Ecoacoustic Baseline of a Successional Subarctic Ecosystem Post-Glaciation Amidst Climate Change in South-Central Alaska

Ecoacoustic Baseline of a Successional Subarctic Ecosystem Post-Glaciation Amidst Climate Change in South-Central Alaska

As climate change alters subarctic ecosystems and human activities in Alaska, ecological baselines are critical for long-term conservation. We applied an ecoacoustic approach to characterize the ecological conditions of a rapidly deglaciating region in Kenai Fjords National Park, Alaska. Using autom...

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Bibliographic Details
Main Authors: Timothy C. Mullet, Almo Farina
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Diversity
Subjects:
Alaska
climate change
ecoacoustics
Kenai Peninsula
post-glacial succession
national parks
Online Access:https://www.mdpi.com/1424-2818/17/7/443
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Summary:As climate change alters subarctic ecosystems and human activities in Alaska, ecological baselines are critical for long-term conservation. We applied an ecoacoustic approach to characterize the ecological conditions of a rapidly deglaciating region in Kenai Fjords National Park, Alaska. Using automated recording units deployed at increasing distances from a road, we collected over 120,000 one-minute audio samples during the tourist seasons of 2021 and 2022. Ecoacoustic indices—Sonic Heterogeneity Index (SHI<sub>tf</sub>), Spectral Sonic Signature (SSS), Weighted Proportion of Occupied Frequencies (wPOF), and Normalized Difference Sonic Heterogeneity Index (NDSHI)—were used to measure spatio-temporal patterns of the sonoscape. Results revealed higher sonic heterogeneity near the road attributed to technophony (vehicles) and geophony (wind) that spanned across the frequency spectrum, masking mid-high frequency biophony. Seasonal phenology and diel variations reflected ecological and human rhythms, including biophony from the dawn chorus from May–June, technophony from vehicle-based tourism from July–September, and decreased sonic activity in the form of geophonic ambience in October. Low-frequency geophonies were prevalent throughout the sonoscape with more natural sounds at greater distances from the road. Our findings demonstrate the benefits of using ecoacoustic methods to assess ecosystem dynamics for establishing ecological baselines useful for future comparisons in rapidly changing environments.
ISSN:1424-2818

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