternational audienceLes thĂ©ories visant Ă expliquer le maintien des femelles chez le Thym, espĂšce gynodioĂŻque, peuvent ĂȘtre regroupĂ©es en deux ensembles privilĂ©giant ou bien les effets de fondation existant dans les mĂ©tapopulations de Thym, ou bien les effets dĂ©lĂ©tĂšres des gĂšnes de restauration de la fertilitĂ© mĂąle. Le prĂ©sent travail, par la reprise du suivi d'une soixantaine de populations Ă©tudiĂ©es 8 Ă 12 ans auparavant, prĂ©sente deux ensembles de rĂ©sultats qui soutiennent chacun l'un des deux modĂšles qui ne sont en fait pas exclusif
Evolution des taux de femelles dans les populations naturelles de Thym, Thymus vulgaris L. Deux hypothÚses alternatives confirmées = Evolution of female frequencies in natural populations of Thyme, Thymus vulgaris L. Two alternative hypotheses accepted
No full textInternational audienceLes thĂ©ories visant Ă expliquer le maintien des femelles chez le Thym, espĂšce gynodioĂŻque, peuvent ĂȘtre regroupĂ©es en deux ensembles privilĂ©giant ou bien les effets de fondation existant dans les mĂ©tapopulations de Thym, ou bien les effets dĂ©lĂ©tĂšres des gĂšnes de restauration de la fertilitĂ© mĂąle. Le prĂ©sent travail, par la reprise du suivi d'une soixantaine de populations Ă©tudiĂ©es 8 Ă 12 ans auparavant, prĂ©sente deux ensembles de rĂ©sultats qui soutiennent chacun l'un des deux modĂšles qui ne sont en fait pas exclusif
A self-incompatibility system explains high male frequencies in an androdioecious plant
No full textInternational audienceAndrodioecy is a sexual system in which males co-occur with hermaphrodites, which have both male and female function. Stable androdioecy is rare in nature, and theory suggests that it requires that males sire more than twice as many offspring as hermaphrodites. In several members of the olive family (Oleaceae), androdioecy occurs with higher frequencies of males than predicted by theory. In Phillyrea angustifolia L., we found that high male frequencies can be maintained in natural populations because hermaphrodites belong exclusively to one of two self-incompatibility groups, and thus, each can fertilize only half of all pollen recipients. In contrast, males can pollinate all hermaphrodites. Thus, in this species, the reproductive disadvantage that males face due to the loss of female function is offset by the fact that all males are fully compatible with all pollen recipients
Cytoplasmic male sterility and nuclear restorer genes in a natural population of Beta maritima: genetical and molecular aspects
No full textNo evidence for local adaptation between cytoplasmic male sterility and nuclear restorer genes in the gynodioecious species Thymus vulgaris L.
No full textIntra-specific variation in the inhibitory effects of Thymus vulgaris (Labiatae) monoterpenes on seed germination
No full textComplex determination of male sterility in Thymus vulgaris L.: genetic and molecular analysis
No full textFemale frequencies and fitness components between sex phenotypes among gynodioecious populations of the colonizing species Trifolium hirtum All. in California
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