The First Insight into the Patterns of Size and Shape Variation of a Microcerberid Isopod

• Main Authors: Jeongho Kim, Jaehyun Kim, Wonchoel Lee, Ivana Karanovic
• Format: Article
• Language: English
• Published: MDPI AG 2021-02-01
• Series: Water
• Subjects: crustacean; cryptic species; integrative taxonomy; marine interstitial; peracarida; reverse taxonomy
• Online Access: https://www.mdpi.com/2073-4441/13/4/515

Cryptic species are a biological phenomenon only recently recognized due to progress in molecular studies. They pose a significant challenge to conventional taxonomic work since these species manifest low morphological differences, but considerable genetic disparity. New taxonomic methods are in development but have yet to be tested for many animal groups. Isopods belonging to the suborder Microcerberidea are one such group. The Asian microcerberid isopod, <i>Coxicerberus fukudai</i> (Ito, 1974), is a major component of marine interstitial fauna with suspected cryptic species inhabiting Japan and Korea. We chose six Korean populations with high molecular interpopulations divergence and applied 2D landmark-based geometric morphometrics to cephalic sensilla, pleonal points, and male pleopod II. This quantitative approach allowed us to study interpopulation size and shape variations, morphospace structure, and whether the morphological pattern mirrored the genetic species. We determined that a high degree of interpopulation size variation significantly influences shape changes. Once we removed the allometric effect, the size-corrected male pleopod II shape variations yielded a new species, <i>C. jangsaensis</i> sp. nov. At the same time, we were able to resolve the <i>C. fukadai</i> species complex.