Brent Lofgren

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All GLERL Publications:
Note: Although not all publications are available via our website, electronic copies may be available. Contact the publications office at pubs.glerl@noaa.gov.
  • MANOME, A.F., L.E. FITZPATRICK, A.D. GRONEWOLD, E.J. ANDERSON, B.M. LOFGREN, C. Spence, J. Chen, C. Shao, D.M. Wright, and C. XIAO. Turbulent Heat Fluxes during an Extreme Lake Effect Snow Event. Journal of Hydrometeorology (DOI:10.1175/JHM-D-17-0062.1) (2017). https://www.glerl.noaa.gov/pubs/fulltext/2017/20170031.pdf (IN PRESS)
  • Collingsworth, P.D., D.B. Bunnell, M.W. Murray, Y.C. Kao, Z.S. Feiner, R.M. Claramunt, B.M. LOFGREN, T.O. Hook, and S.A. Ludsin. Climate change as a long-term stressor for the fisheries of the Laurentian Great Lakes of North America. Reviews in Fish Biology and Fisheries:1-29 (DOI:10.1007/s11160-017-9480-3) (2017). https://www.glerl.noaa.gov/pubs/fulltext/2017/20170016.pdf
  • LOFGREN, B.M. Comment on Hicham Bahi, et al. Effects of Urbanization and Seasonal Cycle on the Surface Urban Heat Island Patterns in the Coastal Growing Cities: A Case Study of Casablanca, Morocco. Remote Sens. 2016, 8, 829. Remote Sensing 9(1):91 (DOI:10.3390/rs9010091) (2017). https://www.glerl.noaa.gov/pubs/fulltext/2017/20170005.pdf
  • XIAO, C., B.M. LOFGREN, J. WANG, and P.Y. CHU. Improving the lake scheme within a coupled WRF-lake model in the Laurentian Great Lakes. Journal of Advances in Modeling Earth Systems (DOI:10.1002/2016MS000717) (2016). https://www.glerl.noaa.gov/pubs/fulltext/2016/20160060.pdf
  • LOFGREN, B.M., and J. Rouhana. Physically plausible methods for projecting changes in Great Lakes water levels under climate change scenarios. Journal of Hydrometeorology 17:2209-2223 (DOI:10.1175/JHM-D-15-0220.1) (2016). https://www.glerl.noaa.gov/pubs/fulltext/2016/20160017.pdf
  • XIAO, C., Y. Zhang, B.M. LOFGREN, and Y. Nie. The concurrent variability of East Asian subtropical and polar-front jets and its implication for the winter climate anomaly in China. Journal of Geophysical Research: Atmosphere 121(12):6787-6801 (DOI:10.1002/2016JD025038) (2016). https://www.glerl.noaa.gov/pubs/fulltext/2016/20160046.pdf
  • BAI, X., J. WANG, J. Austin, D.J. SCHWAB, R.A. ASSEL, A.H. CLITES, J.F. BRATTON, M.C. COLTON, J. Lenters, B.M. LOFGREN, T. Wohlleben, S. Helfrich, H.A. VANDERPLOEG, L. LUO, and G.A. LESHKEVICH. A record-breaking low ice cover over the Great Lakes during winter 2011/2012: Combined effects of a strong positive NAO and La Nina. Climate Dynamics 44(5-6):1187-1213 (DOI:10.1007/s00382-014-2225-2) (2015).
  • GRONEWOLD, A.D., E.J. ANDERSON, B.M. LOFGREN, P.D. Blanken, J. WANG, J.P. SMITH, T.S. HUNTER, G.A. LANG, C.A. STOW, D. BELETSKY, and J.F. BRATTON. Impacts of extreme 2013-2014 winter conditions on Lake Michigan's fall heat content, surface temperature, and evaporation. Geophysical Research Letters 42:7 pp. (DOI:10.1002/2015GL063799) (2015).
