Publications by authors named "Andrea Ogston"
Sediment transfer from land to ocean begins in coastal settings and, for large rivers such as the Amazon, has dramatic impacts over thousands of kilometers covering diverse environmental conditions. In the relatively natural Amazon tidal river, combinations of fluvial and marine processes transition toward the ocean, affecting the transport and accumulation of sediment in floodplains and tributary mouths. The enormous discharge of Amazon fresh water causes estuarine processes to occur on the continental shelf, where much sediment accumulation creates a large clinoform structure and where additional sediment accumulates along its shoreward boundary in tidal flats and mangrove forests.
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- Sediment pulses significantly alter river and coastal landscapes, but measuring these changes has been challenging due to their unpredictable nature.
- The removal of two large dams on the Elwha River provided a unique opportunity to study the effects of a large sediment influx, with about 30 million tons of sediment released for observation.
- Over five years, nearly 65% of this sediment was eroded, influencing river channel morphology and contributing to the growth of the delta by approximately 60 hectares, with geomorphic changes peaking one to two years post-dam removal.
The coastal marine ecosystem near the Elwha River was altered by a massive sediment influx-over 10 million tonnes-during the staged three-year removal of two hydropower dams. We used time series of bathymetry, substrate grain size, remotely sensed turbidity, scuba dive surveys, and towed video observations collected before and during dam removal to assess responses of the nearshore subtidal community (3 m to 17 m depth). Biological changes were primarily driven by sediment deposition and elevated suspended sediment concentrations.
View Article and Find Full Text PDFThe oceanic biological pump is responsible for the important transfer of CO-C as POC "Particulate Organic Carbon" to the deep sea. It plays a decisive role in the Earth's carbon cycle and significant effort is spent to quantify its strength. In this study we used synchronized daily time-series data of surface chlorophyll-a concentrations from the NASA's MODIS satellite in combination with hourly to daily observations from sea surface buoys and from an Internet Operated Vehicle (IOV) on the seafloor within Barkley Canyon (Northeast Pacific) to investigate the importance of winter processes in the export of fresh phytodetritus.
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- The study examined how the landscape setting in five Pacific Northwest estuaries affects food web connectivity, focusing on the role of freshwater influence in estuarine environments.
- By using stable isotopes and a Bayesian mixing model, researchers traced the dietary contributions of primary producers to bivalve consumers, revealing strong connectivity among mussels but variable diets in clams based on their habitat.
- Findings suggest that factors like river discharge, marsh area, and detrital source availability significantly impact food web dynamics, highlighting that changes in estuarine landscapes can disrupt connectivity essential for sedentary species.