• T. M. Burgers, L. A. Miller, S. Rysgaard, J. Mortensen, B. Else, J.-É. Tremblay, and T. Papakyriakou, 2023. Journal of Geophysical Research-Oceans 128(3): e2022JC019393, doi: 10.1029/2022JC019393. Distinguishing physical and biological controls on the carbon dynamics in a high-Arctic outlet strait.

• F. Bruyant, R. Amiraux... L.A. Miller... M. Babin, 2022. Earth System Science Data 14:4607-42, doi: 10.5194/essd-14-4607-2022. The Green Edge cruise: investigating the marginal ice zone processes during late spring and early summer to understand the fate of the Arctic phytoplankton bloom.

• S. Zeidan, J. Walker, B.G.T. Else, L. Miller, K. Azetsu-Scott, and B.D. Walker, 2022. Frontiers in Marine Science 9: 845536, doi: 103389/fmars.2022.845536. Using radiocarbon measurements of dissolved inorganic carbon to determine a revised residence time for deep Baffin Bay.

• L.A. Ladino, J. Juaréz-Pérez, Z. Ramirez-Diaz, L.A. Miller, J. Herrera, G.B. Raga, K.G. Simpson, G. Cruz, D.L. Pereira, and F. Córdoba, 2022. Atmósfera 35(1): 127-41, doi: 10.20937/ATM.52938. The UNAM-Droplet Freezing Assay: An Evaluation of the Ice Nucleating Capacity of the Sea-Surface Microlayer and Surface Mixed Layer in Tropical and Subpolar Waters.

• L.A. Miller, F. Domine, M.M. Frey, and D. Trombotto Liaudat, 2021. In: P.B. Shepson and F. Domine, eds., Advances in Atmospheric Chemistry, Volume 3: Chemistry in the Cryosphere, Part 2, World Scientific, New Jersey, pp. 831-65, doi: 10.1142/9789811230134_0017. The Future? Big Questions about Feedbacks between Anthropogenic Change in the Cryosphere and Atmospheric Chemistry. Invited Review.

• N.S. Steiner, J. Bowman, K. Campbell, M. Chierici, E. Eronen-Rasimus, M. Falardeau, H. Flores, A. Fransson, H. Herr, S.J. Insley, H.M. Kauko, D. Lannuzel, L. Loseto, A. Lynnes, A. Majewski, K.M. Meiners, L.A. Miller, L.N. Michel, S. Moreau, M. Nacke, D. Nomura, L. Tedesco, J.A. van Franeker, M.A. van Leeuwe, P. Wongpan, 2021. Elem. Sci. Anth. 9(1): 00007, doi: 10.1525/elementa.2021.00007. Climate change impacts on sea-ice ecosystems and associated ecosystem services.

• A.C. Franco, D. Ianson, T. Ross, R.C. Hamme, A.H. Monahan, J.R. Christian, M. Davelaar, W.K. Johnson, L.A. Miller, M. Robert, P.D. Tortell, 2021. Global Biogeochemical Cycles 35, e2020GB006829, doi: 10.1029/2020GB006829. Anthropogenic and climatic contributions to observed carbon system trends in the Northeast Pacific.

• M.M.M. Ahmed, B.G.T. Else, B. Butterworth, D.W. Capelle, C. Guéguen, L.A. Miller, C. Meilleur, T. Papakyriakou, 2021. Elem. Sci. Anth. 9(1): 00130. doi: 10.1525/elementa.2020.00130. Widespread surface water pCO2 undersaturation during ice-melt season in an Arctic continental shelf sea (Hudson Bay, Canada).

• P. J. Duke, B. G. T. Else, S. F. Jones, S. Marriot, M. M. M. Ahmed, V. Nandan, B. Butterworth, S.F. Gonski, R. Dewey, A. Sastri, L. A. Miller, K. G. Simpson, H. Thomas, 2021. Elem. Sci. Anth. 9(1): 00103. doi: 10.1525/elementa.2021.00103. Seasonal Marine Carbon System Processes in an Arctic Coastal Landfast Sea Ice Environment Observed with an Innovative Underwater Sensor Platform.

• M.M.M. Ahmed, B.G.T. Else, D. Capelle, L.A. Miller, and T. Papakyriakou, 2020. Elem. Sci. Anth. 8(1):084. doi: 10.1525/elementa.084. Underestimation of surface pCO2 and air-sea CO2 fluxes due to freshwater stratification in an Arctic shelf sea, Hudson Bay.

