A survey of the fishes of Lake Winnipeg and interactions of the introduced white bass with the native ichthyofauna of Hudson Bay drainage : with emphasis on young-of-the-year fishes in nearshore environments

This project examined the littoral zone fish communities of Lake Winnipeg and adjacent waterways to determine 1) the distribution of all nearshore fishes, 2) the seasonal use of nearshore habitat by pelagic fish, 3) the food resources used by nearshore fish, 4) the fish species that are sympatric wi...

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Bibliographic Details
Main Author: Hanke, Gavin Frank
Format: Master Thesis
Language:English
Published: 1996
Subjects:
Hudson Bay
Hudson
Red River Lake
Copepods
Online Access:http://hdl.handle.net/1993/3735
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record_format openpolar
spelling ftunivmanitoba:oai:mspace.lib.umanitoba.ca:1993/3735 2023-08-27T04:09:53+02:00 A survey of the fishes of Lake Winnipeg and interactions of the introduced white bass with the native ichthyofauna of Hudson Bay drainage : with emphasis on young-of-the-year fishes in nearshore environments Hanke, Gavin Frank 1996 xxi, 318 leaves : 10016501 bytes application/pdf http://hdl.handle.net/1993/3735 eng eng (Sirsi) AJO-2783 http://hdl.handle.net/1993/3735 open access The reproduction of this thesis has been made available by authority of the copyright owner solely for the purpose of private study and research, and may only be reproduced and copied as permitted by copyright laws or with express written authorization from the copyright owner. master thesis 1996 ftunivmanitoba 2023-08-06T17:37:44Z This project examined the littoral zone fish communities of Lake Winnipeg and adjacent waterways to determine 1) the distribution of all nearshore fishes, 2) the seasonal use of nearshore habitat by pelagic fish, 3) the food resources used by nearshore fish, 4) the fish species that are sympatric with white bass and 5) the diet similarity among fish species in sympatry with the invading white bass. Four basic distribution patterns were identified for the fishes of the Red River, Lake Winnipeg and their tributaries, and these are presented as individual species maps. Fish move inshore in early to late June and remain there until September. All combinations of pelagic fish occured in samples, suggesting no spatial or temporal habitat shift in the presence of white bass. Pelagic insectivorous, pelagic piscivorous, pelagic zooplanktivorous and benthic insectivorous feeding guilds were defined from analysis of the diets of nearshore fishes. Feeding guilds appeared stable throughout the summer with the exception of emerald shiners, which ate zooplankton and insects in varying proportions. Diet analysis determined that yellow perch, emerald shiner, goldeye, juvenile walleye and sauger and cisco feed on the same zooplankton species as juvenile white bass. Adult white bass feed on the same fish as adult walleye and sauger. Pelagic fish commonly found in sympatry with the white bass include goldeye, mooneye, walleye, sauger, emerald shiner, and yellow perch. These fish are found throughout the lake with no northward range retreat in response to invasion of white bass. Segregation by time occurs in this lake and minimizes contact between white bass, cisco and lake whitefish. There is no evidence of abundance decline, habitat shift or diet shift in native fish in relation to the presence of white bass and therefore there is no evidence for competition resulting from the white bass invasion. The success of white bass is due to exploitation of abundant food items (calanoid copepods and leptodorid cladocerans when young and ... Master Thesis Hudson Bay Copepods MSpace at the University of Manitoba Hudson Bay Hudson Red River Lake ENVELOPE(-132.367,-132.367,61.006,61.006)
institution Open Polar
collection MSpace at the University of Manitoba
op_collection_id ftunivmanitoba
language English
description This project examined the littoral zone fish communities of Lake Winnipeg and adjacent waterways to determine 1) the distribution of all nearshore fishes, 2) the seasonal use of nearshore habitat by pelagic fish, 3) the food resources used by nearshore fish, 4) the fish species that are sympatric with white bass and 5) the diet similarity among fish species in sympatry with the invading white bass. Four basic distribution patterns were identified for the fishes of the Red River, Lake Winnipeg and their tributaries, and these are presented as individual species maps. Fish move inshore in early to late June and remain there until September. All combinations of pelagic fish occured in samples, suggesting no spatial or temporal habitat shift in the presence of white bass. Pelagic insectivorous, pelagic piscivorous, pelagic zooplanktivorous and benthic insectivorous feeding guilds were defined from analysis of the diets of nearshore fishes. Feeding guilds appeared stable throughout the summer with the exception of emerald shiners, which ate zooplankton and insects in varying proportions. Diet analysis determined that yellow perch, emerald shiner, goldeye, juvenile walleye and sauger and cisco feed on the same zooplankton species as juvenile white bass. Adult white bass feed on the same fish as adult walleye and sauger. Pelagic fish commonly found in sympatry with the white bass include goldeye, mooneye, walleye, sauger, emerald shiner, and yellow perch. These fish are found throughout the lake with no northward range retreat in response to invasion of white bass. Segregation by time occurs in this lake and minimizes contact between white bass, cisco and lake whitefish. There is no evidence of abundance decline, habitat shift or diet shift in native fish in relation to the presence of white bass and therefore there is no evidence for competition resulting from the white bass invasion. The success of white bass is due to exploitation of abundant food items (calanoid copepods and leptodorid cladocerans when young and ...
format Master Thesis
author Hanke, Gavin Frank
spellingShingle Hanke, Gavin Frank
A survey of the fishes of Lake Winnipeg and interactions of the introduced white bass with the native ichthyofauna of Hudson Bay drainage : with emphasis on young-of-the-year fishes in nearshore environments
author_facet Hanke, Gavin Frank
author_sort Hanke, Gavin Frank
title A survey of the fishes of Lake Winnipeg and interactions of the introduced white bass with the native ichthyofauna of Hudson Bay drainage : with emphasis on young-of-the-year fishes in nearshore environments
title_short A survey of the fishes of Lake Winnipeg and interactions of the introduced white bass with the native ichthyofauna of Hudson Bay drainage : with emphasis on young-of-the-year fishes in nearshore environments
title_full A survey of the fishes of Lake Winnipeg and interactions of the introduced white bass with the native ichthyofauna of Hudson Bay drainage : with emphasis on young-of-the-year fishes in nearshore environments
title_fullStr A survey of the fishes of Lake Winnipeg and interactions of the introduced white bass with the native ichthyofauna of Hudson Bay drainage : with emphasis on young-of-the-year fishes in nearshore environments
title_full_unstemmed A survey of the fishes of Lake Winnipeg and interactions of the introduced white bass with the native ichthyofauna of Hudson Bay drainage : with emphasis on young-of-the-year fishes in nearshore environments
title_sort survey of the fishes of lake winnipeg and interactions of the introduced white bass with the native ichthyofauna of hudson bay drainage : with emphasis on young-of-the-year fishes in nearshore environments
publishDate 1996
url http://hdl.handle.net/1993/3735
long_lat ENVELOPE(-132.367,-132.367,61.006,61.006)
geographic Hudson Bay
Hudson
Red River Lake
geographic_facet Hudson Bay
Hudson
Red River Lake
genre Hudson Bay
Copepods
genre_facet Hudson Bay
Copepods
op_relation (Sirsi) AJO-2783
http://hdl.handle.net/1993/3735
op_rights open access
The reproduction of this thesis has been made available by authority of the copyright owner solely for the purpose of private study and research, and may only be reproduced and copied as permitted by copyright laws or with express written authorization from the copyright owner.
_version_ 1775351564848857088

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