In Japan, a peculiar gastropod species was discovered over three decades ago, gaining attention upon being labeled as ‘vulnerable’ or ‘near threatened’ in several government and local red lists. This species, referred to as Ka-wa-tare-kawa-zanshō in Japanese, remained undescribed until recent efforts sought to rectify this omission.
Credit: Dr. Hiroshi Fukuda from Okayama University
Image published in his manuscript: https://doi.org/10.1080/13235818.2023.2278070
License information is provided here: https://www.biodiversitylibrary.org/bibliography/180084
In Japan, a peculiar gastropod species was discovered over three decades ago, gaining attention upon being labeled as ‘vulnerable’ or ‘near threatened’ in several government and local red lists. This species, referred to as Ka-wa-tare-kawa-zanshō in Japanese, remained undescribed until recent efforts sought to rectify this omission.
Dr. Hiroshi Fukuda, an Associate Professor at the Faculty of Environmental, Life, Natural Science and Technology, Okayama University, Japan, who first discovered this species, meticulously classified it through a comprehensive exploration of its anatomical characters. His research and findings were published online on November 23, 2023 in the Molluscan Research.
“I found the new species 31 years ago when I was a fourth year University student. I began the taxonomic revision of the Assimineidae on becoming aware that the species is a member of the family despite the morphological dissimilarity,” Dr. Fukuda recounted, shedding light on the motivation behind this study.
For the classification, Dr. Fukuda examined, cataloged, and deposited snail specimens across multiple collections and museums. They were categorized based on their collection sites and preservation methods, ranging from dry specimens to those preserved in solutions such as neutral seawater formalin or ethanol.
Taxonomic analysis defined the newly discovered species as Xenassiminea nana, within the family Assimineidae. The species name “nana”, derived from the Latin term “nanus” meaning dwarf, directly reflects the exceptionally small size of this species, which is the smallest among known assimineids. The species displays unique characters such as distinct omniphoric grooves, specific radular teeth, reproductive system, and a nervous system organization, placing it within the family Assimineidae despite superficial similarities to other gastropod families due to convergence. It shares certain traits with other assimineine members but distinguishes itself through a depressed shell shape and less pronounced cephalic tentacles. Its tentacular nerve’s unique behavior of running parallel to the optic nerve and reaching a triangular bulge around each eye is distinct and unseen in other taxa within the family. These specific anatomical traits and unique shell features prompted the creation of a new genus Xenassiminea, segregating it as a distinct entity within Assimineidae.
Furthermore, the study presents a comprehensive anatomical examination of Xenassiminea nana. It explores the shell characters, noting its small helicoid shape that turns from transparent in youth to opaque in maturity. The creature has translucent skin, prominent tentacles, noticeable black eyes, and is capable of crawling rapidly. The study also meticulously describes the digestive system, reproductive organs in both male and female specimens, and provides insights into the central nervous system, highlighting ganglia, nerves, and connectives throughout.
Xenassiminea nana is native to the temperate zones of mainland Japan and inhabits narrow spaces under rocks or buried in gravel. Records of this species are documented from various prefectures along the Pacific coast, Japan Sea, and East China Sea coastlines of Japan. Landfilling and reclamation activities have depleted the habitat of these snails. “Actions undertaken for biodiversity conservation are not yet enough, partly because many people do not know that there are many little-known endangered species, especially minute invertebrates. This newly discovered species is a prime example of such overlooked biodiversity, offering valuable insights into the critical conditions necessary for biodiversity preservation,” notes Dr. Fukuda, emphasizing the urgent need for its conservation.
Young researchers must actively immerse themselves in morphological studies to understand the role of smaller invertebrates in marine ecosystems. Without prompt conservation efforts, smaller invertebrates may transition from being endangered to extinct, sooner than anticipated.
About Okayama University, Japan
As one of the leading universities in Japan, Okayama University aims to create and establish a new paradigm for the sustainable development of the world. Okayama University offers a wide range of academic fields, which become the basis of integrated graduate schools. This not only allows us to conduct the most advanced and up-to-date research, but also provides an enriching educational experience.
Website: https://www.okayama-u.ac.jp/index_e.html
About Dr. Hiroshi Fukuda from Okayama University, Japan
Associate Professor Dr. Fukuda is affiliated with the Faculty of Environmental, Life, Natural Science, and Technology at Okayama University. He has authored over 200 research articles on marine biodiversity and conservation. He has given the scientific names of molluscan species such as Turbo sazae, Satsuma akiratadai, and Xenassiminea nana native to Japan. Through his research, he advocates the “niku-nuki method,” a traditional Japanese technique applied while working with rare and minute mollusks. His work reflects the need to recognize and protect endangered marine species. Dr. Fukuda’s contributions to conservation through public awareness have earned him the Education Award from the Zoological Society of Japan.
Journal
Molluscan Research
DOI
10.1080/13235818.2023.2278070
Method of Research
Observational study
Subject of Research
Animals
Article Title
A new genus and species of the Assimineidae (Caenogastropoda: Truncatelloidea) from temperate mainland Japan
Article Publication Date
23-Nov-2023
COI Statement
No potential conflict of interest was reported by the author