Periodic Reporting for period 1 - EMoGrIS (Ecological Modelling of the Greenland Ice Sheet Surface Ecosystem)
Okres sprawozdawczy: 2016-01-01 do 2017-12-31
This project addresses the current absence of a theoretical framework of glacier and ice sheet ecosystems in order to enable their mathematical modelling, predicting their future changes, and using them as model systems for theoretical ecology. The principal aims of the proposed fellowship are the following:
1) To provide a theoretical framework of the supraglacial ecosystem of the Greenland Ice Sheet and to develop a modelling tool for prediction of the future change of the ecosystem. This objective includes the development of a conceptual model, its mathematical formulation and validation, and the application of future scenarios of the ice sheet. Special attention will be paid to identifying feedback mechanisms that could potentially result in runaway processes and further acceleration of the current change of the GrIS.
2) To establish the supraglacial ecosystem of the GrIS as a model system for studying microbial biogeography and diversity patterns. This objective includes the identification of ecologically relevant factors that affect microbial diversity on the surface of the ice sheet, the formulation of hypotheses testable by field experiments and analyses, and the development of a specific sampling strategy that will test these hypotheses.
The project has achieved its main scientific objectives and milestones, and, moreover, the fellowship has enabled me to broaden my research palette and to establish myself as an independent scientist and team leader producing high quality research.
I have introduced the Greenland Ice Sheet into the ecological community as a model system for testing biogeography and diversity patterns hypotheses. A draft project proposal outlining field-based research on the surface of the GrIS and including a spatially explicit field work plan has been produced as Milestone 4 of the project.
I also continued to work on a research project focusing on processes that contribute to the biological darkening of the ice surface in Greenland. I finished the first quantitative assessment of the microbial contribution to the Greenland ice sheet surface darkening (together with my colleagues and co-workers from 14 institutions and 7 countries). We found that the effect of a specific group of algae on bare ice darkening in the study area is greater than that of other impurities, and that incorporating the darkening effect of ice algal growth will thus improve mass balance and sea level projections of the Greenland ice sheet. The results of this project were published in a paper called “Algae drive enhanced darkening of bare ice on the Greenland Ice Sheet” in Geophysical Research Letters and attracted a lot of attention from both the scientific community and the public.
Direct use of the results for policy and decision making was outside the scope of the project, however he significance of this research will hopefully go beyond the realm of science due to its potential use in predictions of the future of glacier ecosystems. The model outputs may be potentially important and useful for residents of glaciated areas and for local policy makers.