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Adaption of egg and larvae sampling techniques for lake sturgeon and broadcast spawning fishes in a deep river

  1. E. F. Roseman1,
  2. J. Boase2,
  3. G. Kennedy3,
  4. J. Craig3,
  5. K. Soper4

Article first published online: 5 DEC 2011

DOI: 10.1111/j.1439-0426.2011.01828.x

Issue

Journal of Applied Ichthyology

Journal of Applied Ichthyology

Special Issue: Proceedings of the Third Annual Conference on sturgeons of the North American Chapter of the World Sturgeon Conservation Society, Bozeman, Montana, USA, 31 August - 2 September 2010

Volume 27, Issue Supplement s2, pages 89–92, November 2011

Additional Information

How to Cite

Roseman, E. F., Boase, J., Kennedy, G., Craig, J. and Soper, K. (2011), Adaption of egg and larvae sampling techniques for lake sturgeon and broadcast spawning fishes in a deep river. Journal of Applied Ichthyology, 27: 89–92. doi: 10.1111/j.1439-0426.2011.01828.x

Author Information

  1. 1

    USGS Great Lakes Science Center, Ann Arbor, MI, USA

  2. 2

    USFWS Alpena National Fish and Wildlife Conservation Office, Waterford, MI, USA

  3. 3

    USGS Great Lakes Science Center, Ann Arbor, MI, USA

  4. 4

    Ontario Ministry of Natural Resources Lake Erie Management Unit, Wheatley, ON, Canada

*Author’s address: Edward F. Roseman, USGS Great Lakes Science Center, 1451 Green Road, Ann Arbor, MI 48105, USA. E-mail: eroseman@usgs.gov

Publication History

  1. Issue published online: 5 DEC 2011
  2. Article first published online: 5 DEC 2011
  3. Received: December 12, 2010 Accepted: May 4, 2011

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Summary

In this report we describe how we adapted two techniques for sampling lake sturgeon (Acipenser fulvescens) and other fish early life history stages to meet our research needs in the Detroit River, a deep, flowing Great Lakes connecting channel. First, we developed a buoy-less method for sampling fish eggs and spawning activity using egg mats deployed on the river bottom. The buoy-less method allowed us to fish gear in areas frequented by boaters and recreational anglers, thus eliminating surface obstructions that interfered with recreational and boating activities. The buoy-less method also reduced gear loss due to drift when masses of floating aquatic vegetation would accumulate on buoys and lines, increasing the drag on the gear and pulling it downstream. Second, we adapted a D-frame drift net system formerly employed in shallow streams to assess larval lake sturgeon dispersal for use in the deeper (>8 m) Detroit River using an anchor and buoy system.

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