  • Kao, Y.C., C.P. Madenjian, D.B. Bunnell, B.M. LOFGREN, and M. PERROUD. Temperature effects induced by climate change on the growth and consumption by salmonines in Lakes Michigan and Huron. Environmental Biology of Fishes 98:1089-1104 (DOI:10.1007/s10641-014-0352-6) (2015). https://www.glerl.noaa.gov/pubs/fulltext/2014/20140059.pdf
  • Kao, Y.C., C.P. Madenjian, D.B. Bunnell, B.M. LOFGREN, and M. PERROUD. Potential effects of climate change on the growth of fishes from different thermal guilds in Lakes Michigan and Huron. Journal of Great Lakes Research 41:423-435 (DOI:10.1016/j.jglr.2015.03.012) (2015).
  • LOFGREN, B.M., and J. Rouhana. Reaffirmation of large biases in a long-used method for projecting changes in Great Lakes water levels. NOAA Technical Memorandum GLERL-167. NOAA, Great Lakes Environmental Research Laboratory, Ann Arbor, MI, 25 pp. (2015). https://www.glerl.noaa.gov/pubs/tech_reports/glerl-167/tm-167.pdf
  • Lynch, A.J., W.W. Taylor, T.D. Beard, and B.M. LOFGREN. Climate change projections for lake whitefish (Coregonus clupeaformis) recruitment in the 1836 Treaty Waters of the upper Great Lakes. Journal of Great Lakes Research 41(2):415-422 (DOI:10.1016/j.jglr.2015.03.015) (2015).
  • Music, B., A. Frigon, B.M. LOFGREN, R. Turcotte, and J.F. Cyr. Present and future Laurentian Great Lakes hydroclimatic conditions as simulated by regional climate models with an emphasis on Lake Michigan-Huron. Climatic Change 130(4):603-618 (DOI:10.1007/s10584-015-1348-8) (2015). https://www.glerl.noaa.gov/pubs/fulltext/2015/20150029.pdf
  • Zhang, L., S. Wang, C. He, K. Shang, L. Meng, X. Li, and B.M. LOFGREN. A new method for instant correction of numerical weather prediction products in China. Science China - Earth Sciences 58(2):231-244 (DOI:10.1007/s11430-014-4957-6) (2015).
  • Gyawali, R., D.W. Watkins, V.W. Griffis, and B.M. LOFGREN. Energy budget considerations for hydro-climatic impact assessment in Great Lakes watersheds. Journal of Great Lakes Research 40(4):940-948 (DOI:10.1016/j.jglr.2014.09.005) (2014).
  • LOFGREN, B.M. Simulation of atmospheric and lake conditions in the Laurentian Great Lakes region using the Coupled Hydrosphere-Atmosphere Research Model (CHARM). NOAA Technical Memorandum GLERL-165. NOAA, Great Lakes Environmental Research Laboratory, Ann Arbor, MI, 23 pp. (2014). https://www.glerl.noaa.gov/pubs/tech_reports/glerl-165/tm-165.pdf
  • BAI, X., J. WANG, J. Austin, D.J. SCHWAB, R.A. ASSEL, A.H. CLITES, J.F. BRATTON, M.C. COLTON, J. Lenters, B.M. LOFGREN, T. Wohlleben, S. Helfrich, H.A. VANDERPLOEG, L. LUO, and G.A. LESHKEVICH. A record-breaking low ice cover over the Great Lakes during winter 2011/2012: Combined effects of a strong positive NAO and La Nina. Climate Dynamics:27 pp. (DOI:10.1007/s00382-014-2225-2) (2014).
  • LOFGREN, B.M., and A.D. GRONEWOLD. Chapter 12: Water resources. In Climate Change in the Midwest: A Synthesis Report for the National Climate Assessment. J.A. Winkler, J.A. Andresen, J.L. Hatfield, D. Bidwell, and D. Brown (Eds.). Island Press, 224-237 pp. (2014). https://www.glerl.noaa.gov/pubs/fulltext/2014/20140033.pdf
  • LOFGREN, B.M., and A.D. GRONEWOLD. Reconciling alternative approaches to projecting hydrologic impacts of climate change. Bulletin of the American Meteorological Society 94(10):ES133-ES135 (DOI:10.1175/BAMS-D-13-00037.1) (2013). https://www.glerl.noaa.gov/pubs/fulltext/2013/20130064.pdf
  • LOFGREN, B.M., A.D. GRONEWOLD, A. ACCIAIOLI, J. Cherry, A.L. Steiner, and D. Watkins. Methodological approaches to projecting the hydrologic impacts of climate change. Earth Interactions 17:19 pp. (DOI:10.1175/2013EI000532.1) (2013).
