Litcius/Paper detail

Antarctic spring ice-edge blooms observed from space by ICESat-2

Xiaomei Lu, Yongxiang Hu, Yuekui Yang, Paula S Bontempi, Ali Omar, Rosemary R. Baize

2020Remote Sensing of Environment102 citationsDOIOpen Access PDF

Abstract

Polar ocean ecosystems are experiencing rapid environmental change, but measuring the associated phytoplankton responses is challenging using traditional satellite passive ocean color measurements due to signal contamination from clouds and sea ices and to low solar elevation angles. Active satellite lidar measurements allow retrieval of ocean phytoplankton properties under conditions prohibitive to passive ocean color sensors. The ICESat-2 satellite lidar measurements provide two-dimensional distributions of upper ocean phytoplankton properties. The spring phytoplankton blooms extending about 230 km horizontally from dense packs ice near Antarctic marginal ice zones and 15 m vertically below ocean surface are observed from space for the first time. Our findings highlight the advantages of satellite lidar technology for understanding high latitude plankton ecology and biogeochemistry.

Topics & Concepts

Sea icePhytoplanktonOcean colorEnvironmental scienceOceanographyLidarRemote sensingPlanktonSatelliteSpring bloomCryospherePolar frontBiogeochemistryGeologyEcologyEngineeringBiologyAerospace engineeringNutrientAtmospheric and Environmental Gas DynamicsMarine and coastal ecosystemsIsotope Analysis in Ecology