Lj. Walters et al., THE IMPORTANCE OF LARVAL CHOICE AND HYDRODYNAMICS IN CREATING AGGREGATIONS OF HYDROIDS ELEGANS (POLYCHAETA, SERPULIDAE), Invertebrate biology., 116(2), 1997, pp. 102-114
Aggregations of the sessile, serpulid tubeworm Hydroides elegans are c
ommonly encountered on hard surfaces in Pearl Harbor, Hawai'i, and a b
io-organic film has been found to be one requisite for larval settleme
nt in this species. To determine if additional pre- or postsettlement
factors influence larval distribution, we recorded settlement frequenc
y, location, and survival on biofilmed settlement plates, either unocc
upied as controls, or occupied by live juvenile or adult worms, tubes
of dead adult worms, or plastic mimics of adult worm tubes. Early post
-settlement mortality was extremely low in all trials (<1.0%), and thu
s not responsible for structuring populations of H. elegans. The hypot
hesis that larvae settle preferentially on or near conspecific individ
uals (i.e., gregariously) was falsified: larvae did not settle faster
(laboratory) or in greater numbers (field) on surfaces already occupie
d by H. elegans or their tubes. In the laboratory, settling larvae of
H. elegans did not actively select crevices created where adult worm t
ubes or worm-tube mimics intersected with the substratum; in the field
, however, there was significantly more settlement in tube crevices th
an expected by chance. Because this pattern appeared only in moving wa
ter, it probably results from hydrodynamics. In flowing water, larvae
are entrained in eddies shed on the leeward side of roughness elements
, such as the tubes of adult worms or their mimics, and attach there i
f these sites are otherwise acceptable (i.e., biofilmed). A similar pa
ttern of enhanced settlement in crevices adjacent to tubes occurred on
the plates with juvenile worms on the last day of field trial 1, when
the diameter of their tubes (0.6 mm) was large enough to create eddie
s capable of entraining conspecific larvae. Dense aggregations of H. e
legans found on hard surfaces in bays and estuaries most likely result
from passive deposition of larvae in crevices beside tubes of conspec
ific individuals, followed by selective attachment in these locations
if the bio-organic film is acceptable.