Ice Algae Model Intercomparison Project phase 2 (IAMIP2)

Hakase Hayashida,Russell Fiedler,Peter G Strutton,Andrew E Kiss,Andrew Mcc Hogg,Meibing Jin,Nadja S Steiner,Neil C Swart,Eiji Watanabe,Richard J Matear

doi:10.5194/gmd-14-6847-2021

Abstract

Abstract. Ice algae play a fundamental role in shaping sea-ice-associated ecosystems and biogeochemistry. This role can be investigated by field observations; however the influence of ice algae at the regional and global scales remains unclear due to limited spatial and temporal coverage of observations and because ice algae are typically not included in current Earth system models. To address this knowledge gap, we introduce a new model intercomparison project (MIP), referred to here as the Ice Algae Model Intercomparison Project phase 2 (IAMIP2). IAMIP2 is built upon the experience from its previous phase and expands its scope to global coverage (both Arctic and Antarctic) and centennial timescales (spanning the mid-20th century to the end of the 21st century). Participating models are three-dimensional regional and global coupled sea-ice–ocean models that incorporate sea-ice ecosystem components. These models are driven by the same initial conditions and atmospheric forcing datasets by incorporating and expanding the protocols of the Ocean Model Intercomparison Project, an endorsed MIP of the Coupled Model Intercomparison Project phase 6 (CMIP6). Doing so provides more robust estimates of model bias and uncertainty and consequently advances the science of polar marine ecosystems and biogeochemistry. A diagnostic protocol is designed to enhance the reusability of the model data products of IAMIP2. Lastly, the limitations and strengths of IAMIP2 are discussed in the context of prospective research outcomes.

Highlights

IntroductionMicroalgae that colonize sea ice are the foundation of polar marine food webs
Together with pelagic phytoplankton, microalgae that colonize sea ice are the foundation of polar marine food webs
The vertical extent of the sea-ice ecosystem component of the currently committed selection of Ice Algae Model Intercomparison Project phase 2 (IAMIP2) models is restricted to the bottom-ice layer, which likely underestimates depth-integrated ice algae biomass and primary production because ice algae are present throughout the seaice column especially in the Antarctic

Summary

Introduction

Microalgae that colonize sea ice are the foundation of polar marine food webs. Understanding the susceptibility of ice algae to climate change is essential to comprehending the climatic impacts on higher trophic levels, such as fish, seals, whales, penguins, polar bears, and humans (Cavan et al, 2019; Darnis et al, 2012). Vernal blooms of ice algae directly influence lower trophic levels, such as phytoplankton, zooplankton, and krill, by drawing down near-surface nutrients, reducing light transmission through sea ice, seeding subsequent pelagic blooms, and providing a food source for pelagic and benthic grazers (Leu et al, 2015). Hayashida et al.: Ice Algae Model Intercomparison Project phase 2 (IAMIP2)

Objectives

Methods

Conclusion