D1 13 Chris Osburn Topic 1 Lateral Exchanges And Fluxes Youtube

D1 13 Chris Osburn Topic 1 Lateral Exchanges And Fluxes Youtube About press copyright contact us creators advertise developers terms privacy policy & safety how works test new features nfl sunday ticket press copyright. About press copyright contact us creators advertise developers terms privacy policy & safety how works test new features nfl sunday ticket press copyright.

D1 10 Mathilde Couturier Topic 1 Lateral Exchanges And Fluxes Youtube About press copyright contact us creators advertise developers terms privacy policy & safety how works test new features nfl sunday ticket press copyright. Bio. chris osburn is professor of marine biogeochemistry in the department of marine, earth, and atmospheric sciences at north carolina state university. previously, he was a research chemist at the united states naval research laboratory. his research interests span carbon and nitrogen cycling across the aquatic continuum and focus on the. Chris uses geospatial analytics to investigate how land use and extreme weather events affect the biogeochemistry of coastal waters. he develops algorithms and modeling approaches to relate the chemistry of natural waters to their optical properties to study fluxes and cycling of carbon and nutrients between the land and ocean through rivers. These results will be presented at the 2018 agu fall meeting and ocb summer 2019 meeting. figure 1: a) high frequency water (green) and dic (black) flux for one month each in spring and summer. amplitude of fluxes increases during spring tides and summer season. b) wang et al. (2016) estimate of dic and doc lateral fluxes extrapolated to the.

D1 8 Aleck Wang Topic 1 Lateral Exchanges And Fluxes Youtube Chris uses geospatial analytics to investigate how land use and extreme weather events affect the biogeochemistry of coastal waters. he develops algorithms and modeling approaches to relate the chemistry of natural waters to their optical properties to study fluxes and cycling of carbon and nutrients between the land and ocean through rivers. These results will be presented at the 2018 agu fall meeting and ocb summer 2019 meeting. figure 1: a) high frequency water (green) and dic (black) flux for one month each in spring and summer. amplitude of fluxes increases during spring tides and summer season. b) wang et al. (2016) estimate of dic and doc lateral fluxes extrapolated to the. The high rate of carbon exchange in tidal wetlands provides a strong linkage between the atmosphere and the coastal ocean, since lateral aquatic export appears to be an important or dominant fate of that fixed carbon. during the workshop, two approaches were agreed to pursue the u.s. scale flux estimation:. Loading of total organic carbon (toc) and dissolved inorganic carbon (dic) to estuaries included riverine discharge and lateral exchange from tidal wetlands. the lateral exchanges of toc and dic reached 4.5 ± 5.7 and 8.9 ± 1.4 mol·c·m −2 ·yr −1, accounting for 86.5% and 62.7% of total toc and dic inputs into these estuaries, respectively.

D1 12 Elizabeth Canuel Topic 1 Lateral Fluxes And Exchanges Youtube The high rate of carbon exchange in tidal wetlands provides a strong linkage between the atmosphere and the coastal ocean, since lateral aquatic export appears to be an important or dominant fate of that fixed carbon. during the workshop, two approaches were agreed to pursue the u.s. scale flux estimation:. Loading of total organic carbon (toc) and dissolved inorganic carbon (dic) to estuaries included riverine discharge and lateral exchange from tidal wetlands. the lateral exchanges of toc and dic reached 4.5 ± 5.7 and 8.9 ± 1.4 mol·c·m −2 ·yr −1, accounting for 86.5% and 62.7% of total toc and dic inputs into these estuaries, respectively.