Back to Search Start Over

Using bioacoustics to enhance the efficiency of spotted owl surveys and facilitate forest restoration.

Authors :
Kramer, H. Anu
Kelly, Kevin G.
Whitmore, Sheila A.
Berigan, William J.
Reid, Dana S.
Wood, Connor M.
Klinck, Holger
Kahl, Stefan
Manley, Patricia N.
Sawyer, Sarah C.
Peery, M. Zachariah
Source :
Journal of Wildlife Management. Feb2024, Vol. 88 Issue 2, p1-21. 21p.
Publication Year :
2024

Abstract

The California spotted owl (Strix occidentalis occidentalis) is an older‐forest associated species that resides at the center of forest management planning in the Sierra Nevada and Southern California, USA, which are experiencing increasingly large and severe wildfires and drought‐related tree mortality. We leveraged advances in passive acoustic survey technologies to develop an acoustically assisted survey design that could increase the efficiency and effectiveness of project‐level surveys for spotted owls, allowing surveys to be completed in a single year instead of in multiple years. We deployed an array of autonomous recording units (ARUs) across a landscape and identified spotted owl vocalizations in the resulting audio using BirdNET. We then evaluated spatio‐temporal patterns in spotted owl vocalizations near occupied territories and the ability of a crew naïve to the location of occupied territories to locate spotted owls based on patterns of acoustic detections. After only 3 weeks of acoustic surveys, ≥1 ARU within 750 m of all 17 occupied territories obtained spotted owl detections across ≥2 nights. When active surveys using broadcast calling were conducted near ARUs with spotted owl detections by surveyors naïve to territory occupancy status and locations, surveyors located owls in 93% to 100% of occupied territories with ≤3 surveys. To further improve the efficiency of spotted owl surveys, we developed a statistical model to identify and prioritize areas across the Sierra Nevada for different survey methods (active only, acoustically assisted, no surveys) based on the expected probability of occupancy predicted from remotely sensed measurements of tree height and historical occupancy. Depending on managers' tolerance for false negatives, this model could help identify large areas that might not benefit from surveys based on low expected occupancy probabilities and areas where acoustically assisted surveys might enhance survey effectiveness and efficiency. Collectively, these findings can help managers streamline the survey process and thus increase the pace of forest restoration while minimizing potential near‐term adverse effects on California spotted owls. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
0022541X
Volume :
88
Issue :
2
Database :
Academic Search Index
Journal :
Journal of Wildlife Management
Publication Type :
Academic Journal
Accession number :
174713723
Full Text :
https://doi.org/10.1002/jwmg.22533