Another modern topic involves deciphering transitional evolutiona

Another modern topic involves deciphering transitional evolutionary conditions. For plants, PCM and other evidence indicate that evolutionary transitions to dioecy from cosexuality often occur along an evolutionary pathway that entails gynodioecy as an intermediate stage. For invertebrate animals, however, intermediate evolutionary buy HM781-36B states generally have been harder to identify, in part because androdioecy and gynodioecy are rare and probably transient

conditions in animals. Perhaps contrary to naive expectations, sexual selection (selective pressures arising from competition for mates or for opposite-sex gametes) does not cease with the evolutionary dissolution of the separate-sex condition. Instead, evidence of many sorts strongly implicates continuing pervasive roles for sexual selection in the evolution of sex-related phenotypes in hermaphroditic animals (Leonard, 2006) and dual-sex plants

(Willson, 1990). Dual sexuality opens a window of opportunity for self-fertilization that simply is closed to gonochoristic or dioecious species. But this option may or may not be exercised depending on the species and circumstance. For example, many hermaphroditic plant species have evolved mechanisms such as dichogamy (a temporal separation Akt inhibitor in an individual’s production of male and female gametes), herkogamy (a physical separation of male and female gametes Evodiamine on a plant), and genetic self-incompatibilities, all of which can inhibit selfing, promote outcrossing, and thereby circumvent inbreeding depression. These mechanisms

often are less than fully effective, however, with the net result that many dual-sex plant species display ‘mixed-mating’ systems with intermediate rates of selfing and outcrossing, and the same holds true for many invertebrate animals (Jarne & Auld, 2006). Species that show gynodioecy or androdioecy (or other categories of dual sexuality) also can have mixed-mating systems. The outcrossing component is guaranteed (assuming that pure males and pure females are reproductively successful), so the behavior of hermaphroditic specimens determines whether selfing (and hence mixed-mating) applies as well. At least one vertebrate species – the mangrove killifish (K. marmoratus) – also shows a mixed-mating system of selfing and outcrossing (Mackiewicz et al., 2006b). Some populations of this species include functional adult males as well as the hermaphrodites with whom the males apparently outcross occasionally (Mackiewicz et al., 2006a-2006c). Thus, mixed-mating systems have evolved convergently not only in numerous plants and invertebrate animals but also in this one small vertebrate clade (Tatarenkov et al., 2009). In the case of K.

Leave a Reply

Your email address will not be published. Required fields are marked *

*

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>