Abstract
Birth synchrony is well documented among ungulates and is hypothesised to maximize neonate survival, either by minimizing the risk of predation through predator swamping or by synchronising birthing with increased seasonal food availability. We used encapsulated vaginal implant transmitters to locate and capture neonatal moose calves and document the seasonal and diel timing of parturition in two adjacent study areas with different predation pressure in central Ontario, Canada. We tested the hypothesis that predation promotes earlier and more synchronous birth of moose calves. Across both areas, proportionately more births occurred during the afternoon and fewer than expected occurred overnight. Mean date of calving averaged 1.5 days earlier and calving was also more synchronous in the study area with heavier predation pressure, despite average green-up date and peak Normalized Difference Vegetation Index date occurring 2 days later in this study area than in the area receiving lighter predation pressure. We encourage analysis of data on timing of parturition from additional study areas experiencing varying degrees of predation pressure to better clarify the influence of predation in driving seasonal and diel timing of parturition in temperate ungulates.
Highlights
Birth synchrony is well documented among ungulates [1, 2, 3, 4, 5] and is generally hypothesised to maximize neonate survival, either by minimizing the risk of predation through predator swamping [6, 7, 8, 9] or by synchronising birthing with increased seasonal food availability [10, 11, 12]
We studied moose in 2 nearby study sites in central Ontario, Canada (45°N, 78°W)–one in the western portion of Algonquin Provincial Park (APP) (2,000 km2) and the other in the southeastern portion of Wildlife Management Unit 49 (WMU49; 1,500 km2) (Fig 1)
We successfully recorded the date of parturition of 77 calves born to cows fitted with vaginal implant transmitters (VITs) (28 in APP and 49 in WMU49; Table 1)
Summary
Birth synchrony is well documented among ungulates [1, 2, 3, 4, 5] and is generally hypothesised to maximize neonate survival, either by minimizing the risk of predation through predator swamping [6, 7, 8, 9] or by synchronising birthing with increased seasonal food availability [10, 11, 12]. The timing of parturition, independent of synchrony, may influence the survival of neonates. Predation Influences Timing of Calving in Moose design, data collection and analysis, decision to publish, or preparation of the manuscript Early-born neonates may experience reduced predation relative to later born individuals by achieving greater size and reduced vulnerability to predators by the time predators recognize the birth pulse and begin to focus on the present year’s cohort of neonates [13, PLOS ONE | DOI:10.1371/journal.pone.0150730 April 15, 2016
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