Publications 2017

Forecasting the ecology of the Red Sea using a cluster of regional 1D marine ecosystem assimilative models
D. Dreano, G. Triantafyllou, K. Tsiaras, and I. Hoteit
Ocean Dynamics, 67, 935-947, 2017
D. Dreano, G. Triantafyllou, K. Tsiaras, and I. Hoteit
Data assimilation, Ensemble Kalman filter, SEIK, ERSEM, Marine ecosystem modelling, Red Sea, Clustering, Chlorophyll remote sensing
2017
​Forecasting the state of large marine ecosystems is important for many economic and public health applications. However, advanced three-dimensional (3D) ecosystem models, such as the European Regional Seas Ecosystem Model (ERSEM), are computationally expensive, especially when implemented within an ensemble data assimilation system requiring several parallel integrations. As an alternative to 3D ecological forecasting systems, we propose to implement a set of regional one-dimensional (1D) water-column ecological models that run at a fraction of the computational cost. The 1D model domains are determined using a Gaussian mixture model (GMM)-based clustering method and satellite chlorophyll-a (Chl-a) data. Regionally averaged Chl-a data is assimilated into the 1D models using the singular evolutive interpolated Kalman (SEIK) filter. To laterally exchange information between subregions and improve the forecasting skills, we introduce a new correction step to the assimilation scheme, in which we assimilate a statistical forecast of future Chl-a observations based on information from neighbouring regions. We apply this approach to the Red Sea and show that the assimilative 1D ecological models can forecast surface Chl-a concentration with high accuracy. The statistical assimilation step further improves the forecasting skill by as much as 50%. This general approach of clustering large marine areas and running several interacting 1D ecological models is very flexible. It allows many combinations of clustering, filtering and regression technics to be used and can be applied to build efficient forecasting systems in other large marine ecosystems. 



DOI: 10.1007/s10236-017-1065-0