Turning passive detection systems into field experiments: an application using wetland fishes and enclosures to track fine-scale movement and habitat choice

Turning passive detection systems into field experiments: an application using wetland fishes and enclosures to track fine-scale movement and habitat choice

Understanding habitat selection and movement remains a key question in behavioral ecology. Yet, obtaining a sufficiently high spatiotemporal resolution of the movement paths of organisms remains a major challenge, despite recent technological advances. Observing fine-scale movement and habitat choic...

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Bibliographic Details
Published in:Acta ethologica Vol. 17; no. 1; pp. 53 - 61
Main Authors: Rehage, J. S, Boucek, R. E, Cline, E. A, Cook, M. I, Kobza, R. M, Saha, A. K
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer-Verlag 01-03-2014
Springer Berlin Heidelberg
Springer Nature B.V
Subjects:
Animal behavior
aquatic habitat
Behavioral biology
Behavioral Sciences
Biomedical and Life Sciences
Evolutionary Biology
field experimentation
Field tests
Fish
Fish behavior
Habitat selection
Habitat utilization
Habitats
Life Sciences
radio telemetry
Short Communication
swimming
Tracking techniques
Wetlands
Zoology
Florida
United States > US
Movement behavior
Passive antennas
Field enclosures
Habitat selection
PIT tags
Fishes
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Summary:Understanding habitat selection and movement remains a key question in behavioral ecology. Yet, obtaining a sufficiently high spatiotemporal resolution of the movement paths of organisms remains a major challenge, despite recent technological advances. Observing fine-scale movement and habitat choice decisions in the field can prove to be difficult and expensive, particularly in expansive habitats such as wetlands. We describe the application of passive integrated transponder (PIT) systems to field enclosures for tracking detailed fish behaviors in an experimental setting. PIT systems have been applied to habitats with clear passageways, at fixed locations or in controlled laboratory and mesocosm settings, but their use in unconfined habitats and field-based experimental setups remains limited. In an Everglades enclosure, we continuously tracked the movement and habitat use of PIT-tagged centrarchids across three habitats of varying depth and complexity using multiple flatbed antennas for 14 days. Fish used all three habitats, with marked species-specific diel movement patterns across habitats, and short-lived movements that would be likely missed by other tracking techniques. Findings suggest that the application of PIT systems to field enclosures can be an insightful approach for gaining continuous, undisturbed and detailed movement data in unconfined habitats, and for experimentally manipulating both internal and external drivers of these behaviors.
Bibliography:http://dx.doi.org/10.1007/s10211-013-0154-4
ISSN:0873-9749
1437-9546
DOI:10.1007/s10211-013-0154-4