Biblio

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2019
Lee, C.M., et al. A Framework for the Development, Design and Implementation of a Sustained Arctic Ocean Observing System. Frontiers in Marine Science 6, (2019).
Jackson, L.C., et al. The mean state and variability of the North Atlantic circulation: a perspective from ocean reanalyses. Journal of Geophysical Research: Oceans (2019).doi:10.1029/2019JC015210
Heinze, C., et al. ESD Reviews: Climate feedbacks in the Earth system and prospects for their evaluation. 10, (2019).
Lee, C.M., et al. A framework for the development, design and implementation of a sustained Arctic ocean observing system. 6:451, (2019). Abstract
Lee, C.M., et al. A Framework for the Development, Design and Implementation of a Sustained Arctic Ocean Observing System. Frontiers in Marine Science (2019).
Penny, S.G., et al. Observational needs for improving ocean and coupled reanalysis, S2S Prediction, and decadal prediction. Frontiers in Marine Science 6:391, (2019).
Smith, G.C., et al. Polar Ocean Observations: A critical gap in the observing system and its effect on environmental predictions from hours to a season. Frontiers in Marine Science (2019).doi:10.3389/fmars.2019.00429
Jackson, L.C., et al. TheMean State and Variability of the North Atlantic Circulation: A Perspective From Ocean Reanalyses. Journal of Geophysical Research (JGR): Oceans (2019).doi:10.1029/2019JC015210
Vihma, T., et al. Towards an advanced observation system for the marine Arctic in the framework of the Pan-Eurasian Experiment (PEEX). Atmospheric Chemistry and Physics 19, (2019).
2018
Uotila, P., et al. An assessment of ten ocean reanalyses in the polar regions. Climate Dynamics (2018).doi:10.1007/s00382-018-4242-z
Cazenave, A., et al. Global sea-level budget 1993–present. Earth System Science Data 10, (2018).
Shepherd, A., et al. Mass balance of the Antarctic Ice Sheet from 1992 to 2017. Nature 558, (2018).
Shepherd, A., et al. Mass balance of the Antarctic Ice Sheet from 1992 to 2017. Nature 558, (2018).
Nakanowatari, T., et al. Medium-range predictability of early summer sea ice thickness distribution in the East Siberian Sea based on the TOPAZ4 ice–ocean data assimilation system. The Cryosphere 12, (2018).
Langehaug, H.R., Sandø, A.B., Årthun, M. & Ilicak, M. Variability along the Atlantic water pathway in the forced Norwegian Earth System Model. Climate Dynamics (2018).doi:10.1007/s00382-018-4184-5
2017
Koseki, S., et al. Causes of the large warm bias in the Angola–Benguela Frontal Zone in the Norwegian Earth System Model. Climate Dynamics (2017).doi:10.1007/s00382-017-3896-2
Thorne, P., et al. Making better sense of the mosaic of environmental measurement networks: a system-of-systems approach and quantitative assessment. Geoscientific Instrumentation, Methods and Data Systems 6, (2017).
Pedersen, L.T., et al. Sea Ice Observations. (2017).at <https://www.cambridge.org/core/books/sea-ice-analysis-and-forecasting/B74BD33160B03EE1FA77CC9BB80E7DA7>
2016
Kern, S., et al. The impact of melt ponds on summertime microwave brightness temperatures and sea ice concentrations. The Cryosphere Discussions (2016).doi:10.5194/tc-2015-202
Yde, J.C., et al. The Arctic in the 21st century: Changing biogeochemical linkages across a paraglacial landscape of Greenland. BioScience (2016).doi:10.1093/biosci/biw158
Ivanova, N., Rampal, P. & Bouillon, S. Error assessment of satellite-derived lead fraction in the Arctic. The Cryosphere 10, (2016).
Kern, S., et al. The impact of melt ponds on summertime microwave brightness temperatures and sea-ice concentrations. The Cryosphere 10, (2016).
Ivanova, D., Gleckler, P.J., Taylor, K.E., Durack, P.J. & Marvel, K.D. Moving beyond the total sea ice extent in gauging model biases. Journal of Climate 29, (2016).
Lee, Y.J., et al. Net primary productivity estimates and environmental variables in the Arctic Ocean: An assessment of coupled physical-biogeochemical models. Journal of Geophysical Research (JGR): Oceans 121, (2016).
2015
Ivanova, N., et al. Inter-comparison and evaluation of sea ice algorithms: towards further identification of challenges and optimal approach using passive microwave observations. The Cryosphere 9, (2015).
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Nansen Environmental and Remote Sensing Center
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Nansen-Bangladesh International Centre for Coastal, Ocean and Climate Studies
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Nansen International Environmental and Remote Sensing Center
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Nansen Environmental Research Center – India
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Nansen–Zhu International Research Centre
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Nansen-Tutu Centre for Marine Environmental Research