and long pleopods with natatory set

and long pleopods with natatory setae. The morphological abnormalities
of megalopae were categorized according to the degree of old exoskeleton
retention on their bodies, and megalopae with serious abnormalities
eventually died. This mortality phenomenon is known as the “moultdeath
syndrome” (MDS) in other brachyuran species, such as Portunus
pelagicus (Maheswarudu et al., 2008), Scylla paramamosain (Takano
et al., 2004), S. serrata (Dan and Hamasaki, 2011; Hamasaki et al.,
2002a; Mann et al., 1999), S. tranquebarica (Baylon, 2009) and Ucides
cordatus (Silva et al., 2012). In addition to the morphological abnormalities
observed in the last zoeal stage of the swimming crab, we noticed
morphological abnormalities in the megalopae, including the presence
of a small dorsal spine and furcae on the telson, which were similar to
those seen in the zoeae. However, it has never been tested whether
these morphological abnormalities are related to larval survival during
the mass seed production of this species.
The aim of the present study was to clarify the underlying causes of
the low survival rates during swimming crab seed production. We
sampled fourth-stage zoeae and megalopae to make morphological
measurements and obtained information on the larval culturemethods,
larval culture conditions and survival rates during seed production trials
conducted by 12 hatcheries in Japan. We then analyzed the relationships
between the larval culture factors, morphologies and survival
rates. Our results provide new insights into the causes of mass larval
mortality during the intensive production of a brachyuran crab