JpGU-AGU Joint Meeting 2017

講演情報

[EE] 口頭発表

セッション記号 A (大気水圏科学) » A-OS 海洋科学・海洋環境

[A-OS13] [EE] 陸域海洋相互作用

2017年5月23日(火) 13:45 〜 15:15 302 (国際会議場 3F)

コンビーナ:山敷 庸亮(京都大学大学院総合生存学館)、升本 順夫(東京大学大学院理学系研究科)、Behera Swadhin(Climate Variation Predictability and Applicability Research Group, Application Laboratory, JAMSTEC, 3173-25 Showa-machi, Yokohama 236-0001)、宮澤 泰正(独立行政法人海洋研究開発機構)、座長:升本 順夫(東京大学大学院理学系研究科)、座長:Swadhin Behera(海洋研究開発機構)

14:45 〜 15:00

[AOS13-05] Basin scale coupled ocean-shelf ecosystem modelling

*Jason T Holt1James Harle1Momme Butenschon2Sarah Wakelin1Yuri Artioli2Katya Popova1Jeff Polton1Jerry Blackford2Icarus Allen2 (1.National Oceanography Centre、2.Plymouth Marine Laboratory)

キーワード:ocean-shelf coupling, coupled hydrodynamic-ecosystem modelling, shelf edge and shelf sea processes, Global coastal ocean modelling

The biogeochemistry and ecosystems of the open-ocean and shelf seas are intimately connected. For example, continental shelves can receive a substantial fraction of their nutrients from the wider ocean, while exporting carbon at depth, sequestering it from atmospheric exchange. Similarly rivers transport substantial quantities of terrestrial nutrients and dissolved organic carbon into the coastal zone. The ultimate fate of this material is dependent on its recycling within and transport across the continental shelves. In both cases the open-ocean to shelf sea coupling is mediated by the complex dynamical processes at the shelf-break and on-shelf. Basin scale, hydrodynamic ecosystem models that merge the modelling approaches of the global scale and the coastal ocean scale, provide an important window into these processes. We draw of results from a 1/12o basin-scale NEMO-ERSEM model of the Northern North Atlantic (Holt et al 2014) with specific features relevant to shelf seas (e.g. tides and advanced vertical mixing schemes). This model is eddy resolving in the open-ocean, and well resolves barotropic scales on-shelf. We use this model to explore the ocean shelf nutrient transport and its relation to wider scale oceanic and atmospheric variability (e.g. sub-polar gyre variability and the North Atlantic Oscillation). We compare the performance of this model with its parent global ocean model and global climate models from the CMIP5 ensemble; demonstrating a marked improvement. We go beyond this North Atlantic work to introduce new basin-scale and global-scale coupled ecosystem modelling efforts focusing in the western Indian Ocean and South East Asian seas, and we explore how the capabilities developed in this context can be translated to global models (Holt et al 2017).


Holt, J., Allen, J.I., Anderson, T.R., Brewin, R., Butenschon, M., Harle, J., Huse, G., Lehodey, P., Lindemann, C., Memery, L., Salihoglu, B., Senina, I., Yool, A., 2014. Challenges in integrative approaches to modelling the marine ecosystems of the North Atlantic: Physics to Fish and Coasts to Ocean. Progress in Oceanography, doi:10.1016/j.pocean.2014.04.024, 285-313.

Holt, J., Hyder, P., Ashworth, M., Harle, J., Hewitt, H.T., Liu, H., New, A.L., Pickles, S., Porter, A., Popova, E., Allen, J.I., Siddorn, J., Wood, R., 2017. Prospects for improving the representation of coastal and shelf seas in global ocean models. Geosci. Model Dev., 10, 499-523.