Protandric Simultaneous Hermaphroditism in Parhippolyte Misticia (Clark, 1989) (Caridea: Hippolytidae): Implications for the Evolution of Mixed Sexual Systems in Shrimp

The sexual system of the shrimp Parhippolyte misticia (Clark, 1989), inhabiting the rocky subtidal at Okinawa, Japan and Kimbe Bay, Papua New Guinea, was examined. Dissections suggested that the population consisted of male phase (MP) and functional simultaneous euhermaphrodite (EH) individuals. MPs have cincinulli and appendices masculinae on the first and second pair of pleopods, respectively, gonopores located at the coxae of the third pair of walking legs, and ovotestes with a well-developed male portion containing sperm, but an undeveloped female portion. EHs lacked appendices masculinae and cincinulli. However, they have male gonopores and ovotestes with well-developed ovaries containing mature oocytes and testes with sperm. When EHs were maintained in pairs, both shrimp molted and spawned eggs which attached below the pleon and developed as embryos, demonstrating that EHs can reproduce as males and inseminate other Elis acting as females. These results demonstrate that P misticia is a protandric simultaneous hermaphrodite, as reported before for other shrimp of the genera Lysmata and Exhippolysmata. Also, these results suggest that protandric simultaneous hermaphroditism might have evolved more than once independently in shrimp from the diverse and species-rich Infraorder Caridea. Future research aimed at disentangling the phylogenetic relationship of Parhippolyte, Lysmata, Exhippolysmata and other closely related genera (Calliasmata, Lysmatella, Barbouria) and describing the sociobiology of additional representatives from the genera above is needed to understand the evolutionary history of sexual systems in caridean shrimp. © The Crustacean Society, 2012

The evolution of euhermaphroditism in caridean shrimps: a molecular perspective of sexual systems and systematics

<p>Abstract</p> <p>Background</p> <p>The hippolytid genus <it>Lysmata </it>is characterized by simultaneous hermaphroditism, a very rare sexual system among Decapoda. Specialized cleaning behavior is reported in a few pair-living species; these life history traits vary within the genus. Unfortunately, the systematics of <it>Lysmata </it>and the Hippolytidae itself are in contention, making it difficult to examine these taxa for trends in life history traits. A phylogeny of <it>Lysmata </it>and related taxa is needed, to clarify their evolutionary relationships and the origin of their unique sexual pattern. In this study, we present a molecular phylogenetic analysis among species of <it>Lysmata</it>, related genera, and several putative hippolytids. The analysis is based upon DNA sequences of two genes, 16S mtDNA and nuclear 28S rRNA. Phylogenetic trees were estimated using Bayesian Inference, Maximum Likelihood, and Maximum Parsimony.</p> <p>Results</p> <p>Phylogenetic analysis of 29 species of <it>Lysmata</it>, eight genera of Hippolytidae and two genera of Barbouriidae based on a single (16S, 28S) and combined gene approach (16S+28S) indicates that three groups of <it>Lysmata </it>differentiate according to antennular morphology: (1) <it>Lysmata</it>, having a multi-segmented accessory branch, (2) <it>Hippolysmata </it>(prior to Chace 1972), with a one-segmented accessory branch, and (3) a third group of <it>Lysmata </it>outliers, with one-segmented unguiform accessory branch, and close affinity to the genera <it>Exhippolysmata </it>and <it>Lysmatella</it>. The monophyly of the clade bearing a multi-segmented accessory branch is robust. Within the short accessory branch clade, species with specialized cleaning behaviors form a monophyletic clade, however, the integrity of the clade was sensitive to alignment criteria. Other hippolytid and barbouriid genera used in the analysis are basal to these three groups, including one displaying simultaneous hermaphroditism (<it>Parhippolyte</it>). The two barbouriid species occur in a separate clade, but among hippolytid taxa.</p> <p>Conclusions</p> <p>The data support the historical morphological division of <it>Lysmata </it>into clades based on accessory branch morphology. The position of the "cleaner" shrimps, indicates that specialized cleaning behavior is a derived trait. The topologies of the cladograms support the monophyly of the barbouriids, but do not support their elevation to familial status. Taxa ancestral to the genus <it>Lysmata </it>display simultaneous hermaphroditism, suggesting that this life history trait evolved outside the genus <it>Lysmata</it>.</p

Functional, Simultaneous Hermaphroditism in Female-Phase Lysmata amboinensis (Decapoda: Caridea: Hippolytidae)

Several species of hippolytid shrimp of the genus Lysmata are described as protandrous hermaphrodites, with speculation that some Lysmata are simultaneous hermaphrodites and/or store exogenous sperm. The objective of this study was to ascertain the presence of simultaneous hermaphroditism in L. amboinensis De Man. For this experiment, four pairs of female-phase L. amboinensis were isolated until each shrimp spawned two fertile clutches of eggs. For two of the four pairs, pair-mates were then separated and isolated in an identical fashion. Paired individuals continued to spawn and hatch fertile eggs. Isolated individuals spawned only infertile eggs. Paired shrimp also synchronized their molt cycles in a staggered fashion, such that individuals alternated sexual roles. Histological and morphological examination shows that each female-phase individual possessed an active male and female portion of the gonad with corresponding gonoducts. The results indicate that this species is a functional, simultaneous hermaphrodite. Previously, this pattern has not been adequately described in any decapod crustacean