What sea-ice biogeochemical modellers need from observers

Abstract Numerical models can be a powerful tool helping to understand the role biogeochemical processes play in local and global systems and how this role may be altered in a changing climate. With respect to sea-ice biogeochemical models, our knowledge is severely limited by our poor confidence in...

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Bibliographic Details
Published in:Elementa: Science of the Anthropocene
Main Authors: Nadja Steiner, Clara Deal, Delphine Lannuzel, Diane Lavoie, François Massonnet, Lisa A. Miller, Sebastien Moreau, Ekaterina Popova, Jacqueline Stefels, Letizia Tedesco
Format: Article in Journal/Newspaper
Language:English
Published: BioOne 2016
Subjects:
geo
Online Access:https://doi.org/10.12952/journal.elementa.000084
https://doaj.org/article/4155b28c8c9241e8807cf672504e7f42
Description
Summary:Abstract Numerical models can be a powerful tool helping to understand the role biogeochemical processes play in local and global systems and how this role may be altered in a changing climate. With respect to sea-ice biogeochemical models, our knowledge is severely limited by our poor confidence in numerical model parameterisations representing those processes. Improving model parameterisations requires communication between observers and modellers to guide model development and improve the acquisition and presentation of observations. In addition to more observations, modellers need conceptual and quantitative descriptions of the processes controlling, for example: primary production and diversity of algal functional types in sea ice, ice algal growth, release from sea ice, heterotrophic remineralisation, transfer and emission of gases (e.g., DMS, CH4, BrO), incorporation of seawater components in growing sea ice (including Fe, organic and inorganic carbon, and major salts) and subsequent release; CO2 dynamics (including CaCO3 precipitation), flushing and supply of nutrients to sea-ice ecosystems; and radiative transfer through sea ice. These issues can be addressed by focused observations, as well as controlled laboratory and field experiments that target specific processes. The guidelines provided here should help modellers and observers improve the integration of measurements and modelling efforts and advance toward the common goal of understanding biogeochemical processes in sea ice and their current and future impacts on environmental systems.