2015: Keith Moore

Keith Moore (University of California at Irvine) has been a key member of the Biogeochemistry Working Group for over 10 years. In the early 2000's he, Scott Doney and Keith Lindsay designed and assembled the first version of the biogeochemistry component of the ocean model. Keith Moore had worked on several of the parameterizations that were incorporated into this first version of the component. He has been involved in all further developments of the component, and has written many papers using this component, some of which are listed below. Three of these papers show results from the 20th century run using the CESM1(BGC) version. In this run, the ocean did not take up enough carbon dioxide from the atmosphere. Over the last year or more, Keith Moore undertook to refine many of the coefficients in the biogeochemistry module so that the ocean would take up more CO2. These coefficient values are now in the CESM(BGC) version that is being used for a second 20th century run, which will be started in the near future.

Related Publications

Moore et al (2004) Upper ocean ecosystem dynamics and iron cycling in a global 3-D model. Global Geochemical Cycles, 18.

Moore et al (2006) Nitrogen fixation amplifies the ocean biogeochemical response to decadal timescale variations in mineral dust deposition. Tellus, 58, 560.

Moore and Doney (2007) Iron availability limits the ocean nitrogen inventory stabilizing feedbacks between marine denitrification and nitrogen fixation. Global Geochemical Cycles, 21.

Krishnamurthy et al (2009) The impacts of increasing anthropogenic soluble iron and nitrogen deposition on ocean biogeochemistry. Global Geochemical Cycles, 23.

Jochum et al (2010) Response of carbon fluxes and climate to orbital forcing changes in the CCSM. Paleooceanography, 25.

Long et al (2013) 20th century oceanic carbon uptake and storage in CESM1(BGC). J Climate, 26.

Moore et al (2013) Marine ecosystem dynamics and biogeochemical cycling in the CESM1(BGC): Comparison of the 1990s with the 2090s under the RCP4.5 and RCP8.5 scenarios. J Climate, 26.

Wong et al (2014) Impacts of sea ice on the marine iron cycle and phytoplankton productivity. Biogeosciences, 11, 4713.

Lindsay et al (2014) Preindustrial control and 20th century carbon cycle experiments with the earth system model CESM1(BGC). J Climate, 27, 8981.