• D. Lannuzel, L. Tedesco, M. van Leeuwe, K. Campbell, H. Flores, B. Delille, L. Miller, J. Stefels, P. Assmy, J. Bowman, K. Brown, G. Castellani, M. Chierici, O. Crabeck, E. Damm, B. Else, A. Fransson, F. Fripiat, N.-X. Geilfus, C. Jacques, E. Jones, H. Kaartokallio, M. Kotovitch, K. Meiners, S. Moreau, D. Nomura, I. Peeken, J.-M. Rintala, N. Steiner, J.-L. Tison, M. Vancoppenolle, F. Van der Linden, M. Vichi, and P. Wongpan, 2020. Nature Climate Change, doi: 10.1038/s41558-020-00940-4. The future of Arctic sea-ice biogeochemistry and ice-associated ecosystems.

• D.W. Capelle, Z.Z.A. Kuzyk, T. Papakyriakou, C. Guéguen, L.A. Miller, and R.W. Macdonald, 2020. Progress in Oceanography 185: 102319, doi: 10.1016/j.pocean.2020.102319. Effect of terrestrial organic matter on ocean acidification and CO2 flux in an Arctic Shelf Sea.

• A.R. Sastri, J.R. Christian, E.P. Achterberg, D. Atamanchuk, J.J.H. Buck, P. Bresnahan, P.J. Duke, W. Evans, S.F. Gonski, B. Johnson, S.K. Juniper, S. Mihaly, L.A. Miller, M. Morley, D. Murphy, S. Nakaoka, T. Ono, G. Parker, K. Simpson, and T. Tsunoda, 2019. Frontiers in Marine Science 6:653, doi: 10.3389/fmars.2019.00653. Perspectives on in situ sensors for ocean acidification research.

• V.E. Irish, S. Hanna, Y. Xi, M. Boyer, E. Polishchuk, J. Chen, J. P.D. Abbatt, M. Gosselin, R. Chang, L. Miller, A.K. Bertram, 2019. Atmos. Chem. Phys. 19: 7775-87, doi: 10.5194/acp-19-7775-2019.Revisiting properties and concentrations of ice-nucleating particles in the sea surface microlayer and bulk seawater in the Canadian Arctic during summer.

• J.P.D. Abbatt, W.R. Leaitch... L.A. Miller... J.D. Yakobi-Hancock, 2019. Atmos. Chem. Phys. 19: 2527–2560, doi: 10.5194/acp-19-2527-2019. New insights into aerosol and climate in the Arctic.

• L.A. Miller, T. Burgers, W.J. Burt, M.A. Granskog, and T.N. Papakyriakou, 2019. Geophys. Res. Lett. 46: 235-43, doi: 10.1029/2018GL080099. Air-Sea CO2 Flux Estimates in Stratified Arctic Coastal Waters: How Wrong Can We Be?

• D. König, L.A. Miller, K.G. Simpson, S. Vagle, 2018. Front. Earth Sci. 6: 234, doi: 10.3389/feart.2018.00234. Carbon dynamics during the formation of sea ice at different growth rates.

• G. Neukermans, T. Harmel, M. Galí, N. Rudorff, J. Chowdhary, O. Dubovik, C. Hostetler, Y. Hu, C. Jamet, K. Knobelspiesse, Y. Lehahn, P. Litvinov, A.M. Sayer, B. Ward, E. Boss, I. Koren, and L.A. Miller, 2018. Elem. Sci. Anth. 6: 71. doi: 10.1525/elementa.331. Harnessing remote sensing to address critical science questions on ocean-atmosphere interactions.

• E. Mortenson, N. Steiner, A.H. Monahan, L.A. Miller, N.X. Geilfus, and K. Brown, 2018. J. Geophys. Res. Oceans 123: 7259-49. doi: 10.1029/2018JC014376. A model-based analysis of physical and biogeochemical controls on carbon exchange in the upper water column, sea ice, and atmosphere in a seasonally ice-covered Arctic strait.

