Furthermore, high loads of allocthonous material into the pelagic environment are expected from different sources: terrestrial, littoral and river discharges (Fahl and Nöthig, 2007 and Montemayor et al., 2011). In the temperate and eutrophic Bahía Blanca Estuary, the phytoplankton seasonality and composition has been studied for decades and the
winter-early spring bloom has been characterized as the most important biomass event over the annual cycle (Guinder et al., 2010 and references therein). The inner zone of the estuary is the most productive area along the main channel, RG7422 cost as a result of high abundance and diversity of both planktonic and benthic communities (Elías, 1992, Hoffmeyer et al., 2008 and Popovich and Marcovecchio, 2008). In this shallow inner zone, a tight benthic–pelagic BKM120 coupling is expected. For instance, resting stages of diatoms (Guinder et al., 2012) and zooplankton resting eggs (Berasategui et al., 2013) have been found lying in the sediments and germinating in the pelagic habitat after resuspension. Conversely, a marked difference in the species composition has been found between plankton
and benthos: the phytoplankton is dominated by centric diatoms while the dense microbial mats are densely formed by pennates diatoms and cyanobacterias (Pan et al., 2013 and Parodi and Barría de Cao, 2003). This suggests low exportation of phytoplankton cells to the bottom
either by intense grazing in the water column or high degradation processes of the organic matter. However, little is known so far on vertical transport of phytoplankton and organic matter; only short-term observations have been done during a tidal cycle (Guinder et al., 2009a). Tracking the production and fate of the organic matter produced in the surface of the water column during the blooming season will elucidate the potential benthic–pelagic interactions and the remineralization capacity of the system in the highly productive inner zone of the Bahía Blanca Estuary. In this work our goals were (1) to evaluate the evolution of the winter-early spring phytoplankton bloom in surface waters assessing the species succession, size structure, duration and magnitude of the bloom in relation to environmental factors, Edoxaban and (2) to characterize the settled material inside sediment collectors in terms of accumulated particulate suspended matter (PSM) and organic matter (POM), chlorophyll and phaeopigments concentrations, and carbon-to-nitrogen ratios (C:N). Overall, we aim to obtain an approach to the modulating factors of the winter phytoplankton bloom and its potential influence in the underlying sediments. The Bahía Blanca Estuary (38°42′–39°25′ S, 61°50′–62°22′ W) is located in a temperate climate region on the southwestern Atlantic, Argentina. The estuary is mesotidal (mean tidal amplitude of 3.