CONICET | Buscador de Institutos y Recursos Humanos

Land-derived dissolved and particulate matter (allochthonous matter) affect pelagic ecosystems bychanging factors which include light penetration, nutrient availability, substrate concentration and,in general, biogeochemical cycles in the ocean. In a context of increasing anthropogenic impact,this material may not only increase its load but also carry toxic substances. Riverine runoff is themost studied mechanism of particulate matter input from the continent to the shelf in the southernregion of South America where the continental shelf is widest (e.g., Atlantic Patagonia). However,there are other sources of particulate matter which are not affected by rivers in this semi-arid region:aeolian material. Winds in this region (notably the the South Hemisphere Westerlies) are the onlyway continental aeolian material (atmospheric aerosols or ?dust?) can reach not only the shelf buteven further onto oceanic HNLC (High Nutrients- Low Chlorophyll) waters of the AtlanticSouthern Ocean. This potential impact of Patagonian dust beyond the continental shelf attractsattention to the global climate community, and at the same time it opens questions about thepotential effects of dust in coastal waters. According to previous work and ongoing studies,deposited particles can have significant impacts in the chemical and biological components in theeuphotic zone. However the effects of this airborne material in plankton ecosystems of SouthAmerica is largely unknown, mostly due to lack of in situ studies and observations. Since the events of dust mobilization, transport and deposition are expected to increase (due to climate change) andinteract with other global change factors such as warming and more intensive land use, theinfluence of dust input may become more prominent for coastal and oceanic regions of southernSouth America in the next decades.