Drone-Based Photogrammetry Provides Estimates of the Energetic Cost of Migration for Humpback Whales Between Antarctica and Colombia

Alexandre Bernier-Graveline; Susan Bengtson Nash; K. C. Bierlich; Ari Friedlaender; David W. Johnston; Juliana Castrillon; Natalia Botero-Acosta; Susana Caballero; Fredrik Christiansen

doi:10.1111/mms.70048

Drone-Based Photogrammetry Provides Estimates of the Energetic Cost of Migration for Humpback Whales Between Antarctica and Colombia

Alexandre Bernier-Graveline
, Susan Bengtson Nash
, K. C. Bierlich
, Ari Friedlaender
, David W. Johnston
, Juliana Castrillon
, Natalia Botero-Acosta
, Susana Caballero
, Fredrik Christiansen

Research output: Contribution to journal › Article › peer-review

Abstract

Monitoring the body condition of animals offers insights into their energetic needs, prey consumption, and vulnerability to environmental pressures. Southern hemisphere humpback whales (Megaptera novaeangliae) depend on Antarctic krill for their annual energy requirements. Drone-based photogrammetry was used to assess the energetic cost of migration and reproduction for breeding stock G humpback whales. Body measurements of 103 adult whales (2017–2019) were used to estimate body condition in Colombia (breeding ground) and the Western Antarctic Peninsula (feeding ground) and seasonal change was predicted. Humpback whales reached their peak body condition between early March and late May, and their lowest between late August and early December. The change in body condition was converted into losses of blubber volume, mass, lipid, energy, and ultimately the biomass of krill required to cover migration. On average, an adult humpback whale lost 36 percentage points of its body condition over the migration, equivalent to 12 m3 or 11,000 kg of blubber tissue, 5000 kg of lipid, 196,000,000 kJ or 57,000 kg of Antarctic krill. By linking migration and reproductive energy costs to krill biomass, our findings provide critical ecological context for understanding how environmental changes such as krill population fluctuations could impact whale populations.

Original language	English
Number of pages	12
Journal	Marine Mammal Science
DOIs	https://doi.org/10.1111/mms.70048
State	Published - Jul 17 2025

Funding

This project was funded by an International Whaling Commission (IWC) Southern Ocean Research Partnership grant. The first author acknowledges receipt of a Griffith University International Postgraduate Research Scholarship and Griffith University Postgraduate Research Scholarship. We greatly appreciate the support of Consejo Comunitario Raizales in Coqui, Choco, Colombia, for approval to conduct fieldwork in Afrocolombian community territories. Also, thank you to G. Moreno (Checa), C. Martínez (mama Cruz) and all the Coqui community for their support and help during our fieldwork in the Colombian Pacific. The research was conducted under the Antarctic Conservation Act Permit 2015–2018, NMFS permits 14809, ACA permits 2015-011 and 2016-024, UCSC IACUC Friea1706, the Research Activities on Marine Mammals, Cetacean permit from the Australian Department of the Environment and Energy (C2018-0002), an animal ethics permit from Murdoch University, Australia (R3018/18) and under permiso marco de investigación científico (ANLA, Colombia), granted to Universidad de los Andes. Open access publishing facilitated by Griffith University, as part of the Wiley - Griffith University agreement via the Council of Australian University Librarians.

Keywords

Antarctic Sea-ice ecosystem
Bioenergetic model
Body condition
Photogrammetry
Southern hemisphere
unmanned aerial vehicle (UAV)

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10.1111/mms.70048License: CC BY

Cite this

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abstract = "Monitoring the body condition of animals offers insights into their energetic needs, prey consumption, and vulnerability to environmental pressures. Southern hemisphere humpback whales (Megaptera novaeangliae) depend on Antarctic krill for their annual energy requirements. Drone-based photogrammetry was used to assess the energetic cost of migration and reproduction for breeding stock G humpback whales. Body measurements of 103 adult whales (2017–2019) were used to estimate body condition in Colombia (breeding ground) and the Western Antarctic Peninsula (feeding ground) and seasonal change was predicted. Humpback whales reached their peak body condition between early March and late May, and their lowest between late August and early December. The change in body condition was converted into losses of blubber volume, mass, lipid, energy, and ultimately the biomass of krill required to cover migration. On average, an adult humpback whale lost 36 percentage points of its body condition over the migration, equivalent to 12 m3 or 11,000 kg of blubber tissue, 5000 kg of lipid, 196,000,000 kJ or 57,000 kg of Antarctic krill. By linking migration and reproductive energy costs to krill biomass, our findings provide critical ecological context for understanding how environmental changes such as krill population fluctuations could impact whale populations.",

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Drone-Based Photogrammetry Provides Estimates of the Energetic Cost of Migration for Humpback Whales Between Antarctica and Colombia

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