Implementing a novel movement-based approach to inferring parturition and neonate caribou calf survival

In ungulates, parturition is correlated with a reduction in movement rate. With advances in movement-based technologies comes an opportunity to develop new techniques to assess reproduction in wild ungulates that are less invasive and reduce biases. DeMars et al. (2013, Ecology and Evolution 3:4149-...

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Bibliographic Details
Published in:PloS one 2018-02, Vol.13 (2), p.e0192204-e0192204
Main Authors: Bonar, Maegwin, Ellington, E Hance, Lewis, Keith P, Vander Wal, Eric
Format: Article
Language:English
Subjects:
Abies balsamea
Analysis
Animal behavior
Animal locomotion
Animals
Animals, Newborn
Biology
Biology and Life Sciences
Calves
Caribou
Collars
Earth Sciences
Ecology
Environmental protection
Estimates
Female
Females
Global positioning systems
GPS
Mathematical models
Methods
Mortality
Newborn babies
Newfoundland and Labrador
Parturition
Parturition (Animals)
People and places
Physical Sciences
Population decline
Pregnancy
Rangifer tarandus
Rangifer tarandus caribou
Reindeer
Research and Analysis Methods
Studies
Survival
Survival Analysis
Telemetry
Ungulates
Very high frequencies
Wildlife conservation
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Summary:In ungulates, parturition is correlated with a reduction in movement rate. With advances in movement-based technologies comes an opportunity to develop new techniques to assess reproduction in wild ungulates that are less invasive and reduce biases. DeMars et al. (2013, Ecology and Evolution 3:4149-4160) proposed two promising new methods (individual- and population-based; the DeMars model) that use GPS inter-fix step length of adult female caribou (Rangifer tarandus caribou) to infer parturition and neonate survival. Our objective was to apply the DeMars model to caribou populations that may violate model assumptions for retrospective analysis of parturition and calf survival. We extended the use of the DeMars model after assigning parturition and calf mortality status by examining herd-wide distributions of parturition date, calf mortality date, and survival. We used the DeMars model to estimate parturition and calf mortality events and compared them with the known parturition and calf mortality events from collared adult females (n = 19). We also used the DeMars model to estimate parturition and calf mortality events for collared female caribou with unknown parturition and calf mortality events (n = 43) and instead derived herd-wide estimates of calf survival as well as distributions of parturition and calf mortality dates and compared them to herd-wide estimates generated from calves fitted with VHF collars (n = 134). For our data, the individual-based method was effective at predicting calf mortality, but was not effective at predicting parturition. The population-based method was more effective at predicting parturition but was not effective at predicting calf mortality. At the herd-level, the predicted distributions of parturition date from both methods differed from each other and from the distribution derived from the parturition dates of VHF-collared calves (log-ranked test: χ2 = 40.5, df = 2, p < 0.01). The predicted distributions of calf mortality dates from both methods were similar to the observed distribution derived from VHF-collared calves. Both methods underestimated herd-wide calf survival based on VHF-collared calves, however, a combination of the individual- and population-based methods produced herd-wide survival estimates similar to estimates generated from collared calves. The limitations we experienced when applying the DeMars model could result from the shortcomings in our data violating model assumptions. However despite the diff
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0192204