Limnological description of the Lakes Zürich, Lucerne, and Cadagno

This introductory article of the special GAP issue gives an overview on general limnological characteristics of the prealpine Lakes Zürich and Lucerne and the alpine Lake Cadagno and reports on the specific situation of primary production parameters during the international GAP Workshop in mid Septe...

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Published in:Aquatic sciences 2001-09, Vol.63 (3), p.225-249
Main Authors: BOSSARD, Peter, GAMMETER, Sonja, LEHMANN, Christine, SCHANZ, Ferdinand, BACHOFEN, Reinhard, BÜRGI, Hans-Rudolf, STEINER, Daniel, ZIMMERMANN, Ulrich
Format: Article
Language:English
Subjects:
Algae
Animal and plant ecology
Animal, plant and microbial ecology
Aquatic ecosystems
Biological and medical sciences
Community structure
Euphotic zone
Fieldwork
Fresh water ecosystems
Fundamental and applied biological sciences. Psychology
Lakes
Limnology
Mesotrophic lakes
Nutrients
Oligotrophic lakes
Phytoplankton
Plankton
Primary production
Synecology
Water analysis
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container_end_page 249
container_issue 3
container_start_page 225
container_title Aquatic sciences
container_volume 63
creator BOSSARD, Peter
GAMMETER, Sonja
LEHMANN, Christine
SCHANZ, Ferdinand
BACHOFEN, Reinhard
BÜRGI, Hans-Rudolf
STEINER, Daniel
ZIMMERMANN, Ulrich
description This introductory article of the special GAP issue gives an overview on general limnological characteristics of the prealpine Lakes Zürich and Lucerne and the alpine Lake Cadagno and reports on the specific situation of primary production parameters during the international GAP Workshop in mid September 1999. Furthermore, it describes methods used for water analysis and fieldwork in these lakes.¶A comparison of data related to primary production in the three lakes in September 1999 during stratification shows that (i) phytoplankton community structure varied considerably between the lakes. The dominating algae were Planktothrix rubescens in Lake Zürich, various chrysophytes and diatoms in Lake Lucerne, and Echinocoleum elegans in Lake Cadagno, (ii) the euphotic zone in Lake Lucerne was considerably deeper (app. 15m) than in the other two lakes (app. 10 m), (iii) chlorophyll a standing crop was highest in mesotrophic Lake Zürich (August: 121 mg m^sup -2^), followed by oligotrophic Lake Lucerne (August: 75, September: 34 mg m^sup -2^) and mesotrophic Lake Cadagno (August: 33, September: 25 and 14 mg m^sup -2^), and (iv) areal primary production was highest in Lake Zürich (August: 105, September: 124 mg C m^sup -2^ h^sup -1^), followed by Lake Cadagno (August: 102, September: 52 mg C m^sup -2^ h^sup -1^) and Lake Lucerne (August: 90, September: 52 mg C m^sup -2^ h^sup -1^). Physiological parameters, determined in situ from P versus I relationships, showed a lower initial slope α in Lake Lucerne (August: 0.03, September: 0.02 mg C mg^sup -1^ chl a h^sup -1^μmol^sup -1^ m^sup 2^ s) than in the other two lakes (Lake Zürich in August: 0.05, in September: 0.11; Lake Cadagno in August: 0.05, in September: 0.11 and 0.28 mg C mg^sup -1^ chl a h^sup -1^μmol^sup -1^ m^sup 2^ s). Lake Zürich showed the lowest AN ^sub max^ (August: 2.6, September: 3.2 mg C mg^sup -1^ chl a h^sup -1^, as compared to 5.9 - 7.4 mg C mg^sup -1^ chl a h^sup -1^ in the Lakes Lucerne and Cadagno), while in Lake Cadagno the highest inhibitory effects of C-assimilation were found (highest slopes of inhibition β, 0.007-0.011, as compared to 0.0003-0.0026 in the other two lakes), due to a higher UV-exposure in this alpine lake.[PUBLICATION ABSTRACT]
doi_str_mv 10.1007/PL00001353
