TemBi 2014 mesocosm study: Summer storm impact on water chemistry and physics in Lake Stechlin

doi:doi:10.1594/PANGAEA.930971

TemBi 2014 mesocosm study: Summer storm impact on water chemistry and physics in Lake Stechlin

We simulated an experimental summer storm in large-volume (~1200 m3, ~16m depth) enclosures in Lake Stechlin 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 Lake Stechlin and situated in the metalimnion of each enclosure during filling. Water physical variables and water chemistry was monitored for 42 days after the experimental disturbance event. Mixing disrupted the thermal stratification, increasing concentrations of dissolved nutrients and CO2 and changing light conditions in the epilimnion. Mixing, thus, stimulated phytoplankton growth, resulting in higher particulate matter concentrations of carbon, nitrogen and phosphorous.

BibTex:

@dataset{Berger_Stella_A_and_Nejstgaard_Jens_Christian_and_Beyer_Ute_and_Casper_Peter_and_Degebrodt_Monika_and_Eckert_Werner_and_Engelhardt_Christoph_and_Hornick_Thomas_and_Kirillin_Georgiy_and_Lentz_Maren_and_Mach_Elke_and_Mallok_Uta_and_Papke_Monika_and_Penske_Armin_and_Pinnow_Solveig_and_Rossberg_Reingard_and_Sachtleben_Michael_and_Sareyka_Jörg_and_Santaolalla_Gonzalo_Idoate_and_Gessner_Mark_O_and_Grossart_Hans-Peter_2021,
    abstract = {We simulated an experimental summer storm in large-volume (~1200 m3, ~16m depth) enclosures in Lake Stechlin 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 Lake Stechlin and situated in the metalimnion of each enclosure during filling. Water physical variables and water chemistry was monitored for 42 days after the experimental disturbance event. Mixing disrupted the thermal stratification, increasing concentrations of dissolved nutrients and CO2 and changing light conditions in the epilimnion. Mixing, thus, stimulated phytoplankton growth, resulting in higher particulate matter concentrations of carbon, nitrogen and phosphorous.},
    author = {Berger, Stella A and Nejstgaard, Jens Christian and Beyer, Ute and Casper, Peter and Degebrodt, Monika and Eckert, Werner and Engelhardt, Christoph and Hornick, Thomas and Kirillin, Georgiy and Lentz, Maren and Mach, Elke and Mallok, Uta and Papke, Monika and Penske, Armin and Pinnow, Solveig and Rossberg, Reingard and Sachtleben, Michael and Sareyka, Jörg and Santaolalla, Gonzalo Idoate and Gessner, Mark O and Grossart, Hans-Peter},
    doi = {10.1594/PANGAEA.930971},
    institution = {PANGAEA (Chemistry)},
    keyword = {'Climate change', 'DCM', 'cyanobacteria', 'disturbance', 'enclosure', 'lake', 'mesocosm', 'summer storm', 'water chemistry', 'water physics'},
    title = {TemBi 2014 mesocosm study: Summer storm impact on water chemistry and physics in Lake Stechlin},
    url = {https://service.tib.eu/ldmservice/vdataset/png-doi-10-1594-pangaea-930971},
    year = {2021}
}