EP31B-1003
River Suspended Sediment and Particulate Organic Carbon Transport in Two Montane Catchments in the Luquillo Critical Zone Observatory of Puerto Rico over 25 years: 1989 to 2014

Wednesday, 16 December 2015
Poster Hall (Moscone South)
Kathryn E Clark1, Alain F Plante2, Jane K. Willenbring3, Douglas J Jerolmack4, Grizelle Gonzalez5, Robert F Stallard6, Sheila F Murphy7, David R Vann2, Miguel Leon2 and William H McDowell8, (1)University of Pennsylvania, Philadelphia, PA, United States, (2)University of Pennsylvania, Earth & Environmental Science, Philadelphia, PA, United States, (3)University of Pennsylvania, Department of Earth & Environmental Sciences, Philadelphia, PA, United States, (4)Univ of PA-Earth &Envir Scienc, Philadelphia, PA, United States, (5)USDA Forest Service, International Institute of Tropical Forestry, San Juan, PR, United States, (6)USGS WRD, Boulder, CO, United States, (7)USGS Central Region Offices Denver, Denver, CO, United States, (8)University of New Hampshire Main Campus, Durham, NH, United States
Abstract:
Physical erosion in mountain catchments mobilizes large amounts of sediment, while exporting carbon and nutrients from forest ecosystems. This study expands from previous studies quantifying river suspended sediment and particulate organic carbon loads in the Luquillo Critical Zone Observatory, in Puerto Rico. We evaluate the influences on river suspended load due to i) underlying basin geology, ii) hillslope debris and biomass supply, and iii) hurricanes and large storms. In the Mameyes and Icacos catchments of the Luquillo Mountains, we estimate suspended sediment and particulate organic carbon yields over a 25-year period using streamflow discharge determined from stage measurements at 15-intervals, with estimates of discharge replacing gaps in data, and over 3000 suspended sediment samples. We estimate variation in suspended sediment loads over time, and examine variation in particulate organic carbon loads. Mass spectrometry was used to determine organic carbon concentrations. We confirm that higher suspended sediment fluxes occurred i) in the highly weathered quartz diorite catchment rather than the predominantly volcaniclastic catchment, ii) on the rising limb of the hydrograph once a threshold discharge had been reached, and iii) during hurricanes and other storm events, and we explore these influences on particulate organic carbon transport. Transport of suspended sediment and particulate organic carbon in the rivers shows considerable hysteresis, and we evaluate the extent to which hysteresis affects particulate fluxes over time and between catchments. Because particulate organic carbon is derived from the critical zone and transported during high flow, our research highlights the role of major tropical storms in controlling carbon storage in the critical zone and the coastal ocean.