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Environmental correlates of blue and fin whale call detections in the North Pacific Ocean from 1997 to 2002 (2011)

Stafford, Kathleen M. ; Citta, John J. ; Moore, Sue E. ; [et al.]

Inter-Research

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Publication Date: 2022-05-25

Description: Author Posting. © Inter-Research, 2009. This article is posted here by permission of Inter-Research for personal use, not for redistribution. The definitive version was published in Marine Ecology Progress Series 395 (2009): 37-53, doi:10.3354/meps08362.

Description: A 6 yr time series of blue whale Balaenoptera musculus and fin whale B. physalus call detections in the North Pacific Ocean was correlated with 3 oceanographic variables (sea-surface temperature, chlorophyll a concentration, and mixed layer depth), to investigate the broad-scale calling behavior of these species. Monthly values for satellite-derived oceanographic data and whale call data were compared for 4 regions (30° longitude by 15° of latitude) encompassing the whole subarctic North Pacific and an area in the temperate northeastern Pacific. To determine predictive models for whale call occurrence, generalized linear models were used to determine which, if any, oceanographic variables might influence whale calling behavior over such broad space and time scales. Sea-surface temperature was the best oceanographic variable for predicting whale call detections for both species and all regions.

Description: Funding over the years was provided by SERDP through SPAWAR (D. Conlon), the Marine Mammal Program of the Office of Naval Research (R. Gisiner, N00014- 96-1-1130), the Chief of Naval Operations Environmental Program N45 (F. Stone and E. Young), the US Army Corps of Engineers (DCA87-00-H-0026), funding from the Department of Defense Legacy Resource Management Program and from the Naval Postgraduate School (C. Collins, N00244-07-1-0017 to K.M.S. and N00244-07-1-0014 to M.A.D.).

Keywords: Blue whale ; Fin whale ; North Pacific ; Acoustics ; Oceanography

Repository Name: Woods Hole Open Access Server

Type: Article

Format: application/pdf

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Intraseasonal variation in southeast Pacific blue whale acoustic presence, zooplankton backscatter, and oceanographic variables on a feeding ground in Northern Chilean Patagonia (2022)

Buchan, Susannah J. ; Pérez-Santos, Iván ; Narváez, Diego ; [et al.]

Elsevier

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Publication Date: 2022-05-27

Description: © The Author(s), 2021. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Buchan, S. J., Perez-Santos, I., Narvaez, D., Castro, L., Stafford, K. M., Baumgartner, M. F., Valle-Levinson, A., Montero, P., Gutierrez, L., Rojas, C., Daneri, G., & Neira, S. Intraseasonal variation in southeast Pacific blue whale acoustic presence, zooplankton backscatter, and oceanographic variables on a feeding ground in Northern Chilean Patagonia. Progress in Oceanography, 199,(2021): 102709, https://doi.org/10.1016/j.pocean.2021.102709.

Description: Seasonal variation in the acoustic presence of blue whale calls has been widely reported for feeding grounds worldwide, however variation over the submonthly scale (several days to 〈1 month) has been examined to a much lesser extent. This study combines passive acoustic, hydroacoustic, and in situ oceanographic observations collected at a mooring in the Corcovado Gulf, Northern Chilean Patagonia, from January 2016-February 2017, to examine the temporal variation in blue whale acoustic occurrence and prey backscatter over seasonal and submonthly scales. Time series data for a) Southeast Pacific blue whale song calls and D-calls, b) zooplankton backscatter, c) tidal amplitude, and d) meridional and zonal wind stress were examined visually for seasonal trends. To examine submonthly timescales over the summer feeding season (January-June), wavelet transforms and wavelet coherence were applied; generalized linear models (GLM) were also applied. There was a 3-month lag between the seasonal onsets of high zooplankton backscatter (October) and blue whale acoustic presence (January), and an almost immediate drop in blue whale acoustic presence with the seasonal decrease of backscatter (June). This may be due to the use of memory by animals when timing their arrival on the feeding ground, but the timing of their departure may be related to detection of low prey availability. Over the summer feeding season, blue whale acoustic presence was strongly associated with zooplankton backscatter (GLM coefficient p ≪ 0.0001). Song calls followed a seasonal cycle, but D-calls appeared to respond to short term variations in environmental conditions over submonthly scales. Results suggest that spring tides may increase prey aggregation and/or transport into the Corcovado Gulf, leading to increased blue whale acoustic presence over 15-day or 30-day cycles; and short-lived events of increased wind stress with periodicities of 2–8 days and 16–30 days, may also contribute to the aggregation of prey. We discuss the strengths and limitations of coupling passive and active acoustic data to examine drivers of blue whale distribution.

Description: Financial support was provided by Centro COPAS Sur-Austral ANID AFB170006 and COPAS Coastal FB10021 https://www.anid.cl/, and Office of Naval Research Global and Office of Naval Research grant N00014-17-1-2606.

Keywords: Blue whales ; Euphausiids ; Passive acoustics ; Active acoustics ; Estuaries ; Backscatter ; Tidal forcing ; Wind stress

Repository Name: Woods Hole Open Access Server

Type: Article

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