• N.-X. Geilfus, M. L. Pind, B. G. T. Else, R. J. Galley, L. A. Miller, H. Thomas, M. Gosselin, S. Rysgaard, F. Wang, and T.N. Papakyriakou, 2018. Cont. Shelf. Res. 156: 1-10, doi: 10.1016/j.csr.2018.01.006. Spatial and temporal variability of seawater pCO2 within the Canadian Arctic Archipelago and Baffin Bay during the summer and autumn 2011.

• T.M. Burgers, L.A. Miller, H. Thomas, B.G.T. Else, M. Gosselin, and T. Papakyriakou, 2017. J. Geophys. Res. Oceans 122: 9663-78, doi: 10.1002/2017JC013250. Surface water pCO2 variations and sea-air CO2 fluxes during summer in the eastern Canadian Arctic.

• V.E. Irish, P. Elizondo, J. Chen, C. Chou, J. Charette, M. Lizotte, L.A. Ladino, T.W. Wilson, M. Gosselin, B.J. Murray, E. Polishchuk, J.P.D. Abbatt, L.A. Miller, A.K. Bertram, 2017. Atmos. Chem. Phys. 17: 10,583–95, doi: 10.5194/acp-17-10583-2017. Ice nucleating particles in Canadian Arctic sea-surface microlayer and bulk seawater.

• E.L. Mungall, J.P.D. Abbatt, J.J.B. Wentzell, A.K.Y. Lee, J.L. Thomas, M. Blaise, M. Gosselin, L.A. Miller, T. Papakyriakou, M.D. Willis, and J. Liggio, 2017. Proc. Natl. Acad. Sci. USA. 114(24): 6203-8, doi: 10.1073/pnas.1620571114. Microlayer source of oxygenated volatile organic compounds in the summertime marine Arctic boundary layer.

• R. Hussherr, M. Levasseur, M. Lizotte, J.-É. Tremblay, J. Mol, H. Thomas, M. Gosselin, M. Starr, L.A. Miller, T. Jarniková, N. Schuback, and A. Mucci, 2017. Biogeosciences 14: 2407-27, doi:10.5194/bg-14-2407-2017. Impact of ocean acidification on Arctic phytoplankton blooms and dimethyl sulfide production under simulated ice-free and under-ice conditions.

• W.J. Burt, H. Thomas, L.A. Miller, M.A. Granskog, T.N. Papakyriakou, and L. Pengelly, 2016. Biogeosciences, 13: 4659-71, doi: 10.5194/bg-13-4659-2016. Inorganic carbon cycling and biogeochemical processes in an Arctic inland sea (Hudson Bay).

• L.A. Ladino, J.D Yakobi-Hancock, W.P. Kilthau, R.H. Mason, M. Si, J. Li, L.A. Miller, C.L Schiller, J.A. Huffman, J.Y. Aller, D.A. Knopf, A.K. Bertram, and J.P.D. Abbatt, 2016. Atmos. Env. 132: 1-10, doi: 10.1016/j.atmosenv.2016.02.028. Addressing the ice nucleating abilitites of marine aerosol: A combination of deposition mode laboratory and field measurements.

• N. Steiner, C. Deal, D. Lannuzel, D. Lavoie, F. Massonnet, L.A. Miller, S. Moreau, E. Popova, J. Stefels, and L. Tedesco, 2016. Elem. Sci. Anth. 4: 000084, doi: 10.12952/jounal.elementa.000084. What sea-ice biogeochemical modellers need from observers.

• H.S. Findlay, L.A .Edwards, C.N. Lewis, G.A. Cooper, R. Clement, N. Hardman-Mountford, S. Vagle, and L.A. Miller, 2015. Polar Res. 34: 24170, doi: 10.3402/polar.v34.24170. Late winter biogeochemical conditions under sea ice in the Canadian High Arctic.

• C. Schallenberg, A.B. Davidson, K.G. Simpson, L.A. Miller, and J.T. Cullen, 2015. Mar. Chem. 177: 33-44. Iron(II) variability in the northeast subarctic Pacific Ocean.

• T.W. Wilson, L.A. Ladino, P.A. Alpert, M.N. Breckels, I.M. Brooks,  J. Browse, S.M. Burrows, K.S. Carslaw, J.A. Huffman, C. Judd, W.P. Kilthau, R.H. Mason, G. McFiggans, L.A Miller, J.J. Najera, E. Polishchuk, S. Rae, C.L. Schiller, M. Si , J. Vergara Temprado, T.F. Whale, J.P.S. Wong, O. Wurl, J.D. Yakobi-Hancock, J.P.D. Abbatt, J.Y. Aller, A.K. Bertram, D.A. Knopf, and B.J. Murray, 2015. Nature 525: 234-8. A marine biogenic source of atmospheric ice nucleating particles.

