Seasonal abundance and life cycle of Archaeomysis articulata (Crustacea: Mysidacea) on a sandy beach of western Hokkaido, Japan

• Published in: Journal of natural history Vol. 33; no. 12; pp. 1811 - 1830
• Main Author: Hanamura, Yukio
• Format: Journal Article
• Language: English
• Published: Taylor & Francis Group 01.12.1999
• Subjects: Abundance; Archaeomysis Articulata; Japan; Marine; Mysidacea; Pacific Northwest; Population Structure; Reproductive Biology; Sandy Beach; INW, Japan, Hokkaido, Ishikari Bay
• ISSN: 0022-2933; 1464-5262
• DOI: 10.1080/002229399299743

Abundance and life cycle of the sandy beach mysid Archaeomysis articulata Hanamura were investigated based on seasonal collections over 2 years in the surf-swept intertidal zone of an open sandy beach in Ishikari Bay, western Hokkaido, Japan. The number of mysids in the intertidal zone increased from winter to spring, reaching its maximum in summer to autumn (average >2500 ind. m -2 ), and decreased considerably towards the end of the year. The abundance was maintained at a minimal level (<200 ind. m -2 ) throughout the winter. The breeding season was March to November, during which the liberation of young was most intensive from late April to mid-October. Three alternate generations, including overwintering, spring and summer generations, were suggested from field observations. Archaeomysis articulata is primarily iteroparous; only a restricted number of breeding females could produce more than two broods. The life span was estimated to be 7-9 months for the overwintering generation and 2.5-3.5 months for the spring-summer generations. The sex ratio fluctuated at samplings, with a tendency toward female dominance (overall mean=54%). The number of embryos carried by a single female ranged from 16 to 94, tending to increase with increasing size of females. The size of egg-like embryos varied seasonally from 0.45 to 0.54mm, being largest in spring and smallest in summer, with no correlation to the length of females; water temperature is considered an important factor in regulating the size of eggs. The embryonic development time was estimated to be 1.5 months for the spring generation (water temperature 5-10°C), and much shorter than this for the summer and overwintering generations. The mortality rate during embryonic development was estimated to be 7-18%.