Document Type
Article
Department/Program
Virginia Institute of Marine Science
Publication Date
2018
Journal
Journal Of Shellfish Research
Volume
37
Issue
2
First Page
247
Last Page
448
Abstract
The identification of bivalve larvae and early postlarvae in plankton and benthic samples has long been a challenge, hampering both basic and applied research efforts in marine, estuarine, and freshwater environments. The usefulness of published optical micrographs of the early life-history stages of bivalves is limited because of the great morphological similarity of the imaged articulated shells, particularly at the early (straight-hinge) developmental stages. While a number of techniques have been refined in recent years and show promise for use in routine identifications of larval and post-larval bivalves (e.g., single-step nested multiplex polymerase chain reaction; in situ hybridization protocols through color coding with taxon-specific, dye-labeled DNA probes; coupled fluorescence in situ hybridization and cell sorting; and image analysis techniques using species-specific shell birefringence patterns under polarized light), no adequate comprehensive reference source exists that accurately depicts the morphology and morphometry of the shells of larval and post-larval stages of target bivalve species in a consistent format to assist in identification of such stages. To this end, scanning electron micrograph (SEM) sequences are presented of the disarticulated shell valves of laboratory-reared larval and post-larval stages of 56 species of bivalve molluscs from a wide spectrum of marine, estuarine, and freshwater habitats. Emphasis is placed on the usefulness of the morphology and morphometrics of consistently-oriented, disarticulated shell valves and associated hinge structures in discriminating the early life-history stages of these various bivalve species. Although the scanning electron micrograph sequences presented accurately depict the gross morphologies/morphometrics and hinge structures of the disarticulated shell valves of the larvae and/or postlarvae of the 56 species of bivalves, it is important to emphasize that a scanning electron microscope is not necessary to observe even fine hinge structures associated with the early ontogenetic stages of these species. Such structures are readily visible using a wide range of optical compound microscopes equipped with high-intensity reflected light sources, although the disarticulated shell valves must be viewed in several planes of focus to discern the often subtle details seen clearly in the scanning electron micrographs. These morphological characters provide researchers with invaluable aids for the routine identification of the early life-history stages of these species isolated from plankton and benthic samples.
DOI
10.2983/035.037.0202
Keywords
Bivalve; Larvae; Postlarvae; Identification; Scanning Electron Microscopy
Creative Commons License
This work is licensed under a Creative Commons Attribution-Noncommercial-Share Alike 3.0 License.
Sponsor
New Jersey Agricultural Experiment Station; South Carolina Agricultural Experiment Station; School of Environmental and Biological Sciences of Rutgers University; South Carolina Sea Grant Consortium; Department of Biological Sciences, Rutgers University; Society of Sigma Xi; Maryland Power Plant Research Program; Center for Environmental and Estuarine Studies, University of Maryland; NSF [EAR 81-21212, EAR-84-17011]; NOAA
Recommended Citation
Lutz, RA; Et al.; Castagna, Michael; and Mann, Roger L., Scanning Electron Microscopic Aids For Identification Of Larval And Post-Larval Bivalves (2018). Journal Of Shellfish Research, 37(2), 247-448.
10.2983/035.037.0202