• K.A. Brown, L.A. Miller, C.J. Mundy, T. Papakyriakou, R. Francois, M. Gosselin, G. Carnat, K. Swystun, and P.D. Tortell, 2015. J. Geophys. Res. Oceans 120, doi: 10.1002/2014JC010620. Inorganic carbon system dynamics in landfast arctic sea ice during the early-melt period.

• L.A. Miller, F. Fripiat, B.G.T. Else, J.S. Bowman, K.A. Brown, R.E. Collins, M. Ewert, A. Fransson, M. Gosselin, D. Lannuzel, K.M. Meiners, C. Michel, J. Nishioka, D. Nomura, S. Papadimitriou, L.M. Russell, L.L. Sørensen, D.N. Thomass, J.-L. Tison, M.A. van Leeuwe, M. Vancoppenolle, E.W. Wolff, and J. Zhou, 2015. Elementa Sci. Anth. 3: 000038, doi: 10.12952/journal.elementa.000038. Methods for Biogeochemical Studies of Sea Ice: The state of the art, caveats, and recommendations.

• N.-X.Geilfus, J.-L. Tison, S.F. Ackley, R.J. Galley, S. Rysgaard, L.A. Miller, and B.Delille, 2014. The Cryosphere 8: 2395-407. Sea ice pCO2 dynamics and air–ice CO2 fluxes during the Sea Ice Mass Balance in the Antarctic (SIMBA) experiment – Bellingshausen Sea, Antarctica.

• L.A. Miller, R.W. Macdonald, A. Mucci, M. Yamamoto-Kawai, K.E. Giesbrecht, F. McLaughlin, and W.J. Williams, 2014. Polar Res 33: 20577, doi: 10.3402/polar.v33.20577. Changes in the marine carbonate system of the western Arctic: Patterns in a rescued data set.

• K.A. Brown, L.A. Miller, M, Davelaar, R. Francois, and P.D. Tortell, 2014. Mar. Chem. 165: 36-45, doi: 10.1016/j.marchem.2014.07.005. Over-determination of the carbonate system in natural sea-ice brine and assessment of carbonic acid dissociation constants under low temperature, high salinity conditions.

• Y. Luo, L.A. Miller, B. De Baere, M. Soon, and R. Francois, 2014. Mar. Chem. 162: 19-29, doi: 10.1016/j.marchem.2014.03.001. POC fluxes measured by sediment traps and234Th:238U disequilibrium in Saanich Inlet, British Columbia.

• K.E. Giesbrecht, L.A. Miller, M. Davelaar, S. Zimmermann, E. Carmack, W.K. Johnson, R.W. Macdonald, F. McLaughlin, A. Mucci, W.J. Williams, C.S. Wong, and M. Yamamoto-Kawai, 2014. Earth Sys. Sci. Data 6: 91-104, doi:10.5194/essd-6-91-2014. Measurements of the dissolved inorganic carbon system and associated biogeochemical parameters in the Canadian Arctic, 1974-2009.

• S. Zhou, L. Gonzalez, A. Leithead, Z. Finewax, R. Thalman, A. Vlasenko, S. Vagle, L. Miller, S.-M. Li, S. Bureekul, H. Furutani, M. Uematsu, R. Volkamer, and J. Abbatt, 2014. Atmos. Chem. Phys 14: 1371-84, doi: 10.5194/acp-14-1371-2014. Formation of gas-phase carbonyls from heterogeneous oxidation of polyunsaturated fatty acids at the air-water interface and of the sea surface microlayer.

• A. Fransson, M. Chierici, L.A. Miller, G. Carnat, E. Shadwick, H. Thomas, S. Pineault, and T.N. Papakyriakou, 2013. J. Geophys. Res. Oceans 118: 7001-23, doi: 10.1002/2013JC009164. Impact of sea-ice processes on the carbonate system and ocean acidification at the ice-water interface of the Amundsen Gulf, Arctic Ocean.

