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The planktonic copepod Calanus finmarchicus is a fundamental prey resource for the critically endangered North Atlantic right whale Eubalaena glacialis . Incorporation of prey information into E. gla cialis decision support tools could improve management. Zooplankton time series are usually analyzed with respect to abundance, but predators such as E. glacialis forage based on whether prey aggregations exceed energetic thresholds. In order to better understand the distribution and dynamics of the high-abundance end of C. finmarchicus on the northeastern US continental shelf, where E. glacialis feed, we modeled the environmental conditions associated with C. finmarchicus densities that exceed nominal feeding thresholds. Threshold values were chosen based on a review of E. glacialis feeding behavior throughout the domain. Following model selection procedures, we used a random forest model with bathymetry, bottom temperature, bottom salinity, day of year, sea surface temperature, sea surface temperature gradient, bathymetric slope, time-integrated chlorophyll, current velocity gradient, and wind covariates. Model performance was highest with thresholds that matched reported E. glacialis feeding thresholds equivalent to 10000 copepods m -2 . The high-density aggregations of C. finmarchicus had some different covariate responses compared to previous statistical abundance models, such as a warmer temperature range at both the surface and at depth, as well as a much higher degree of spatial variability. The output data layers of the model are designed to link with E. glacialis models used in US governmental decision support tools. Including this type of foraging information in decision support tools is a step forward in managing this critically endangered species.
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North Atlantic right whale Eubalaena glacialis prey selection in Cape Cod Bay
North Atlantic right whalesEubalaena glacialishave been observed feeding in Cape Cod Bay (CCB) for over 8 decades, making CCB the most consistent known feeding habitat under shifting ocean and climate conditions. Determining the composition of the right whales’ prey resource in a stable feeding habitat during a period of environmental change will inform conservation efforts throughout their habitat range. We compared zooplankton sampled in the paths of skim-feeding right whales to the bay-wide zooplankton resource in CCB over 23 yr. The dominant zooplankton taxa in CCB werePseudocalanuscomplex,Calanus finmarchicus, andCentropagesspp. during the winter/spring seasons. The succession of these 3 dominant taxa—Centropagesspp. toPseudocalanuscomplex (day of the year [DOY] mean ± SD: 34 ± 3) toC. finmarchicus(DOY 92 ± 3)—has provided right whales with a stable, multi-month food resource in a small portion of their greater North Atlantic habitat. We found that right whales targeted aggregations of non-dominant prey groups:Pseudocalanuscomplex andCentropagesspp. aggregations whenCentropagesspp. dominated the bay-wide zooplankton community;Pseudocalanuscomplex patches andC. finmarchicuspatches whenPseudocalanusdominated; and primarilyC. finmarchicuscopepodite stage CIV and CV aggregations when CIII dominated bay-wide abundances. Over the time series, we found thatCentropagesspp. abundance increased andC. finmarchicusdecreased only at the beginning of the season. CCB remains a critical foraging habitat for right whales due to the phenological cycle of their prey and limited inter-annual changes in prey abundance.
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- Award ID(s):
- 2049308
- PAR ID:
- 10574235
- Publisher / Repository:
- Inter Research
- Date Published:
- Journal Name:
- Endangered Species Research
- Volume:
- 51
- ISSN:
- 1863-5407
- Page Range / eLocation ID:
- 15 to 29
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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- Free Publicly Accessible Full Text
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Accepted Manuscript1.0
- Journal Article:
- https://doi.org/10.3354/esr01240
