Abstract
ABSTRACTWe report evidence that hatchling polyclads of several genera feed in the plankton on large prey. These ciliated swimmers, despite apparently lacking means to concentrate food or even detect it at a distance, subdue and consume fast-moving active-swimming plankters such as crustacean larvae and copepods, or molluskan veligers. We describe feeding events in captivity using videomicroscopy, and identify several wild-caught predatory pelagic polyclad larvae to genus or species level by DNA barcoding. Remarkably, one of these types is identified unambiguously with a species previously observed as Müller’s larvae, which live as conventional planktotrophs on an inferred diet of small phytoflagellates. Therefore we conclude first that while so-called “direct-developing” polyclad flatworms may hatch with juvenile-like morphology, at least some of these are functionally larvae. Second, that some species of polyclad have at least a triphasic life cycle, with a first larval stage living in the plankton on primary producers followed by a second larval stage living in the plankton by macrophagous carnivory, before presumably settling to the benthos for adult life.
Publisher
Cold Spring Harbor Laboratory
Reference32 articles.
1. Obligate planktotrophy in the Götte’s larva of Stylochus ellipticus (Platyhelminthes);Invertebrate ReproductIon and Development,2017
2. The embyonic and laval development of the turbellarian Notoplana australis (Schmarda, 1859) (Polycladida: Leptoplanidae);Marine and Freshwater Research,1977
3. Bolaños, D. M. (2008). Comparative embryology and muscle development of polyclad flatworms (Platyhelminthes: Rhabditophora) (Doctoral dissertation, University of New Hampshire).
4. Emlet, R. B. , McEdward, L. R. , & Strathmann, R. R. (1987). Echinoderm larval ecology viewed from the egg. in Echinoderm Studies 2. J. Lawrence , ed. Balkema (Rotterdam). Pp. 55–136.
5. Use of ITS2 Region as the Universal DNA Barcode for Plants and Animals