Abstract
Coelogynoporidae (Platyhelminthes) includes comparatively large and slender Proseriata, usually occurring in shallow benthic environments. Coelogynopora Steinböck, 1924 is the most frequently reported genus and the one with the highest species diversity. Notwithstanding that, the genus has never been reported from the Southern Hemisphere. A recent analysis of sediment from the Magellan Strait shores (Chile) resulted in the discovery of a new species of Coelogynopora, the first representative of the genus to be found in austral waters. The new species is defined by the following combination of characters: sclerotised copulatory system consisting of a slender, ventrally curved stylet with a broad base and three pairs of symmetrically arranged spines, the proximal ends of which are fused laterally to the base of the stylet; distal ends of the three pairs of spines hooked, with apophyses at progressively longer distances from the tip; accessory spines and solar organ absent. Based on the morphological characters, the new species appears to be more related to species from the Pacific Ocean than to those from the Atlantic Ocean. The present work suggests a vast biogeographic disjunction in the genus Coelogynopora, which may be described as a bipolar or amphitropical pattern of distribution.
Highlights
Interstitial worms are valuable as the object of ecological, systematic, and biogeographical studies because of their low dispersal ability and strict habitat requirements (Curini-Galletti et al 2012; Armonies 2017)
The present paper aims to describe the new species and review the biogeography of the genus in light of this new finding
Two out of the three species that are more similar to C. kenichii sp. nov. are known only from Japan, and the third one is from the Pacific coast of the United States (Karling 1966; Tajika 1978, 1981)
Summary
Interstitial (meiobenthic) worms are valuable as the object of ecological, systematic, and biogeographical studies because of their low dispersal ability and strict habitat requirements (Curini-Galletti et al 2012; Armonies 2017). They have turned out to be helpful in more applied studies, such as the environmental biomonitoring of the direct and indirect impact of human activities (Schratzberger 2012; Armonies 2017; Martínez et al 2020). The present paper aims to describe the new species and review the biogeography of the genus in light of this new finding
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