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River plume dynamic influences transport of barnacle larvae in the inner shelf off central Chile

Published online by Cambridge University Press:  25 August 2006

Cristian A. Vargas
Affiliation:
Estación Costera de Investigaciones Marinas Las Cruces and Center for Advanced Studies in Ecology and Biodiversity, Pontificia Universidad Católica de Chile, Casilla 114-D, Santiago, Chile Aquatic System Unit, Environmental Sciences Center EULA-CHILE, Universidad de Concepción, Casilla 160-C, Concepción, Chile
Diego A. Narváez
Affiliation:
Estación Costera de Investigaciones Marinas Las Cruces and Center for Advanced Studies in Ecology and Biodiversity, Pontificia Universidad Católica de Chile, Casilla 114-D, Santiago, Chile Center for Coastal Physical Oceanography, Department of Ocean, Earth, and Atmospheric Sciences, Old Dominion University, Crittenton Hall, 768 West 52nd Street, Norfolk, VA 23529, USA
Andrea Piñones
Affiliation:
Estación Costera de Investigaciones Marinas Las Cruces and Center for Advanced Studies in Ecology and Biodiversity, Pontificia Universidad Católica de Chile, Casilla 114-D, Santiago, Chile Center for Coastal Physical Oceanography, Department of Ocean, Earth, and Atmospheric Sciences, Old Dominion University, Crittenton Hall, 768 West 52nd Street, Norfolk, VA 23529, USA
Sergio A. Navarrete
Affiliation:
Estación Costera de Investigaciones Marinas Las Cruces and Center for Advanced Studies in Ecology and Biodiversity, Pontificia Universidad Católica de Chile, Casilla 114-D, Santiago, Chile
Nelson A. Lagos
Affiliation:
Departamento de Ciencias Básicas, Universidad Santo Tomás, Ejército 146, Santiago, Chile

Abstract

Off central Chile, around 33.5°S, the freshwater discharge of the River Maipo generates a small- to intermediate-size plume, which moves up to the north driven by the daily sea breeze and with localized effects on a costal zone of about 10–15 km. The influence of this river plume motion on abundance patterns of larval barnacles was studied in a ∼12 km long transect, including 2–3 stations inside the river plume, one station on the visible turbidity front, and two stations outside the plume. Shipboard campaigns were conducted in January (summer), August (winter), and October 2003 (spring). On each occasion, conductivity–temperature–depth casts, bottom track acoustic Doppler current profiler current measurements, size-fractioned chlorophyll concentration, and stratified plankton sampling were conducted. A significantly higher abundance of barnacle nauplii was found at the river plume front than at the plume or outside the plume. Abundance was highest in the upper 10 m of the water column, where most nauplius larvae were found. The river plume appeared as a surface layer of less saline water moving north of the river mouth, with a buoyant frontal structure progressing at speeds of 5 to 20 cm s−1. Although no peak in chlorophyll was observed at the buoyant front, the highest concentration of effective prey size for feeding nauplii (chlorophyl-a <5 and 5–20 μm) was generally associated with less saline plume waters. Thus, the accumulation of barnacle larvae at the front may facilitate foraging, potentially increasing larval growth and energy reserves. Our results suggest that the spatial structure and temporal dynamics of river plumes should be considered by benthic ecologists as transport mechanisms that potentially affect larval delivery and settlement of barnacles on rocky shores.

Type
Research Article
Copyright
2006 Marine Biological Association of the United Kingdom

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