  • FUJISAKI, A., J. WANG, X. BAI, G. LESHKEVICH, and B. LOFGREN. Model-simulated interannual variability of Lake Erie ice cover, circulation, and thermal structure in response to atmospheric forcing 2003-2013. Journal of Geophysical Research: Oceans 118:19 pp. (2013).
  • GRONEWOLD, A.D., V. Fortin, B.M. LOFGREN, A.H. CLITES, C.A. STOW, and F.H. QUINN. Coasts, water levels, and climate change: A Great Lakes perspective. Climatic Change 120:697-711 (DOI:10.1007/s10584-013-0840-2) (2013). https://www.glerl.noaa.gov/pubs/fulltext/2013/20130021.pdf
  • WANG, J., X. BAI, H. HU, A.H. CLITES, M.C. COLTON, and B.M. LOFGREN. Temporal and spatial variability of Great Lakes ice cover, 1973-2010. Journal of Climate 25(4):1318-1329 (DOI:10.1175/2011JCLI4066.1) (2012). https://journals.ametsoc.org/doi/pdf/10.1175/2011JCLI4066.1
  • LOFGREN, B.M., T.S. HUNTER, and J. Wilbarger. Effects of using air temperature as a proxy for potential evapotranspiration in climate change scenarios of Great Lakes basin hydrology. Journal of Great Lakes Research 37:744-752 (DOI:10.1016/j.jglr.2011.09.006) (2011).
  • Moore, N.J., G. Alagarswamy, B.C. Pijanowski, P.K. Thornton, B.M. LOFGREN, J. Olson, J.A. Andresen, P. Yanda, and J. Qi. East African food security as influenced by future climate change and land use change at local to regional scales. Climatic Change 106:22 pp. (DOI:10.1007/s10584-011-0116-7) (2011). https://www.springerlink.com/content/e117658q5348q564/
  • WANG, J., X. BAI, G.A. LESHKEVICH, M.C. COLTON, A.H. CLITES, and B.M. LOFGREN. Severe ice cover on Great Lakes during winter 2008-2009. EOS Transactions 91(5):41-42 (2010). https://www.glerl.noaa.gov/pubs/fulltext/2010/20100005.pdf
  • Ge, J., J. Qi, and B.M. LOFGREN. Use of vegetation properties from EOS observations for land-climate modeling in East Africa. Journal of Geophysical Research 113(D15101,  doi:10.1029/2007JD009628):15 pp. (2008). https://www.glerl.noaa.gov/pubs/fulltext/2008/20080023.pdf
  • LOFGREN, B.M., and P. Bieniek. Large-scale 700 hPa height patterns associated with cyclone passage and strong winds on Lake Erie. Journal of Great Lakes Research 34:36-53 (2008). https://www.glerl.noaa.gov/pubs/fulltext/2008/20080011.pdf
  • Olson, J.M., G. Alagarswamy, J.A. Andresen, D.J. Campbell, A.Y. Davis, J. Ge, M. Huebner, B.M. LOFGREN, D.P. Lusch, N.J. Moore, B.C. Pijanowski, J. Qi, P.K. Thornton, N.M. Torbick, and J. Wang. Integrating diverse methods to understand climate-land interactions in East Africa. Geoforum 39:898-911 (2008).
  • Schertzer, W.M., R.A. ASSEL, D. BELETSKY, T.E. CROLEY II, B.M. LOFGREN, J.H. SAYLOR, and D.J. SCHWAB. Lake Huron climatology, inter-lake exchange and mean circulation. Aquatic Ecosystem Health and Management 11(2):144-152 (2008).
