2025-10-22 熊本大学
![[新種発見] ヤドカリの「宿」を作る“淡い桃色”のイソギンチャク~万葉集に詠まれた「愛する気持ち」を名前に~](https://www.kumamoto-u.ac.jp/whatsnew/sizen/sizeninfo_file/20251022.jpg/@@images/c4d15779-dd51-4ef0-866a-b0fac05b3dd7.jpeg "[新種発見] ヤドカリの「宿」を作る“淡い桃色”のイソギンチャク~万葉集に詠まれた「愛する気持ち」を名前に~")
<関連情報>
- https://www.kumamoto-u.ac.jp/whatsnew/sizen/20251021
- https://www.kumamoto-u.ac.jp/daigakujouhou/kouhou/pressrelease/2025_file/release20251021-3.pdf
- https://royalsocietypublishing.org/doi/10.1098/rsos.250789
深海底における共生:ヤドカリと共生する新しい殻形成イソギンチャク Mutualism on the deep-sea floor: a novel shell-forming sea anemone in symbiosis with a hermit crab
Akihiro Yoshikawa,Takato Izumi,Takayuki Kanki,Takeya Moritaki,Madoka Kitajima,Naoya Ohtsuchi,Taeko Kimura,Yuxiao Gou,Ryuji Hattori,Mahiro Yumiba,Kotaro Shirai,Michela L. Mitchell,Toshihiko FujitaandKensuke Yanagi
Royal Society Open Science Published:22 October 2025
DOI:https://doi.org/10.1098/rsos.250789
Abstract
Interspecific species interactions are fundamental evolutionary forces that shape the traits and adaptive strategies of biological communities. However, their diversity and dynamics in deep-sea ecosystems are poorly understood because of their inaccessibility. Here, we report and describe a newly identified species-specific, hermit crab-associated sea anemone named Paracalliactis tsukisome sp. nov. The sea anemone secretes and constructs a unique shell-like structure known as a carcinoecium, which expands the host hermit crab’s living space. Stable isotope analyses (δ¹³C and δ¹⁵N) suggested that P. tsukisome sp. nov. consumes nutritional benefits by consuming host faeces and suspended organic particles from the surrounding environment. Three-dimensional computed tomography imaging elucidated a unidirectional attachment pattern, which was consistently positioned near the shell aperture or carcinoecium edge—a likely adaptation linked to feeding behaviour and carcinoecium formation. The host, Oncopagurus monstrosus (Alcock, 1894), substantially benefits from this association, attaining larger body sizes than other Oncopagurus species, highlighting the functional role of the carcinoecium as an effective shell enhancement in the deep-sea environment. This study provides the first quantitative evidence of mutualism in carcinoecium-forming associations, highlighting a remarkable example of deep-sea symbiosis and hypothesizing how reciprocal benefits are refined over time, fostering the evolution of carcinoecium-forming abilities and species-specific mutualistic relationships.
