Abstract
Passive integrated transponder (PIT) tag technology permits the “resighting” of animals tagged for ecological research without the need for physical re‐trapping. Whilst this is effective if animals pass within centimeters of tag readers, short‐distance detection capabilities have prevented the use of this technology with many species. To address this problem, we optimized a large (15 m long) flexible antenna system to provide a c. 8 m2 vertical detection plane for detecting animals in flight. We installed antennas at two roosting caves, including the primary maternity cave, of the critically endangered southern bent‐winged bat (Miniopterus orianae bassanii) in south‐eastern Australia. Testing of these systems indicated PIT‐tags could be detected up to 105 cm either side of the antenna plane. Over the course of a three‐year study, we subcutaneously PIT‐tagged 2,966 bats and logged over 1.4 million unique detections, with 97% of tagged bats detected at least once. The probability of encountering a tagged bat decreased with increasing environmental “noise” (unwanted signal) perceived by the system. During the study, we mitigated initial high noise levels by earthing both systems, which contributed to an increase in daily detection probability (based on the proportion of individuals known to be alive that were detected each day) from <0.2 (noise level ≥30%) to 0.7–0.8 (noise level 5%–15%). Conditional on a low (5%) noise level, model‐based estimates of daily encounter probability were highest (>0.8) during peak breeding season when both female and male southern bent‐winged bats congregate at the maternity cave. In this paper, we detail the methods employed and make methodological recommendations for future wildlife research using large antennas, including earthing systems as standard protocol and quantifying noise metrics as a covariate influencing the probability of detection in subsequent analyses. Our results demonstrate that large PIT antennas can be used successfully to detect small volant species, extending the scope of PIT technology and enabling a much broader range of wildlife species to be studied using this approach.
Highlights
With the installation of large radio‐frequency identification (RFID) antenna systems at southern bent‐winged bat roosting caves, we have demonstrated that antenna dimensions and read‐range distances can reach greater magnitudes than previously described
Across the full study period, 97% percent of bats were detected at least once. This compares with 76% (Adams, 2015), 67% (Adams & Hayes, 2008) and 62% (Horn, 1998) of bats Passive integrated transponder (PIT)‐ tagged in shorter‐term bat studies, and 65% of tagged juveniles and 77% of adult females successfully detected in a longer‐term study over four years and multiple roost sites (Ellison, O'Shea, Neubaum, Neubaum, et al, 2007)
Factors that may have contributed to the higher overall detection success in our study likely include the advancement in technology used, concerted efforts made to monitor and increase RFID system performance, and the behavior of southern bent‐winged bats that show high fidelity to the Bat Cave site and reliably congregate at this maternity cave in large numbers
Summary
We used detection histories for each individual to consider how the daily probability of encounter varied with system noise and time of year, using data from the Bat Cave antenna system. The likely source of this noise was the solar controller (which charged the batteries during daylight hours), but this was unlikely to have affected detection success since bat activity at Glencoe is typically recorded between dusk and dawn. After earthing the RFID system, read‐range increased to 58 cm across the antenna configuration with no dead spots This further increased to 75 cm later in the study (from mid‐2017) when the cabling and protective conduit between the cameras in the maternity chamber and Bat Observation Centre were replaced and Average daily noise (%) Number of bats detected
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