Identification of Factors Affecting Predation Risk for Juvenile Turtles Using 3D Printed Models

Identification of Factors Affecting Predation Risk for Juvenile Turtles Using 3D Printed Models

Although it is widely accepted that juvenile turtles experience high levels of predation, such events are rarely observed, providing limited evidence regarding predator identities and how juvenile habitat selection and availability of sensory cues to predators affects predation risk. We placed three...

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Main Authors: Sasha J. Tetzlaff, Alondra Estrada, Brett A. DeGregorio, Jinelle H. Sperry
Format: Article
Language:English
Published: MDPI AG 2020-02-01
Series:Animals
Subjects:
habitat selection
motion-triggered camera
predator-prey ecology
sensory cue
<i>terrapene carolina</i>
three-dimensional printing
Online Access:https://www.mdpi.com/2076-2615/10/2/275
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spelling doaj-a6317cfa056749398447897deb304b1c2020-11-25T01:14:52ZengMDPI AGAnimals2076-26152020-02-0110227510.3390/ani10020275ani10020275Identification of Factors Affecting Predation Risk for Juvenile Turtles Using 3D Printed ModelsSasha J. Tetzlaff0Alondra Estrada1Brett A. DeGregorio2Jinelle H. Sperry3Department of Natural Resources and Environmental Sciences, University of Illinois at Urbana-Champaign, Urbana, IL 61801, USADepartment of Natural Resources and Environmental Sciences, University of Illinois at Urbana-Champaign, Urbana, IL 61801, USAU.S. Geological Survey, University of Arkansas Fish and Wildlife Cooperative Research Unit, Fayetteville, AR 72701, USADepartment of Natural Resources and Environmental Sciences, University of Illinois at Urbana-Champaign, Urbana, IL 61801, USAAlthough it is widely accepted that juvenile turtles experience high levels of predation, such events are rarely observed, providing limited evidence regarding predator identities and how juvenile habitat selection and availability of sensory cues to predators affects predation risk. We placed three-dimensional printed models resembling juvenile box turtles (<i>Terrapene carolina</i>) across habitats commonly utilized by the species at three sites within their geographical range and monitored models with motion-triggered cameras. To explore how the presence or absence of visual and olfactory cues affected predator interactions with models, we employed a factorial design where models were either exposed or concealed and either did or did not have juvenile box turtle scent applied on them. Predators interacted with 18% of models during field trials. Nearly all interactions were by mesopredators (57%) and rodents (37%). Mesopredators were more likely to attack models than rodents; most (76%) attacks occurred by raccoons (<i>Procyon lotor</i>). Interactions by mesopredators were more likely to occur in wetlands than edges, and greater in edges than grasslands. Mesopredators were less likely to interact with models as surrounding vegetation height increased. Rodents were more likely to interact with models that were closer to woody structure and interacted with exposed models more than concealed ones, but model exposure had no effect on interactions by mesopredators. Scent treatment appeared to have no influence on interactions by either predator group. Our results suggest raccoons can pose high predation risk for juvenile turtles (although rodents could also be important predators) and habitat features at multiple spatial scales affect predator-specific predation risk. Factors affecting predation risk for juveniles are important to consider in management actions such as habitat alteration, translocation, or predator control.https://www.mdpi.com/2076-2615/10/2/275habitat selectionmotion-triggered camerapredator-prey ecologysensory cue<i>terrapene carolina</i>three-dimensional printing
collection DOAJ
language English
format Article
sources DOAJ
author Sasha J. Tetzlaff
Alondra Estrada
Brett A. DeGregorio
Jinelle H. Sperry
spellingShingle Sasha J. Tetzlaff
Alondra Estrada
Brett A. DeGregorio
Jinelle H. Sperry
Identification of Factors Affecting Predation Risk for Juvenile Turtles Using 3D Printed Models
Animals
habitat selection
motion-triggered camera
predator-prey ecology
sensory cue
<i>terrapene carolina</i>
three-dimensional printing
author_facet Sasha J. Tetzlaff
Alondra Estrada
Brett A. DeGregorio
Jinelle H. Sperry
author_sort Sasha J. Tetzlaff
title Identification of Factors Affecting Predation Risk for Juvenile Turtles Using 3D Printed Models
title_short Identification of Factors Affecting Predation Risk for Juvenile Turtles Using 3D Printed Models
title_full Identification of Factors Affecting Predation Risk for Juvenile Turtles Using 3D Printed Models
title_fullStr Identification of Factors Affecting Predation Risk for Juvenile Turtles Using 3D Printed Models
title_full_unstemmed Identification of Factors Affecting Predation Risk for Juvenile Turtles Using 3D Printed Models
title_sort identification of factors affecting predation risk for juvenile turtles using 3d printed models
publisher MDPI AG
series Animals
issn 2076-2615
publishDate 2020-02-01
description Although it is widely accepted that juvenile turtles experience high levels of predation, such events are rarely observed, providing limited evidence regarding predator identities and how juvenile habitat selection and availability of sensory cues to predators affects predation risk. We placed three-dimensional printed models resembling juvenile box turtles (<i>Terrapene carolina</i>) across habitats commonly utilized by the species at three sites within their geographical range and monitored models with motion-triggered cameras. To explore how the presence or absence of visual and olfactory cues affected predator interactions with models, we employed a factorial design where models were either exposed or concealed and either did or did not have juvenile box turtle scent applied on them. Predators interacted with 18% of models during field trials. Nearly all interactions were by mesopredators (57%) and rodents (37%). Mesopredators were more likely to attack models than rodents; most (76%) attacks occurred by raccoons (<i>Procyon lotor</i>). Interactions by mesopredators were more likely to occur in wetlands than edges, and greater in edges than grasslands. Mesopredators were less likely to interact with models as surrounding vegetation height increased. Rodents were more likely to interact with models that were closer to woody structure and interacted with exposed models more than concealed ones, but model exposure had no effect on interactions by mesopredators. Scent treatment appeared to have no influence on interactions by either predator group. Our results suggest raccoons can pose high predation risk for juvenile turtles (although rodents could also be important predators) and habitat features at multiple spatial scales affect predator-specific predation risk. Factors affecting predation risk for juveniles are important to consider in management actions such as habitat alteration, translocation, or predator control.
topic habitat selection
motion-triggered camera
predator-prey ecology
sensory cue
<i>terrapene carolina</i>
three-dimensional printing
url https://www.mdpi.com/2076-2615/10/2/275
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AT alondraestrada identificationoffactorsaffectingpredationriskforjuvenileturtlesusing3dprintedmodels
AT brettadegregorio identificationoffactorsaffectingpredationriskforjuvenileturtlesusing3dprintedmodels
AT jinellehsperry identificationoffactorsaffectingpredationriskforjuvenileturtlesusing3dprintedmodels
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