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Spatial distribution of phytoplankton cells in small elongated lakes subject to weak diurnal wind forcing |
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| Authors: | Javier Vidal Anna Rigosi Andrea Hoyer Carmelo Escot Francisco J Rueda |
| Institution: | 1. Instituto del Agua, Universidad de Granada, Granada, Spain 2. Marine Science Institute, University of California Santa Barbara, Santa Barbara, USA 3. Earth Research Institute, University of California Santa Barbara, Santa Barbara, USA 4. Departamento de Ingeniería Civil, Universidad de Granada, Granada, Spain 5. Empresa Metropolitana de Abastecimiento y Saneamiento de Aguas de Sevilla, S.A. EMASESA, Sevilla, Spain |
| Abstract: | The horizontal distribution of phytoplankton in a medium-size canyon type reservoir, forced by weak winds of 3–4 ms?1, is largely driven by the interaction of the large-scale circulation and processes regulating the vertical distribution of algal cells in the water column. These drivers, in turn, are subject to diurnal variations, making our understanding of the horizontal distribution of phytoplankton a challenging task. A three-dimensional physical-–ecological model is used to understand the spatial distribution of algae and the role of diurnal variations in the physical–biological drivers. The model was used to demonstrate that the large-scale circulation induced during the day is more efficient generating patchiness than the circulation existing at night, when convectively driven turbulence homogenizes the upper layers. Different spatial distributions develop for different populations and under different forcing scenarios, characterized in terms of the directionality of wind forcing, wind magnitude and the lags between winds and diel heat fluxes. The time scales needed so that algal biomass in the surface exhibit significant longitudinal gradients—T P —will vary depending on the algal group, and its ability to regulate its vertical position. These scales are shorter for those species that either migrate actively in the water column or exhibit positive buoyancy (Cryptophytes or Positive buoyant algae). In El Gergal, these scales T P are on the order of a few days. Synoptic changes in the meteorological forcing, like the passing of a front, could potentially change the longitudinal distribution of algal biomass if they persist for periods of time longer than T P . |
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