• B.G.T. Else, T.N. Papakyriakou, M.G. Asplin, D.G. Barber, R.J. Galley, L.A. Miller, and A. Mucci, 2013. Global Biogeochem. Cycles 27: 388-98, doi: 10.1002/gbc.20016. Annual cycle of air-sea CO2 exchange in an Arctic polynya region.

• B.G.T. Else, R.J. Galley, B. Lansard, D.G. Barber, K. Brown, L.A. Miller, A. Mucci, T.N. Papakyriakou, J.-É. Tremblay, and S. Rysgaard, 2013. Geophys. Res. Lett. 40:1123-7, doi:10.1002/grl.50268. Further observations of a decreasing atmospheric CO2 uptake capacity in the Canada Basin (Arctic Ocean) due to sea ice loss.

• K. Maiti, K.O. Buesseler, S.M. Pike, C. Benitez-Nelson, P. Cai, W. Chen, K. Cochran, M. Dai, F. Dehairs, B. Gasser, R.P. Kelly, P. Masque, L.A. Miller, J.C. Miquel, S.B. Moran, P.J. Morris, F. Peine, F. Planchon, A.A. Renfro, M. Rutgers van der Loeff, P.H. Santschi, R. Turnewitsch, J.T. Waples, C. Xu, 2012. Limnol. Oceanogr. Methods 10: 631-644. Intercalibration studies of short-lived thorium-234 in the water column and marine particles.

• B.G.T. Else, R.J. Galley, T.N. Papakyriakou, L.A. Miller, A. Mucci, D. Barber, 2012. J. Geophys. Res. 117, C09010, doi:10.1029/2012JC007901. Sea Surface pCO2 cycles and CO2 fluxes at landfast sea ice edges in Amundsen Gulf, Canada.

• R.A. Feely, C.L. Sabine, R. H. Byrne, F. J. Millero, A. G. Dickson, R. Wanninkhof, A. Murata, L.A. Miller, and D. Greeley, 2012. Global. Biogeochem. Cycles 26, GB3001, doi:10.1029/2011GB004157. Decadal changes in the aragonite and calcite saturation state of the Pacific Ocean.

• D.G. Barber, M.G. Asplin, T.N. Papakyriakou, L. Miller, B.G.T. Else, J. Iacozza, C.J. Mundy, M. Gosslin, N.C. Asselin, S. Ferguson, J.V. Lukovich, G.A. Stern, A. Gaden, M. Pućko, N.-X. Geilfus, and F. Wang, 2012. Clim. Change 115: 135-59, doi:10.1007/s10584-012-0482-9. Consequences of change and variability in sea ice on marine ecosystem and biogeochemical processes during the 2007–2008 Canadian International Polar Year program.

• B.G.T. Else, T.N. Papakyriakou, R.J. Galley, A. Mucci, M. Gosselin, L.A. Miller, E.H. Shadwick, H. Thomas, 2012. J. Geophys. Res 117, C00G13, doi:10.1029/2011JC007346. Annual Cycles of pCO2sw in the southeastern Beaufort Sea: New understandings of air-sea CO2 exchange in Arctic polynyas.

• B. Lansard, A. Mucci, L. A. Miller, R. W. Macdonald, and Y. Gratton, 2012. J. Geophys. Res.117, C03003, doi:10.1029/2011JC007299. Seasonal variability of water mass distribution in the southeastern Beaufort Sea determined by total alkalinity and δ18O.

• M. Chierici, A. Fransson, B. Lansard, L. A. Miller, A. Mucci, E. Shadwick, H. Thomas, J.-E. Tremblay, and T.N. Papakyriakou, 2011. J. Geophys. Res. 116, C00G09, doi:10.1029/2011JC007184. The impact of biogeochemical processes and environmental factors on the calcium carbonate saturation state in the Circumpolar Flaw Lead in the Amundsen Gulf, Arctic Ocean.

• O. Wurl, L. Miller, and S. Vagle, 2011. J. Geophys. Res. 116, C00H13, doi:10.1029/2011JC007342. Production and fate of transparent exopolymer particles in the ocean.

• H. Thomas, E. Shadwick, F. Dehairs, B. Lansard, A. Mucci, J. Navez, Y. Gratton, F. Prowe, M. Chierici, A. Fransson, T.N. Papakyriakou, E. Sternberg, L.A. Miller, J.-É. Tremblay, and C. Monnin, 2011. J. Geophys. Res. 116, C00G08, doi:10.1029/2011JC007120. Barium and carbon fluxes in the Canadian Arctic Archipelago.

