Sy. Henderson et Rr. Strathmann, Contrasting scaling of ciliary filters in swimming larvae and sessile adults of fan worms (Annelida : Polychaeta), INVERTEBR B, 119(1), 2000, pp. 58-66
Both larval and adult fan worms capture particles with opposed bands of cil
ia. While the larvae use one of the opposed bands (the prototroch) for both
feeding and swimming, the sessile adults rely partly on ambient currents t
o bring food particles to the ciliary bands. The scaling of length of proto
trochal cilia with larval body size contrasts with scaling of the opposed l
atero-frontal cilia with adult body size. In the larva of the serpulid Hydr
oides elegans, the length of prototrochal. cilia increased from 28 to 42 mu
m in early to late-stage larvae. In contrast, latero-frontal cilia did nor
increase in length (23 mu m) during postlarval development of H. elegans.
Among adults of 5 fan-worm species, lengths of latero-frontal cilia ranged
from 22 to 35 Ecm and were weakly correlated with body size. The total area
of ciliary filter nevertheless increased with increasing body dry weight o
f worms with an allometric exponent similar to exponents reported for gill
and lophophore areas vs, body weight within species of suspension-feeding b
ivalves, brachiopods, and gastropods. The similar scaling was remarkable gi
ven the striking differences in distribution and function of the ciliary fi
lters. In adult fan worms, increases in filter area depended largely on inc
reases in number and length of radioles; differences in branching of radiol
es had little effect. Radioles were commonly in 2 or more rows in series, i
mplying refiltration in still water by downstream radioles. Since the allom
etry of worms' filter area with body size depends on filters in series, it
depends on ambient currents that overwhelm ciliary currents.