@misc{krishna_modelbased_data_2021, 
author={Krishna, S., Ulloa, H., Kerimoglu, O., Minaudo, C., Anneville, O., Wüest, A.},
title={Model-based data analysis of the effect of winter mixing on primary production in a lake under reoligotrophication},
year={2021},
howpublished = {journal article},
doi = {https://doi.org/10.1016/j.ecolmodel.2020.109401},
abstract = {According to our results, the simulated surface mixed layer depth is deeper and heat loss from the lake and turbulent kinetic energy in the water column are much higher in winter 2012 than that in 2013, pointing to a cooling-driven, deep mixing in the lake in 2012. We found significant differences in internal phosphorus loads in the epilimnion between the two years, with estimates for 2012 being higher than those for 2013. ERGOM predicts weak nutrient limitation on phytoplankton and higher growth rates in 2012. Apparently, the deep mixing event led to high turnover of nutrients (particularly dissolved inorganic phosphate) to the productive surface layers, and a massive algal bloom developed later in the productive season. In contrary, the turnover of nutrients in 2013 was weak and consequently the PP was low. Our findings demonstrate the utility of a coupled physical–biological model framework for the investigation of the meteorological and physical controls of PP dynamics in aquatic systems.},
note = {Online available at: \url{https://doi.org/10.1016/j.ecolmodel.2020.109401} (DOI). Krishna, S.; Ulloa, H.; Kerimoglu, O.; Minaudo, C.; Anneville, O.; Wüest, A.: Model-based data analysis of the effect of winter mixing on primary production in a lake under reoligotrophication. Ecological Modelling. 2021. vol. 440, 109401. DOI: 10.1016/j.ecolmodel.2020.109401}}