The muscular system of Dactylopodola baltica and other macrodasyidan gastrotrichs in a functional and phylogenetic perspective

Abstract

The gastrotrich muscular system is characterized by band‐like muscles arranged in orientations that reflect both function and phylogeny. To better understand the evolution of the Dactylopodolidae, a putative primitive lineage and potential sister group to other extant macrodasyidans, we have used a fluorescent phalloidin stain to visualize muscle patterns in the marine gastrotrich Dactylopodola baltica and eight other species of Macrodasyida from four families. The musculature of D. baltica is arranged as a series of circular, helicoidal and longitudinal bands around the digestive tract. Circular muscles and longitudinal muscles were found in splanchnic and somatic positions. Helicoidal muscles, in 50–60° angles with respect to the longitudinal body axis, surrounded circular and longitudinal splanchnic muscles in a spiralling orientation. The largest longitudinal muscles were the ventrolateral bands composed of numerous cross‐striated myocytes arranged in parallel arrays. The overall arrangement of the muscular system of D. baltica showed several similarities to other macrodasyidan gastrotrichs, including the presence and location of circular, helicoidal and longitudinal muscles, their orientation with respect to the longitudinal body axis and their points of insertion. Unique to D. baltica is the anterior and posterior arrangement of the ventrolateral muscles and the orientation of muscle branches that supply the ventral and dorsal aspects of the pharynx. Muscle data from observations of D. baltica and eight additional species were coded as phylogenetic characters, mapped onto a cladogram and compared to an existing phylogeny of the order. The direction of evolutionary change in specific muscle groups was inferred, as was the ground pattern of muscles for the Macrodasyida.