European Research Executive Agency, MSCA-PF
Jan Viljanen Project Leader, 2024 – 2026
The polar oceans are hotspots for carbon cycling and burial. The coastal phytoplankton populations bloom provided by the iron, the main nutrient in polar waters, surging from the subglacial water systems. Retreating glaciers cause uncertainty to the future of the iron flux flowing into the oceans and, therefore, it is unclear how the warming climate impacts the carbon cycle in polar areas. However, methods for on-site in-situ monitoring that could gain sufficient temporally and spatially resolved information on the iron behavior in glacial hydrological systems are either unsatisfactory or cumbersome.
The ambitious aim is to develop an optical measurement technique to monitor and quantify dissolved iron in glacial meltwaters. The objectives are to (i) introduce an on-chip waveguide design for liquid Raman sensing to develop a portable but sensitive measurement device, and (ii) create an identification and calibration model that can quantify dissolved iron in glacial waters. The expected result is to establish an optical method that enables fast reagent free online monitoring of dissolved iron in glacial meltwaters that can be, in future work, made into a compact on-chip format.
The data will help to quantify their impact on the polar carbon cycle and constrain climate models. The developed Raman sensor can be further applied on various environmental sensing needs, such as monitoring of agronutrient runoff to water systems. From my personal perspective, the obtained research experience and skills will help me to establish a career path on the field of environmental sensing that I am passionate about. The fellowship will give an opportunity to expand my environmental research network to span over the Nordic region and drive border-crossing experimental research of the carbon cycle and climate change