Seabirds as indicators of New Hampshire's fisheries

Primary tabs

Common tern standing on a wooden post with an island tern colony in the background

Having accurate data about fish populations is vital to managing a fishery, but getting that data for younger, smaller fish using traditional sampling methods can be difficult. A research team led by Elizabeth Craig at the Shoals Marine Laboratory and the University of New Hampshire will be studying the diets of seabirds – specifically terns in the Isles of Shoals – to close this data gap and more accurately measure the health of specific fisheries. By watching what kinds of fish seabird parents feed to their chicks, analyzing fecal samples, and sampling the fish community through net tows and DNA in seawater samples, the project will inform the ways we monitor our fisheries and make management decisions.

Dr. Elizabeth Craig sitting on rocks at the Isles of Shoals tern colony

Principle Investigator:

Elizabeth Craig, Ph.D.

Tern Conservation Program Manager, Shoals Marine Laboratory

Adjunct Faculty, School of Marine Science and Ocean Engineering, UNH

Contact Dr. Craig:

elizabeth.craig@unh.edu

Project Funding Cycle:

2020-2021 NH Sea Grant Biennial Research Funding


CO-Investigators:

Nathan Furey, Ph.D.

Assistant Professor, Department of Biological Sciences, UNH

Contact Dr. Furey:

nathan.furey@unh.edu
Furey Lab website

Jennifer Seavey, Ph.D.

Executive Director, Shoals Marine Laboratory

Research Faculty, School of Marine Science and Ocean Engineering, UNH

Adjunct Assistant Professor, Department of Natural Resources, Cornell University

Contact Dr. Seavey:

jennifer.seavey@unh.edu


Project Abstract

The informed use and stewardship of New Hampshire’s marine resources requires a robust understanding of commercial and recreational fisheries, however, fisheries scientists and managers often lack high-quality data on young age classes of fish (0-2 years) and in inshore habitats. Seabirds have long been recognized as excellent indicators of marine health and are increasingly considered to be valuable indicators of fisheries as well, particularly for fish that are hard to sample with traditional fisheries biology methods (including the young agetern research team of 3 people tag birds in the field on Seavey Island, NH classes of fish in inshore waters mentioned above). Thus, there is strong potential for seabird diet to provide information necessary for proper management of coastal NH fishes. However, to reduce uncertainty of the links between seabird diet and fishery productivity, managers need to know how well seabird diet reflects the fish community, and therefore how seabirds interact with fish populations at finer spatial and temporal scales, including what characteristics seabirds select for when foraging.

Here we propose a paired sampling approach of seabird diet and fish community composition. Seabird sampling will focus on the tern nesting colony on the Isles of Shoals, NH. Terns will be GPS tagged to determine local foraging hotspot locations. Tagged terns will be visually observed while feeding their young to determine species and size of fish delivered to chicks. We will collect fecal samples from chicks and adults for genomics analysis to confirm prey items to species. Concurrently, we will deploy nets to sample the fish community (including species and size composition) and collect water samples for eDNA analysis of fish community composition at tern foraging hotspots. This research proposal is paired with an integrated environmental literacy and workforce development approach. End users of this research include state and federal fisheries and wildlife agencies (several representatives of which are included as collaborators), NH undergraduate and graduate students, and NH seacoast residents.

Expected benefits to end-users

  1. Evaluation of a potential tool for fisheries scientists and managers – By illuminating the relationship between tern diet and the NH inshore fish community, our research will evaluate a SBMF tool for application locally in both single-species and ecosystem-based management approaches. Furthermore, since terns breed throughout the Gulf of Maine, we foresee opportunities to apply this to SBMF efforts at a regional scale.

  2. Support of conservation-dependent seabird species – Our research will advance the conservation of NH’s threatened and endangered terns by improving our understanding of their prey selectivity and dietary needs, by prioritizing the inclusion of these needs into fisheries management considerations, and by advancing community awareness of seabirds and our shared reliance on NH fisheries. This provides a direct benefit to NHFG, which is charged with the management and recovery of these species.

  3. Advancement of workforce development and environmental literacy for the NH seacoast community - Through community engagement, along with graduate and undergraduate training, this research will advance local understand and stakeholdership in NH fisheries and wildlife.


Project News