• B. Loose, L. Miller, S. Elliott, and T. Papakyriakou, 2011. Oceanography 24(3): 202-18. Sea ice biogeochemistry and material transport across the frozen interface.

• L.A. Miller, G. Carnat, B.G.T. Else, N. Sutherland, and T.N. Papakyriakou, 2011. J. Geophys. Res., 116, C00G04, doi: 10.1029/2011JC007143. Carbonate system evolution at the Arctic Ocean surface during autumn freeze-up.

• B.G.T. Else, T.N. Papakyriakou, R.J. Galley, W.M. Drennan, L.A. Miller, and H. Thomas, 2011. J. Geophys. Res. 116, C00G03, doi:10.1029/2010JC006760. Wintertime CO2 fluxes in an arctic polynya using eddy covariance: Evidence for enhanced air-sea gas transfer during ice formation.

• L.W. Juranek, R.A. Feely, D. Gilbert, H. Freeland, and L. Miller, 2011. Geophys. Res. Lett.38, L17603, doi:10.1029/2011GL048580. Real-time estimation of pH and aragonite saturation state from Argo profiling floats: Prospects for an autonomous carbon observing strategy.

• T. Papakyriakou and L. Miller, 2011. Ann. Glaciol. 52(57): 215-24. Springtime CO2 exchange over seasonal sea ice in the Canadian Arctic Archipelago.

• L.A. Miller, T.N. Papakyriakou, R.E. Collins, J.W. Deming, J.K. Ehn, R.W. Macdonald, A. Mucci, O. Owens, M. Raudsepp, and N. Sutherland, 2011. J. Geophys. Res. 116, C02028,doi: 10.1029/2009JC006058. Carbon dynamics in sea ice: A winter flux time series.

• O. Wurl, E. Wurl, L. Miller, K. Johnson, S. Vagle, 2011. Biogeosci. 8: 121-35. Formation and global distribution of sea-surface microlayers.

• E.H. Shadwick, H. Thomas, M. Chierici, B. Else, A. Fransson, C. Michel, L.A. Miller, A. Mucci, A. Niemi, T.N. Papakyriakou, and J.-É. Tremblay, 2011. Limnol. Oceanogr. 56(1): 303–22. Seasonal variability of the inorganic carbon system in the Amundsen Gulf region of the southeastern Beaufort Sea.

• A. Mucci, B. Lansard, L.A. Miller, and T.N. Papakyriakou, 2010. J. Geophys. Res. 115, C04003, doi: 10.1029/2009JC005330. CO2 fluxes across the air-sea interface in the southeastern Beaufort Sea: Ice-free period.

• R.W. Macdonald, L.G. Anderson, J.P. Christensen, L.A. Miller, I.P. Semiletov, and R. Stein, 2010. In: Carbon and Nutrient Fluxes in Continental Margins: A Global Synthesis (K.-K. Liu, L. Atkinson, R. Quiñones, and L. Talaue-McManus, eds.), Springer, Heidelberg, Ch. 6.2, pp. 291-303. The Arctic Ocean.

• O. Wurl, L. Miller, R. Röttgers, and S. Vagle, 2009. Mar. Chem. 115: 1-9. The distribution and fate of surface-active substances in the sea-surface microlayer and water column.

• S. Brugel, C. Nozais, M. Poulin, J.-E. Tremblay, L. Miller, K.G. Simpson, Y. Gratton, S. Demers, 2009. Mar. Ecol. Prog. Ser. 377:63-77. Phytoplankton biomass and production in the southeastern Beaufort Sea in autumn 2002 and 2003.

• J.-É. Tremblay, K. Simpson, J. Martin, L. Miller, Y. Gratton, D. Barber, and N.M. Price, 2008.J. Geophys. Res. 113, C07S90, doi:10.1029/2007JC004547. Vertical stability and the annual dynamics of nutrients and chlorophyll fluorescence in the coastal, southeast Beaufort Sea.

• L.A. Miller and G.R. DiTullio, 2007. In: Polynyas: Windows to the World, (W.O. Smith Jr. and D.G. Barber, eds.), Elsevier Oceanography Series, Elsevier, Amsterdam, pp. 163-91. Gas Fluxes and Dynamics in Polynyas.

