Diatoms on the carapace of common snapping turtles: Luticola spp. dominate despite spatial variation in assemblages

Filamentous algae are often visible on the carapaces of freshwater turtles and these algae are dominated by a few species with varying geographic distributions. Compared to filamentous algae, little is known about the much more speciose microalgae on turtles. Our objectives were to compare the diato...

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Bibliographic Details
Published in:PloS one 2017-02, Vol.12 (2), p.e0171910-e0171910
Main Authors: Wu, Shelly C, Bergey, Elizabeth A
Format: Article
Language:English
Subjects:
Abundance
Actinemys marmorata
Algae
Analysis
Animal Shells - microbiology
Animals
Aquatic microorganisms
Arkansas
Bacillariophyceae
Bacillariophyta
Basicladia
Basicladia chelonum
Biodiversity
Biofilms
Biology
Biology and Life Sciences
Chelydra serpentina
Chlorophyta
Clemmys guttata
Diatoms
Diatoms - classification
Diatoms - isolation & purification
Diatoms - physiology
Earth Sciences
Ecology
Ecology and Environmental Sciences
Epibionts
Flora
Geographical distribution
Geography
Host-Pathogen Interactions
Illinois
Kinosternon sonoriense
Lepidochelys olivacea
Luticola
Museums
Natural history
New York
Oklahoma
People and places
Physiological aspects
Podocnemis erythrocephala
Population Dynamics
Reptiles & amphibians
Research and Analysis Methods
Snapping turtles
Spatial distribution
Species
Species Specificity
Taxa
Testudines
Turtles
Turtles - microbiology
Wisconsin
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Summary:Filamentous algae are often visible on the carapaces of freshwater turtles and these algae are dominated by a few species with varying geographic distributions. Compared to filamentous algae, little is known about the much more speciose microalgae on turtles. Our objectives were to compare the diatom flora on a single turtle species (the common snapping turtle, Chelydra serpentina) across part of its range to examine spatial patterns and determine whether specific diatom taxa were consistently associated with turtles (as occurs in the filamentous alga Basicladia spp.). Using preserved turtle specimens from museums, we systematically sampled diatoms on the carapaces of 25 snapping turtles across five states. The diverse diatom assemblages formed two groups-the southern Oklahoma group and the northern Illinois/Wisconsin/New York group, with Arkansas not differing from either group. Of the six diatom species found in all five states, four species are widespread, whereas Luticola cf. goeppertiana and L. cf. mutica are undescribed species, known only from turtles in our study. L. cf. goeppertiana comprised 83% of the diatom abundance on Oklahoma turtles and was relatively more abundant on southern turtles (Oklahoma and Arkansas) than on northern turtles (where mean abundance/state was > 10%). L. cf. mutica was the most abundant species (40%) on New York turtles. Some Luticola species are apparently turtle associates and results support a pattern of spatial variation in Luticola species, similar to that in Basicladia. Using museum specimens is an efficient and effective method to study the distribution of micro-epibionts.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0171910