Bromeliad selection by two salamander species in a harsh environment

Bromeliad phytotelmata are frequently used by several Neotropical amphibian taxa, possibly due to their high humidity, microclimatic stability, and role as a refuge from predators. Indeed, the ability of phytotelmata to buffer against adverse environmental conditions may be instrumental in allowing...

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Bibliographic Details
Published in:PloS one 2014-06, Vol.9 (6), p.e98474-e98474
Main Authors: Ruano-Fajardo, Gustavo, Rovito, Sean M, Ladle, Richard J
Format: Article
Language:English
Subjects:
Amphibia
Amphibians
Animals
Biodiversity
Biology and Life Sciences
Bolitoglossa morio
Bolitoglossa pacaya
Caudata
Deoxyribonucleic acid
DNA
DNA Barcoding, Taxonomic
Ecology
Ecology and Environmental Sciences
Ecosystem
Environmental changes
Environmental conditions
Forests
Gene sequencing
Habitats
High humidity
Humidity
Hydrogen ions
Hydrogen-Ion Concentration
Microenvironments
Microhabitats
National parks
pH effects
Plethodontidae
Position measurement
Predators
Reptiles & amphibians
Species
Taxa
Temperature
Trees
Urodela - classification
Urodela - genetics
Volcanic activity
Water temperature
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Summary:Bromeliad phytotelmata are frequently used by several Neotropical amphibian taxa, possibly due to their high humidity, microclimatic stability, and role as a refuge from predators. Indeed, the ability of phytotelmata to buffer against adverse environmental conditions may be instrumental in allowing some amphibian species to survive during periods of environmental change or to colonize sub-optimal habitats. Association between bromeliad traits and salamanders has not been studied at a fine scale, despite the intimate association of many salamander species with bromeliads. Here, we identify microhabitat characteristics of epiphytic bromeliads used by two species of the Bolitoglossa morio group (B. morio and B. pacaya) in forest disturbed by volcanic activity in Guatemala. Specifically, we measured multiple variables for bromeliads (height and position in tree, phytotelma water temperature and pH, canopy cover, phytotelma size, leaf size, and tree diameter at breast height), as well as salamander size. We employed a DNA barcoding approach to identify salamanders. We found that B. morio and B. pacaya occurred in microsympatry in bromeliads and that phytotelmata size and temperature of bromeliad microhabitat were the most important factors associated with the presence of salamanders. Moreover, phytotelmata with higher pH contained larger salamanders, suggesting that larger salamanders or aggregated individuals might modify pH. These results show that bromeliad selection is nonrandom with respect to microhabitat characteristics, and provide insight into the relationship between salamanders and this unique arboreal environment.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0098474