• L.E. Wells, M. Cordray, S. Bowerman, L. Miller, W. Vincent, and J.W. Deming, 2006.Limnology and Oceanography 51(1): 47-59. Archaea in particle-rich waters of the Beaufort Shelf and Franklin Bay, Canadian Arctic: Clues to an allochthonous origin?.

• Z.-P.Mei,  L. Legendre, J.- É. Tremblay, L.A. Miller, Y. Gratton, C. Lovejoy, P.L. Yager, and M. Gosselin, 2005. Deep-Sea Research I 52: 2301-14. Carbon to nitrogen (C:N) stoichiometry of the spring-summer phytoplankton bloom in the North Water polynya (NOW).

• W.K. Johnson, L.A. Miller, N.E. Sutherland, and C.S. Wong, 2005. Deep-Sea Research II 52: 933-53. Iron transport by mesoscale Haida Eddies in the Gulf of Alaska.

• M. Chierici, L.A. Miller, F.A. Whitney, W.K. Johnson, and C.S Wong, 2005. Deep-Sea Research II 52: 955-74. Biogeochemical evolution of the carbon dioxide system in the waters of long-lived mesoscale eddies in the Northeast Pacific Ocean.

• L.A. Miller and I. Sværen, 2003. Journal of Radioanalytical and Nuclear Chemistry 256: 431-44. 234Th distributions in coastal and open ocean waters by non-destructive β-counting.

• L.A. Miller, P.L. Yager, K.A. Erickson, D. Amiel, J. Bâcle, J.K. Cochran, M.-È. Garneau, M. Gosselin, D.J. Hirschberg, B. Klein, B. LeBlanc, and W.L. Miller, 2002. Deep-Sea Research II 49: 5151-70. Carbon distributions and fluxes in the North Water, northern Baffin Bay, 1998 and 1999.

• T.T. Noji, L.A. Miller, I. Skjelvan, E. Falck, K.Y. Børsheim, F. Rey, J. Urban-Rich, and T. Johannessen, 2001. In: The Northern North Atlantic: A Changing Environment (P. Schäfer, W. Ritzrau, M. Schlüter, and J. Thiede, eds.) Springer, Berlin, pp. 39–52. Constraints on Carbon Drawdown and Export in the Greenland Sea.

• F. Rey, T.T. Noji, and L.A. Miller, 2000. Sarsia 85: 329-44. Seasonal phytoplankton development and new production in the central Greenland Sea.

• L.A. Miller, M. Chierici, T. Johannessen, T.T. Noji, F. Rey, and I. Skjelvan, 1999. Deep-Sea Research II 46: 1473-96. Seasonal dissolved inorganic carbon variations in the Greenland Sea and implications for atmospheric CO2 exchange.

• T.T. Noji, F. Rey, L.A. Miller, K.Y. Børsheim, and J. Urban-Rich, 1999. Deep-Sea Research II46: 1497-510. Fate of biogenic carbon in the upper 200 m of the central Greenland Sea.

• I. Skjelvan, T. Johannessen, and L.A. Miller, 1999. Tellus 51B: 477-489. Interannual variability of fCO2 in the Greenland and Norwegian Seas.

• L.A. Miller and K.W. Bruland, 1997. Analytica Chimica Acta. 343: 161-81. Competitive equilibration techniques for determining transition metal speciation in natural waters: Evaluation using model data.

• L.A. Miller and K.W. Bruland, 1995. Environmental Science and Technology 29: 2616-21. Organic speciation of silver in marine waters.

• L.A. Miller and K.W. Bruland, 1994. Analytica Chimica Acta 284: 573-86. Determination of copper speciation in marine waters by competitive ligand equilibration/solvent extraction: An evaluation of the technique.

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• Special issues edited:

• A.P. Worby, C. Fritsen, C. Geiger, P. Heil, K. Meiners, and L. Miller, eds., 2011. Antarctic Sea Ice Research during the International Polar Year 2007-2009. Deep-Sea Research II 58(9-10).

• L.A. Miller and W.R. Crawford, eds., 2005. Haida Eddies: Mesoscale Transport in the Northeast Pacific, Deep-Sea Research II 52(7-8).

• P. Wadhams, J.C. Gascard, and L. Miller, eds., 1999. Sea ice - ocean interactions, deep convection, and carbon cycling in the Greenland Sea, Deep-Sea Research II 46(6-7).