Seasonal and decadal patterns in Discostella (Bacillariophyceae) species from bi-weekly records of two boreal lakes (Experimental Lakes Area, Ontario, Canada)

A recent rise in the relative abundance of Discostella species (D. stelligera and D. pseudostelligera) has been well documented from sedimentary diatom assemblages across the Northern Hemisphere. This unprecedented change over the last ~150 years has been linked to rises in atmospheric temperatures,...

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Published inJournal of phycology Vol. 52; no. 5; pp. 817 - 826
Main Authors Wiltse, Brendan, Paterson, Andrew M., Findlay, David L., Cumming, Brian F.
Format Journal Article
LanguageEnglish
Published United States Blackwell Publishing Ltd 01.10.2016
Wiley Subscription Services, Inc
Subjects
Biodiversity
boreal lakes
climate change
Diatoms - physiology
Discostella stelligera
Experimental Lakes Area
Lakes
Ontario
Population Dynamics
Seasonal
Seasons
Temperature
Discostella stelligera
boreal lakes
Experimental Lakes Area
Seasonal
climate change
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Summary:A recent rise in the relative abundance of Discostella species (D. stelligera and D. pseudostelligera) has been well documented from sedimentary diatom assemblages across the Northern Hemisphere. This unprecedented change over the last ~150 years has been linked to rises in atmospheric temperatures, changes in ice cover, and/or increases in thermal stability, among other factors. The bi‐weekly monitoring data from two boreal lakes at the Experimental Lakes Area (ELA) in northwestern Ontario were analyzed across seasons (spring, summer, and fall) and decades (1970s–2000s). We found that Discostella species are primarily spring/early summer bloomers (i.e., late April to June) in these lakes and changes in concentrations of Discostella over time were most pronounced in the spring or early summer months. Increases in Discostella abundance over time may be linked to earlier ice‐off and a longer period of spring turnover, resulting from increased winter and spring temperatures. It is also possible that a trophic mismatch between the spring diatom bloom and zooplankton is occurring, thus reducing diatom loss rates, and resulting in greater overall abundance. Moreover, the spring dominance of Discostella in our study lakes occurred at a time of the year when nutrient concentrations were at their highest seasonally, suggesting that these taxa are neither limited directly by nutrients, nor responding to enhanced stratification during the summer months in these lakes.
Bibliography:istex:868837FA46E8342573349531E5F2549AC2F7B930
Figure S1. Abundance of Discostella species in the epilimnion of ELA Lake 224. These are raw data from the ELA phytoplankton monitoring database. The solid line represents that first day there was a greater than 1°C per meter change in temperature within the water column, error bars represent the period during which this change may have been first established. Figure S2. Abundance of Discostella species in the epilimnion of ELA Lake 239. These are raw data from the ELA phytoplankton monitoring database. The solid line represents that first day there was a greater than 1°C per meter change in temperature within the water column, error bars represent the period during which this change may have been first established.
ArticleID:JPY12443
ark:/67375/WNG-B02GW912-B
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0022-3646
1529-8817
DOI:10.1111/jpy.12443