Abstract

Atlantic cod Gadus morhua populations in the northeast USA have failed to recover since major declines in the 1970s and 1990s. To rebuild these stocks, managers need reliable information on spawning dynamics in order to design and implement control measures; discovering cost-effective and non-invasive monitoring techniques is also favorable. Atlantic cod form dense, site-fidelic spawning aggregations during which they vocalize, permitting acoustic detection of their presence at such times. The objective of this study was to detect spawning activity of Atlantic cod using multiple fixed-station passive acoustic recorders to sample across Massachusetts Bay during the winter spawning period. A generalized linear modeling approach was used to investigate spatio-temporal trends of cod vocalizing over 10 consecutive winter spawning seasons (2007-2016), the longest such timeline of any passive acoustic monitoring of a fish species. The vocal activity of Atlantic cod was associated with diel, lunar, and seasonal cycles, with a higher probability of occurrence at night, during the full moon, and near the end of November. Following 2009 and 2010, there was a general decline in acoustic activity. Furthermore, the northwest corner of Stellwagen Bank was identified as an important spawning location. This project demonstrated the utility of passive acoustic monitoring in determining the presence of an acoustically active fish species, and provides valuable data for informing the management of this commercially, culturally, and ecologically important species.

Highlights

  • Acoustic recordings were leveraged from 3 separate projects that covered the areas both within and outside designated fishery closures intended to protect Atlantic cod spawning aggregations in Massachusetts Bay in the western GOM (Fig. 1)

  • Massachusetts Bay is bordered on the north by

  • The year-round acoustic analyses (2009−2010) confirmed that the presence of Atlantic cod grunts aligned with the winter spawning season described in previous studies, and that the available data set encompassed the winter spawning season almost completely (Fig. 2)

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Summary

Introduction

This corrected version: February 19, 2020 been a principal component of fisheries in the northwest Atlantic Ocean since at least the 17th century (Serchuk & Wigley 1992, Kurlansky 1997, FAO 2011). This long history of exploitation, combined with environmental variation

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