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| Main Authors: | , , , , |
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| Format: | Artículo científico |
| Language: | en |
| Published: |
The Science of the total environment
2026
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| Subjects: | |
| Online Access: | https://pubmed.ncbi.nlm.nih.gov/41512337/ |
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| _version_ | 1868266102678618113 |
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| author | Murphy, Colin Jacoby, Ann-Marie Mann, Janet Bansal, Shweta Collier, Melissa |
| author_facet | Murphy, Colin Jacoby, Ann-Marie Mann, Janet Bansal, Shweta Collier, Melissa Murphy, Colin Jacoby, Ann-Marie Mann, Janet Bansal, Shweta Collier, Melissa |
| collection | PubMed - marine biology |
| contents | Machine learning enables rapid assessment of potential cetacean health indicators. Murphy, Colin Jacoby, Ann-Marie Mann, Janet Bansal, Shweta Collier, Melissa Animals Machine Learning Environmental Monitoring Male Bottle-Nosed Dolphin Climate Change Female Cetaceans are important ecosystem sentinels but face growing threats from major disease-related mortality events expected to intensify under climate change. Because both environmental factors and demographics influence health and disease risk, understanding these relationships is essential for effective management. Direct health assessments are challenging in cetaceans, but skin lesions can indicate active infection and tooth-rake marks reflect social stressors that increase transmission risk. Yet, traditional photographic analysis of these indicators is inefficient, creating processing bottlenecks that limit timely evaluation of population health. To address this gap, we applied machine learning to rapidly assess lesions and rake marks in Tamanend's bottlenose dolphins (Tursiops erebennus) photographed in the Chesapeake Bay, a known hotspot for disease-related die-offs. This represents the first analysis of environmental and demographic contributions to dolphin stressors in this region. We found significant negative relationships between lesion prevalence and both temperature and salinity for some lesion types. We find tooth rakes to be positive predictors of lesions, and adult males have the highest rake mark coverage. These patterns suggest dolphins in colder, fresher waters may face elevated disease risk, while adult males may be particularly vulnerable to behavioral stress and related health consequences. Our findings are consistent with prior studies, lending validity to our machine learning models, while also revealing novel patterns of vulnerability in this threatened population. More broadly, our approach demonstrates the use of automated image analysis to enable timely, non-invasive assessments of potential health indicators across cetacean populations in an era of rapid global change. |
| format | Artículo científico |
| id | pubmed_41512337 |
| institution | PubMed |
| language | en |
| publishDate | 2026 |
| publisher | The Science of the total environment |
| record_format | pubmed |
| spellingShingle | Machine learning enables rapid assessment of potential cetacean health indicators. Murphy, Colin Jacoby, Ann-Marie Mann, Janet Bansal, Shweta Collier, Melissa Animals Machine Learning Environmental Monitoring Male Bottle-Nosed Dolphin Climate Change Female Machine learning enables rapid assessment of potential cetacean health indicators. Murphy, Colin Jacoby, Ann-Marie Mann, Janet Bansal, Shweta Collier, Melissa Animals Machine Learning Environmental Monitoring Male Bottle-Nosed Dolphin Climate Change Female Cetaceans are important ecosystem sentinels but face growing threats from major disease-related mortality events expected to intensify under climate change. Because both environmental factors and demographics influence health and disease risk, understanding these relationships is essential for effective management. Direct health assessments are challenging in cetaceans, but skin lesions can indicate active infection and tooth-rake marks reflect social stressors that increase transmission risk. Yet, traditional photographic analysis of these indicators is inefficient, creating processing bottlenecks that limit timely evaluation of population health. To address this gap, we applied machine learning to rapidly assess lesions and rake marks in Tamanend's bottlenose dolphins (Tursiops erebennus) photographed in the Chesapeake Bay, a known hotspot for disease-related die-offs. This represents the first analysis of environmental and demographic contributions to dolphin stressors in this region. We found significant negative relationships between lesion prevalence and both temperature and salinity for some lesion types. We find tooth rakes to be positive predictors of lesions, and adult males have the highest rake mark coverage. These patterns suggest dolphins in colder, fresher waters may face elevated disease risk, while adult males may be particularly vulnerable to behavioral stress and related health consequences. Our findings are consistent with prior studies, lending validity to our machine learning models, while also revealing novel patterns of vulnerability in this threatened population. More broadly, our approach demonstrates the use of automated image analysis to enable timely, non-invasive assessments of potential health indicators across cetacean populations in an era of rapid global change. |
| title | Machine learning enables rapid assessment of potential cetacean health indicators. |
| topic | Animals Machine Learning Environmental Monitoring Male Bottle-Nosed Dolphin Climate Change Female |
| url | https://pubmed.ncbi.nlm.nih.gov/41512337/ |