Dear colleagues, Co-authors and I are pleased to share our recent publication published in The Journal of Physiology:
van Aswegen, M., Szabo, A., Currie, J. J., Stack, S. H., Evans, L., Straley, J. M., Neilson, J. L., Gabriele, C. M., Cates, K., Steel, D., & Bejder, L. (2024). Maternal investment, body condition and calf growth in humpback whales. *Journal of Physiology*. doi: 10.1113/JP287379. Abstract: Given recent declines in North Pacific humpback whale (*Megaptera novaeangliae*) reproductive output and calf survival, there is additional urgency to better understand how mother–calf pairs allocate energy resources across their migratory cycle. Here, unoccupied aerial system (UAS; or drone) photogrammetry was used to quantify the body size and condition (BC) of humpback whales on their Hawaiʻi (HI) breeding and Southeast Alaska (SEAK) feeding grounds. Between 2018 and 2022, we collected 2410 measurements of 1659 individuals. Rates of change in body volume (BV) and length (BL) were quantified using 803 repeat measurements of 275 individuals. On average, HI mothers lost 0.106 m3 or 96.84 kg day−1 while fasting, equivalent to 2641 MJ day−1 or 830 kg of krill and 424 kg of Pacific herring daily. HI calf BV and BL increased by 0.035 m3 and 2.6 cm day−1, respectively. In SEAK, maternal BV increased by 0.015 m3 or 14.54 kg day−1 (367 MJ day−1), while calf BV and BL increased by 0.039 m3 and 0.93 cm day−1, respectively. Maternal investment in calf growth correlated with both female BL and BC, with larger females producing larger, faster‐growing calves. Finally, using 330 measurements from 156 females, we quantified differences in BC increase over four feeding seasons. Lactating females exhibited an average BC increase of 6.10%, half that of unclassified females (13.51%) and six times lower than pregnant females (37%). These findings represent novel insights into the life history of humpback whales across their migratory cycle, providing key baseline data for bioenergetic models elucidating the effects of anthropogenic disturbance and rapidly changing ocean ecosystems. Please feel free to email me for a pdf copy or if you have any questions. Best, Martin van Aswegen PhD Candidate | Marine Mammal Research Program Hawaiʻi Institute of Marine Biology |University of Hawaiʻi at Mānoa E: [email protected] W: www.mmrphawaii.org
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