  • Ge, J., J. Qi, B M. LOFGREN, N. Moore, N. Torbick, and J.M. Olson. Impacts of land use/cover classification accuracy on regional climate simulations. Journal of Geophysical Research 112(D05107, doi:10.1029/2006JD007404):12 (2007). https://www.glerl.noaa.gov/pubs/fulltext/2007/20070003.pdf
  • LOFGREN, B.M. Land surface roughness effects on lake effect precipitation. Journal of Great Lakes Research 32:839-851 (2006). https://www.glerl.noaa.gov/pubs/fulltext/2006/20060045.pdf
  • LOFGREN, B. M. Development of the second-generation Hydrosphere-Atmosphere Research Model (CHARM) for the Laurentian Great Lakes region. Proceedings, 19th Conference on Hydrology, 85th Annual Meeting of the American Meteorological Society, San Diego, CA, January 9-13, 2005. American Meteorological Society, 3 pp. (2005). https://www.glerl.noaa.gov/pubs/fulltext/2005/20050021.pdf
  • LOFGREN, B. M. CLIP: Climate-Land Interaction Project - Investigating human-climate interactions in East Africa. Proceedings, 16th Conference on Climate Variability and Change, 85th Annual Meeting of the American Meteorological Society, San Diego, CA, January 9-13, 2005. 3 pp. (2005). https://www.glerl.noaa.gov/pubs/fulltext/2005/20050020.pdf
  • LOFGREN, B. M. A model for simulation of the climate and hydrology of the Great Lakes basin. Journal of Geophysical Research 109(D18108):20 pp. (2004). https://www.glerl.noaa.gov/pubs/fulltext/2004/20040028.pdf
  • LOFGREN, B. M. Global Warming Effects on Great Lakes Water: More Precipitation but Less Water? Proceedings, 18th Conference on Hydrology, 84th Annual Meeting of the American Meteorological Society, Seattle, WA, January 11-15, 2004. American Meteorological Society, 3 pp. (2004). https://www.glerl.noaa.gov/pubs/fulltext/2004/20040002.pdf
  • Rohli, R. V., S. A. Hsu, B. M. LOFGREN, and M. R. Binkley. Bowen ratio estimates over Lake Erie. Journal of Great Lakes Research 30(2):241-251 (2004). https://www.glerl.noaa.gov/pubs/fulltext/2004/20040043.pdf
  • LOFGREN, B. M. Simulation of possible future effects of Greenhouse Warming on Great Lakes water supply using a regional climate model. Proceedings, 17th Conference on Hydrology, Long Beach, CA, February 8-13, 2003. American Meteorological Society, Boston, MA, 4 pp. (2003). https://www.glerl.noaa.gov/pubs/fulltext/2003/20030009.pdf
  • LOFGREN, B. M. Coupled atmospheric-land-lake climate simulation using a regional model. Verh. Internat. Verein. Limnol. 28:1745-1748 (2002).
  • LOFGREN, B. M., F. H. QUINN, A. H. CLITES, R. A. ASSEL, A. J. Eberhardt, and C. L. Luukkonen. Evaluation of potential impacts on Great Lakes water resources based on climate scenarios of two GCMs. Journal of Great Lakes Research 28(4):537-554 (2002). https://www.glerl.noaa.gov/pubs/fulltext/2002/20020020.pdf
  • BRANDT, S. B., D. M. MASON, M. J. McCORMICK, B. M. LOFGREN, T. S. HUNTER, and J. A. TYLER. Climate change: implications for fish growth performance in the Great Lakes. American Fisheries Society Symposium 32:61-76 (2002).
  • LOFGREN, B. M. Global warming influences on water levels, ice, and chemical and biological cycles in lakes: some examples. American Fisheries Society Symposium 32:15-22 (2002).
  • LOFGREN, B.M. Comment on "Application of the Canadian Regional Climate Model to the Laurentian Great Lakes Region: Implementation of a lake model." Atmosphere-Ocean 39(4):503-506 (2001).
  • LOFGREN, B. M., F. H. QUINN, A. H. CLITES, and R. A. ASSEL. Water resources: Impacts, challenges, and opportunities. In Preparing for Climate Change: The Potential Consequences of Climate Variability and Change, P.J. Sousounis and J.M. Bisanz (eds.), US EPA, Ann Arbor, MI, pp. 29-37 (2000).
  • LOFGREN, B. M., and Y. ZHU. Surface energy fluxes on the Great Lakes based on satellite-observed surface temperatures 1992-1995. Journal of Great Lakes Research 26(3):305-314 (2000). https://www.glerl.noaa.gov/pubs/fulltext/2000/20000011.pdf
  • LOFGREN, B. M. Precipitation, soil, and evaporation validation of the coupled hydrosphere-atmosphere research model. Preprints, 15th Conference on Hydrology, Long Beach, CA, January 9-14, 2000. American Meteorological Society, Boston, MA, pp. 275-278 (2000).
