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Autori principali: DiGiacomo, Alexandra E, Andrzejaczek, Samantha, Block, Barbara A
Natura: Artículo científico
Lingua:en
Pubblicazione: PloS one 2026
Soggetti:
Accesso online:https://pubmed.ncbi.nlm.nih.gov/42160294/
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author DiGiacomo, Alexandra E
Andrzejaczek, Samantha
Block, Barbara A
author_facet DiGiacomo, Alexandra E
Andrzejaczek, Samantha
Block, Barbara A
DiGiacomo, Alexandra E
Andrzejaczek, Samantha
Block, Barbara A
collection PubMed - marine biology
contents Ontogenetic shifts in morphology and ecology of eastern Pacific white sharks revealed by computer vision. DiGiacomo, Alexandra E Andrzejaczek, Samantha Block, Barbara A Animals Sharks Female Male Body Size Ecosystem Pacific Ocean California Ecology Body size is a fundamental property of animal physiology, growth, and maturation, yet field measurements remain difficult to acquire for large-bodied, highly mobile marine species such as white sharks (Carcharodon carcharias). In this study, we integrate aerial and underwater imagery to obtain high-resolution morphometrics of eastern Pacific white sharks remotely in the Monterey Bay National Marine Sanctuary. We develop and validate a computational pipeline leveraging deep learning analysis of Unoccupied Aircraft System (UAS) imagery to extract shark total length and body condition, given by a span-length ratio. UAS-based morphometric data reveal that white sharks form size-structured aggregations aligned with oceanographic gradients, indicating that coastal areas within Monterey Bay function as key transitional zones along a continuum of ontogenetic habitat use on the central coast of California. Across individuals, extended girth-length scaling relationships indicate proportionally greater girth amongst eastern Pacific white sharks relative to other populations. This pattern is particularly pronounced in females, which exhibit progressively higher body condition with life stage, likely reflecting the energetic demands of reproduction or sex-specific foraging strategies. By linking UAS-derived morphometrics to ecological context, this approach enables a novel population-level investigation of ecological structure, body size, and morphological variation in a marine predator population.
format Artículo científico
id pubmed_42160294
institution PubMed
language en
publishDate 2026
publisher PloS one
record_format pubmed
spellingShingle Ontogenetic shifts in morphology and ecology of eastern Pacific white sharks revealed by computer vision.
DiGiacomo, Alexandra E
Andrzejaczek, Samantha
Block, Barbara A
Animals
Sharks
Female
Male
Body Size
Ecosystem
Pacific Ocean
California
Ecology
Ontogenetic shifts in morphology and ecology of eastern Pacific white sharks revealed by computer vision. DiGiacomo, Alexandra E Andrzejaczek, Samantha Block, Barbara A Animals Sharks Female Male Body Size Ecosystem Pacific Ocean California Ecology Body size is a fundamental property of animal physiology, growth, and maturation, yet field measurements remain difficult to acquire for large-bodied, highly mobile marine species such as white sharks (Carcharodon carcharias). In this study, we integrate aerial and underwater imagery to obtain high-resolution morphometrics of eastern Pacific white sharks remotely in the Monterey Bay National Marine Sanctuary. We develop and validate a computational pipeline leveraging deep learning analysis of Unoccupied Aircraft System (UAS) imagery to extract shark total length and body condition, given by a span-length ratio. UAS-based morphometric data reveal that white sharks form size-structured aggregations aligned with oceanographic gradients, indicating that coastal areas within Monterey Bay function as key transitional zones along a continuum of ontogenetic habitat use on the central coast of California. Across individuals, extended girth-length scaling relationships indicate proportionally greater girth amongst eastern Pacific white sharks relative to other populations. This pattern is particularly pronounced in females, which exhibit progressively higher body condition with life stage, likely reflecting the energetic demands of reproduction or sex-specific foraging strategies. By linking UAS-derived morphometrics to ecological context, this approach enables a novel population-level investigation of ecological structure, body size, and morphological variation in a marine predator population.
title Ontogenetic shifts in morphology and ecology of eastern Pacific white sharks revealed by computer vision.
topic Animals
Sharks
Female
Male
Body Size
Ecosystem
Pacific Ocean
California
Ecology
url https://pubmed.ncbi.nlm.nih.gov/42160294/