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Furthermore, it describes methods used for water analysis and fieldwork in these lakes.¶A comparison of data related to primary production in the three lakes in September 1999 during stratification shows that (i) phytoplankton community structure varied considerably between the lakes. The dominating algae were Planktothrix rubescens in Lake Zürich, various chrysophytes and diatoms in Lake Lucerne, and Echinocoleum elegans in Lake Cadagno, (ii) the euphotic zone in Lake Lucerne was considerably deeper (app. 15m) than in the other two lakes (app. 10 m), (iii) chlorophyll a standing crop was highest in mesotrophic Lake Zürich (August: 121 mg m^sup -2^), followed by oligotrophic Lake Lucerne (August: 75, September: 34 mg m^sup -2^) and mesotrophic Lake Cadagno (August: 33, September: 25 and 14 mg m^sup -2^), and (iv) areal primary production was highest in Lake Zürich (August: 105, September: 124 mg C m^sup -2^ h^sup -1^), followed by Lake Cadagno (August: 102, September: 52 mg C m^sup -2^ h^sup -1^) and Lake Lucerne (August: 90, September: 52 mg C m^sup -2^ h^sup -1^). Physiological parameters, determined in situ from P versus I relationships, showed a lower initial slope α in Lake Lucerne (August: 0.03, September: 0.02 mg C mg^sup -1^ chl a h^sup -1^μmol^sup -1^ m^sup 2^ s) than in the other two lakes (Lake Zürich in August: 0.05, in September: 0.11; Lake Cadagno in August: 0.05, in September: 0.11 and 0.28 mg C mg^sup -1^ chl a h^sup -1^μmol^sup -1^ m^sup 2^ s). 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Furthermore, it describes methods used for water analysis and fieldwork in these lakes.¶A comparison of data related to primary production in the three lakes in September 1999 during stratification shows that (i) phytoplankton community structure varied considerably between the lakes. 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Furthermore, it describes methods used for water analysis and fieldwork in these lakes.¶A comparison of data related to primary production in the three lakes in September 1999 during stratification shows that (i) phytoplankton community structure varied considerably between the lakes. The dominating algae were Planktothrix rubescens in Lake Zürich, various chrysophytes and diatoms in Lake Lucerne, and Echinocoleum elegans in Lake Cadagno, (ii) the euphotic zone in Lake Lucerne was considerably deeper (app. 15m) than in the other two lakes (app. 10 m), (iii) chlorophyll a standing crop was highest in mesotrophic Lake Zürich (August: 121 mg m^sup -2^), followed by oligotrophic Lake Lucerne (August: 75, September: 34 mg m^sup -2^) and mesotrophic Lake Cadagno (August: 33, September: 25 and 14 mg m^sup -2^), and (iv) areal primary production was highest in Lake Zürich (August: 105, September: 124 mg C m^sup -2^ h^sup -1^), followed by Lake Cadagno (August: 102, September: 52 mg C m^sup -2^ h^sup -1^) and Lake Lucerne (August: 90, September: 52 mg C m^sup -2^ h^sup -1^). Physiological parameters, determined in situ from P versus I relationships, showed a lower initial slope α in Lake Lucerne (August: 0.03, September: 0.02 mg C mg^sup -1^ chl a h^sup -1^μmol^sup -1^ m^sup 2^ s) than in the other two lakes (Lake Zürich in August: 0.05, in September: 0.11; Lake Cadagno in August: 0.05, in September: 0.11 and 0.28 mg C mg^sup -1^ chl a h^sup -1^μmol^sup -1^ m^sup 2^ s). Lake Zürich showed the lowest AN ^sub max^ (August: 2.6, September: 3.2 mg C mg^sup -1^ chl a h^sup -1^, as compared to 5.9 - 7.4 mg C mg^sup -1^ chl a h^sup -1^ in the Lakes Lucerne and Cadagno), while in Lake Cadagno the highest inhibitory effects of C-assimilation were found (highest slopes of inhibition β, 0.007-0.011, as compared to 0.0003-0.0026 in the other two lakes), due to a higher UV-exposure in this alpine lake.[PUBLICATION ABSTRACT]</abstract><cop>Heidelberg</cop><pub>Springer</pub><doi>10.1007/PL00001353</doi><tpages>25</tpages><oa>free_for_read</oa></addata></record>
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source Springer Nature
subjects Algae
Animal and plant ecology
Animal, plant and microbial ecology
Aquatic ecosystems
Biological and medical sciences
Community structure
Euphotic zone
Fieldwork
Fresh water ecosystems
Fundamental and applied biological sciences. Psychology
Lakes
Limnology
Mesotrophic lakes
Nutrients
Oligotrophic lakes
Phytoplankton
Plankton
Primary production
Synecology
Water analysis
title Limnological description of the Lakes Zürich, Lucerne, and Cadagno
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