  • Mortsch, L., H. Hengeveld, M. Lister, B. M. LOFGREN, F. H. QUINN, M. Slivitzky, and L. Wenger. Climate change impacts on the hydrology of the Great Lakes-St. Lawrence System. Canadian Water Resources Journal 25(2):153-179 (2000).
  • QUINN, F. H., and B. M. LOFGREN. The influence of potential greenhouse warming on Great Lakes hydrology, water levels, and water management. Preprints, 15th Conference on Hydrology, Long Beach, CA, January 9-14, 2000. American Meteorological Society, Boston, MA, pp. pp. 271-274 (2000).
  • ZHU, Y., and B. M. LOFGREN. Spatially distributed water surface temperature modeling for the Great Lakes. Proceedings, 14th Conference on Hydrology, Dallas, TX, January 10-15, 1999. American Meteorological Society, pp. 431-434 (1999).
  • LOFGREN, B. M. Cloud and vertical resolution issues in the Coupled Hydrosphere-Atmosphere Research Model (CHARM). Proceedings, 14th Conference on Hydrology, American Meteorological Society, Dallax, TX, January 10-15, 1999. American Meteorological Society, pp. 380-383 (1999).
  • LOFGREN, B. M., and Y. ZHU. Seasonal climatology of surface energy fluxes on the Great Lakes. NOAA Technical Memorandum ERL GLERL-112, Great Lakes Environmental Research Laboratory, Ann Arbor, MI, (NTIS# PB99-144958/XAB) 21 pp. (1999). https://www.glerl.noaa.gov/pubs/tech_reports/glerl-112
  • ZHU, Y., and B. M. LOFGREN. Spatially distributed water surface temperature modeling for the Great Lakes. Proceedings, 14th Conference on Hydrology, Dallas, TX, January 10-15, 1999. American Meteorological Society, pp. 431-434 (1999). https://www.glerl.noaa.gov/pubs/fulltext/1999/19990003.pdf
  • LOFGREN, B. M. Simulated effects of idealized Laurentian Great Lakes on regional and large-scale climate. Journal of Climate 10: 2847-2858 (1997). https://www.glerl.noaa.gov/pubs/fulltext/1997/19970002.pdf
  • LOFGREN, B.M. Climatic impacts of idealized Great Lakes in a general circulation model. Proceedings, American Meteorological Society Conference, Long Beach, CA, Feb. 2-7, 1997. AMS, Boston, MA, 281-284 (1997).
  • LOFGREN, B.M. Sensitivity of land-ocean circulations, precipitation, and soil moisture to perturbed land surface albedo. Journal of Climate 8(10):2521-2542 (1995). https://www.glerl.noaa.gov/pubs/fulltext/1995/19950001.pdf
  • LOFGREN, B.M. Surface albedo-climate feedback simulated using two-way coupling. Journal of Climate 8(10):2543-2562 (1995). https://www.glerl.noaa.gov/pubs/fulltext/1995/19950002.pdf
  • CROLEY, T.E.II, D.H. LEE, and B. LOFGREN. GLERL Hydrological Modeling. NOAA, Great Lakes Environmental Research Laboratory, Ann Arbor, MI, 4 pp. (1995).
  • CROLEY, T.E.II, D.H. LEE, B. LOFGREN, and F.H. QUINN. Great Lakes Water Resources Forecasting. NOAA, Great Lakes Environmental Research Laboratory, Ann Arbor, MI, 4 pp. (1995).
  • LOFGREN, B.M., and T.E. CROLEY. Validation of the Coupled Hydrosphere-Atmosphere Research Model (CHARM). Proceedings, Conference on Hydrology, Dallas, TX, January 15-20, 1995. American Meteorological Society, Boston, MA, 26-30 (1995).
  • CROLEY, T.E., II, and B.M. LOFGREN. Coupled Hydrologic Atmospheric Research Model (CHARM). Proceedings, Effects of Human-Induced Changes on Hydrologic Systems, Jackson Hole, WY, June 26-29, 1994. American Water Research Association, 109-118 (1994).

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Last updated: 2017-11-13 gl