Estimates of prey requirements and initial examination of the primary productivity to support the magellan strait humpback whales
•Humpback whale feeding in Magellan Strait waters.•Primary productivity required to support prey consumption.•Velocity-dependent bioenergetic model, δ13C and δ15N, abundance estimates, different energy budget, residence time scenarios, and trophic energy transfer model were used in the analysis.•Pre...
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Veröffentlicht in: | Progress in oceanography 2023-02, Vol.211, p.102971, Article 102971 |
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Sprache: | eng |
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Zusammenfassung: | •Humpback whale feeding in Magellan Strait waters.•Primary productivity required to support prey consumption.•Velocity-dependent bioenergetic model, δ13C and δ15N, abundance estimates, different energy budget, residence time scenarios, and trophic energy transfer model were used in the analysis.•Prey requirements ranged between 4,007 and 12,673 tons under different population abundance estimates, energy needs, and residence times.•Findings imply ∼ 6.8 to 41.5 % of net primary productivity in the feeding area.
The waters of the Magellan Strait shelter a persistent and small feeding subpopulation of humpback whales (HWs) which is growing at a slower rate than expected, making it highly vulnerable. Despite their low abundance, the HWs represent significant consumers in this austral ecosystem. To better understand the needs of this summering subpopulation in the Magellan Strait feeding area, we estimated the biomass of prey required by HWs to meet their annual energy requirements using a velocity-dependent bioenergetic model and scaled it to two estimates of annual abundance (2011 and 2012), as well as the fraction of primary productivity required (PPR) to support that biomass of prey using a simple trophic energy transfer model. Based on a range of abundance between 75 and 101 whales, the summering subpopulation was estimated to require between 4,007 and 12,673 tons of prey under different population abundances estimates, energy needs, and residence times. These findings imply a minimum and maximum estimate ranging from 12.1 to 62.6 g C/m−2(−|-) y-1, or ∼ 6.8 to 41.5 % of net primary productivity in the feeding area to sustain the prey species directly required by HWs. Even though our estimates of prey requirements and PPR may change as new and better data become available, the results show that this small summering subpopulation requires at least a significant portion of annual phytoplankton production. |
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ISSN: | 0079-6611 1873-4472 |
DOI: | 10.1016/j.pocean.2023.102971 |