Post-glacial diatom-inferred aquatic changes in Sicamous Creek Lake, British Columbia, Canada-Reference-Cited by-同舟云学术

Post-glacial diatom-inferred aquatic changes in Sicamous Creek Lake, British Columbia, Canada

Published:2014-12-15 Issue:3 Volume:27 Page:233-256
ISSN:1718-8598
Container-title:Revue des sciences de l’eau
language:
Short-container-title:rseau

Author:

Voit Andrea C.¹,Hebda Richard J.²,Racca Julien M.J.³,Pienitz Reinhard³,Walker Ian R.⁴,Raeder Uta¹,Heinrichs Markus L.⁵

Affiliation:

1. Limnologische Station der Technischen Universität München, Hofmark 1-3, 82393 Iffeldorf, Germany

2. Royal British Columbia Museum, 675 Belleville Street, Victoria, British Columbia, Canada, V8W 9W2, Biology Department and School of Earth and Ocean Sciences, University of Victoria, P.O. Box 1700, Victoria, British Columbia, Canada, V8W 2Y2

3. Aquatic Paleoecology Laboratory, Centre for Northern Studies (CEN) and Department of Geography, Université Laval, Québec, Canada, G1V 0A6

4. Okanagan (University) College, 1000 K.L.O Road, Kelowna, British Columbia, Canada, V1V 4X8, University of British Columbia, Okanagan Campus, 3333 University Way, Kelowna, British Columbia, Canada, V1V 1V7

5. 1Limnologische Station der Technischen Universität München, Hofmark 1-3, 82393 Iffeldorf, Germany, Okanagan (University) College, 1000 K.L.O Road, Kelowna, British Columbia, Canada, V1V 4X8, Telephone: 250 832-2126

Abstract

Diatom analyses of sediments from a high elevation lake situated in an Engelmann Spruce - Subalpine Fir (ESSF) forest of south-central British Columbia, Canada, reveal long-term climate and water chemistry change. During the transition from the late-glacial / Pleistocene to the xerothermic early Holocene, small, benthic Fragilaria diatoms species that grew under low light conditions in Sicamous Creek Lake gave way to planktonic Cyclotella species that require open-water conditions. Warm temperatures in the mesothermic Holocene are indicated by smaller Cyclotella species and large, benthic pennate diatoms. Diatom communities reflected Neoglacial cooling in the late Holocene, with abundant Nitzschia fonticola and Achnanthes minutissima. Small, benthic Fragilaria regained abundance, suggesting cooling and conditions similar to the late-glacial interval. Diatom community composition responded to the deposition of the Mt. Mazama and Mt. St. Helens tephras, though the Mazama eruption caused greater change in relative abundance of various taxa within the assemblage. Correspondence analysis shows distinct communities have occurred since the initiation of sedimentation, likely due to climate controlled landscape and vegetation changes; diatom-inferred pH values using various models and training sets show limited acidification change occurred through the lake’s history.

Publisher

Consortium Erudit

Subject

Water Science and Technology

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