TemBi 2014 mesocosm study - Impact of summer storms on long-term lake ecosystem dynamics

Extreme weather and disturbance events are expected to increase, influencing plankton community structure and biogeochemical element cycling in lakes. We simulated an experimental summer storm by mixing deeper water masses from the meta- and hypolimnion into the mixed layer (epilimnion). The mixing...

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Bibliographic Details
Main Authors: Grossart, Hans-Peter, Hornick, Thomas, Berger, Stella A, Nejstgaard, Jens Christian, Monaghan, Michael T, Miki, Takashi, Giling, Darren P, Selmeczy, Géza B, Padisák, Judit, Kasprzak, Peter, Wurzbacher, Christian, Kirillin, Georgiy, Engelhardt, Christof, Gessner, Mark O
Format: Dataset
Language:English
Published: PANGAEA 2021
Subjects:
ArcTrain
BIBS
Bridging in Biodiversity Science
Climate driven Changes in Biodiversity of Microbiota
Enclosure experiment
Germany
Lake_Stechlin
NITROLIMIT
Processes and impacts of climate change in the North Atlantic Ocean and the Canadian Arctic
Stickstofflimitation in Binnengewässern
TemBi
Arctic
Climate change
North Atlantic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.931002
Description
Summary:Extreme weather and disturbance events are expected to increase, influencing plankton community structure and biogeochemical element cycling in lakes. We simulated an experimental summer storm by mixing deeper water masses from the meta- and hypolimnion into the mixed layer (epilimnion). The mixing included the disturbance of a deep chlorophyll maximum (DCM) which was present at the same time of the experiment in the deep clear-water Lake Stechlin and situated in the metalimnion of each enclosure during filling. Plankton community structure, water physical variables and biogeochemical cycling was monitored for 42 days after the experimental summer storm disturbance event. The experiment was performed in large-volume (~1200 m3, ~16m depth) enclosures in Lake Stechlin (LakeLab; https://www.igb-berlin.de/en/lakelab).

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