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Main Authors: Varela-Jaramillo, Andrea, Winkelmann, Christian, Mármol-Guijarro, Andrés, Guayasamin, Juan M, Rivas-Torres, Gonzalo, Steinfartz, Sebastian, MacLeod, Amy
Format: Artículo científico
Language:en
Published: Scientific reports 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40707591/
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author Varela-Jaramillo, Andrea
Winkelmann, Christian
Mármol-Guijarro, Andrés
Guayasamin, Juan M
Rivas-Torres, Gonzalo
Steinfartz, Sebastian
MacLeod, Amy
author_facet Varela-Jaramillo, Andrea
Winkelmann, Christian
Mármol-Guijarro, Andrés
Guayasamin, Juan M
Rivas-Torres, Gonzalo
Steinfartz, Sebastian
MacLeod, Amy
Varela-Jaramillo, Andrea
Winkelmann, Christian
Mármol-Guijarro, Andrés
Guayasamin, Juan M
Rivas-Torres, Gonzalo
Steinfartz, Sebastian
MacLeod, Amy
collection PubMed - marine biology
contents Citizen scientists reliably count endangered Galápagos marine iguanas from drone images. Varela-Jaramillo, Andrea Winkelmann, Christian Mármol-Guijarro, Andrés Guayasamin, Juan M Rivas-Torres, Gonzalo Steinfartz, Sebastian MacLeod, Amy Citizen Science Ecuador Iguanas Animals Endangered Species Humans Volunteers Conservation of Natural Resources Population surveys are essential for conservation, but are often resource-intensive. Modern technologies, like drones, facilitate data collection but increase the analysis burden. Citizen Science (CS) offers a solution by engaging non-specialists in data analysis. We evaluated CS for monitoring marine iguanas, focusing on volunteers' accuracy in detecting and counting individuals in aerial images. During three phases of our Zooniverse project, over 13,000 volunteers contributed 1,375,201 classifications from 57,838 images; each classified up to 30 times. Using a Gold Standard dataset of expert counts from 4,345 images, we evaluated optimal aggregation methods for CS-inputs. Volunteers achieved 68-94% accuracy in detection, with more false negatives than false positives. The standard 'majority vote' aggregation approach (where the answer given by the majority of individual inputs is selected) produced less accuracy than when a minimum threshold of five volunteers (from the total independent classifications) was used. Image quality significantly influenced accuracy; by excluding suboptimal pilot-phase data, volunteer counts were 91-92% accurate. HDBSCAN clustering yielded the best results. We conclude that volunteers can accurately identify and count marine iguanas from drone images, though there is a tendency for undercounting. However, even CS-based data analysis remains relatively resource-intensive, underscoring the need to develop an automated approach.
format Artículo científico
id pubmed_40707591
institution PubMed
language en
publishDate 2025
publisher Scientific reports
record_format pubmed
spellingShingle Citizen scientists reliably count endangered Galápagos marine iguanas from drone images.
Varela-Jaramillo, Andrea
Winkelmann, Christian
Mármol-Guijarro, Andrés
Guayasamin, Juan M
Rivas-Torres, Gonzalo
Steinfartz, Sebastian
MacLeod, Amy
Citizen Science
Ecuador
Iguanas
Animals
Endangered Species
Humans
Volunteers
Conservation of Natural Resources
Citizen scientists reliably count endangered Galápagos marine iguanas from drone images. Varela-Jaramillo, Andrea Winkelmann, Christian Mármol-Guijarro, Andrés Guayasamin, Juan M Rivas-Torres, Gonzalo Steinfartz, Sebastian MacLeod, Amy Citizen Science Ecuador Iguanas Animals Endangered Species Humans Volunteers Conservation of Natural Resources Population surveys are essential for conservation, but are often resource-intensive. Modern technologies, like drones, facilitate data collection but increase the analysis burden. Citizen Science (CS) offers a solution by engaging non-specialists in data analysis. We evaluated CS for monitoring marine iguanas, focusing on volunteers' accuracy in detecting and counting individuals in aerial images. During three phases of our Zooniverse project, over 13,000 volunteers contributed 1,375,201 classifications from 57,838 images; each classified up to 30 times. Using a Gold Standard dataset of expert counts from 4,345 images, we evaluated optimal aggregation methods for CS-inputs. Volunteers achieved 68-94% accuracy in detection, with more false negatives than false positives. The standard 'majority vote' aggregation approach (where the answer given by the majority of individual inputs is selected) produced less accuracy than when a minimum threshold of five volunteers (from the total independent classifications) was used. Image quality significantly influenced accuracy; by excluding suboptimal pilot-phase data, volunteer counts were 91-92% accurate. HDBSCAN clustering yielded the best results. We conclude that volunteers can accurately identify and count marine iguanas from drone images, though there is a tendency for undercounting. However, even CS-based data analysis remains relatively resource-intensive, underscoring the need to develop an automated approach.
title Citizen scientists reliably count endangered Galápagos marine iguanas from drone images.
topic Citizen Science
Ecuador
Iguanas
Animals
Endangered Species
Humans
Volunteers
Conservation of Natural Resources
url https://pubmed.ncbi.nlm.nih.gov/40707591/