Large Lakes
Personal tools
You are here: Home / Publications
June 2020 »
June
MoTuWeThFrSaSu
1234567
891011121314
15161718192021
22232425262728
2930
 

Publications

References and Citations (Inland Waters and Climate Change)

Adrian, R., C. M. O’Reilly, H. Zargarese, S. Baines, D. Hessen, D. M. Livingston, R. Sommaruga, D. Straile, E. van Donk, G. Weyhenmeyer, M. Winder, and W. Keller. 2009. Lakes as sentinels of present climate change. Limnology and Oceanography 54(6/2): 2283-2297.

Arhonditsis, G. B., Brett, M. T., Degasperi, C. L., Ksc-nr-, M. S., & Schindler, D. E. (2004). Effects of climatic variability on the thermal properties of Lake Washington, Limnology And  Oceanography. 49(1), 256–270.

Arvola, L., George, G., Livingstone, D.M., Järvinen, M., Blenckner, T., Dokulil, M.T., Jennings, E., Aonghusa, C.N., Nöges, P., Nöges, T., and Weyhenmeyer, G.A., 2010. The impact of the changing climate on the thermal characteristics of lakes. In. G. George (ed) The impact of climate change on European lakes. Aquatic Ecology Series 4, Springer Science+Business Media B.V. pp. 85-101. DOI 10.1007/978-90-481-2945-4_6

Assel, R., Cronk, K., & Norton, D. (2003). Recent Trends In Laurentian Great Lakes Ice Cover. Climatic Change, 57, 185–204.

Austin, J. A., and S. M. Colman (2007), Lake Superior summer water temperatures are increasing more rapidly than regional air temperatures: A positive ice-albedo feedback, Geophys. Res. Lett., 34(6), 2724-2730, L06604, doi:10.1029/2006GL029021.

Austin, J., and S. Colman (2008), A century of temperature variability in Lake Superior, Limnol. Oceanogr., 53(6), 2724–2730.

Benson,B.J., Lenters, J.D., Magnuson, J.J., Stubbs, M., Kratz, T.K., Dillions, P.J., Hecky, R.E. and Lathrop, R.C. (2000). Regional coherence of climatic and lake thermal variables of four lake districts in the Upper Great Lakes Region of North America. Freshwater Biology, 43: 517-527.

Blenckner, T., Adrian, R., Livingstone, D. M., Jennings, E., Weyhenmeyer, G. a., George, D. G., Jankowski, T., et al. (2007). Large-scale climatic signatures in lakes across Europe: a meta-analysis. Global Change Biology, 13(7), 1314–1326.

Carey, C.C., B.W. Ibelings, E.P. Hoffman, D.P. Hamilton, and J.D. Brookes. 2012. Eco physiological adaptations that favour freshwater cyanobacteria in a changing climate. Water Research 46 (SI 5): 1394-1407.

Coats, R., Perez-Losada, J., Schladow, G., Richards, R., & Goldman, C. (2006). The Warming of Lake Tahoe. Climatic Change, 76(1-2), 121–148. doi:10.1007/s10584-005-9006-1.

Coles, J.F., and R.C. Jones. 2000. Effect of temperature on photosynthesis-light response and growth of four phytoplankton species isolated from a tidal freshwater river. Journal of Phycology 36: 7–16.

Davison, I.R. 1991. Environmental effects on algal photosynthesis – temperature. Journal of Phycology 27: 2–8.

De’ath, G. and Fabricus, K.E. (2000). Classification and Regression Trees: A powerful yet simple technique for ecological data analysis. Ecology, 81(11): 3178-3192.

Dobiesz, N. E., & Lester, N. P. (2009). Changes in mid-summer water temperature and clarity across the Great Lakes between 1968 and 2002. Journal of Great Lakes Research, 35(3), 371–384.

Dodds, C.E., W and T.K. Kratz, and M.A. Palmer. 2008. Lakes and streams as sentinels of environmental change in terrestrials and atmospheric processes. Frontiers in Ecology and the Environment. 6: 247-254.

Doran, P.T., Priscu, J.C., Lyons, W.B., Walsh, J.E., Fountain, A.G., McKnight, D.M., Moorhead, D.L., Virginia, R.A., Wall, D.H., Clow, G.D., Fritsen, C.H., McKay, C.P. and Parsons, A.N. (2002). Antarctic climate cooling and terrestrial ecosystem response. Nature, 415: 517-520.

Dokulil, M.T. (2014), Impact of Climate warming on European inland waters, Inland Waters, 40, 27-40. doi: 10.5268/IW-4.1.705

Dokulil, M.T. & Teubner, K., 2003. Steady state phytoplankton assemblages during thermal stratification in deep alpine lakes. Do they occur? Hydrobiologia 502: 65-72.

Dokulil, M.T., Jagsch, A., George, G.D., Anneville, A., Jankowski, T., Wahl, B., Lenhart, B., Blenckner, T. & Teubner, K., 2006. Twenty years of spatially coherent deep-water warming in lakes across Europe related to the North Atlantic Oscillation. – Limnol. Oceanogr. 51, 2787-2793.

Dokulil, M.T., Teubner, K. & Jagsch, A., 2006. Climate change affecting hypolimnetic water temperatures in deep alpine lakes. - Verh. Internat. Verein. Limnol. 29, 1285-1288.

Dokulil, M.T. and Herzig, A., 2009. An analysis of long-term winter data on phytoplankton and zooplankton in Neusiedler See, a shallow temperate lake, Austria. Aquatic Ecology 43:715-725. DOI 10.1007/s10452-009-9282-3

Dokulil, M.T., Teubner, K., Jagsch, A., Nickus, U., Adrian, R., Straile, D., Jankowski, T., Herzig, A., and Padisák, J., 2010. The impact of climate change on lakes in Central Europe. In. G. George (ed) The impact of climate change on European lakes. pp. 387-410, Springer Doordrecht.DOI 10.1007/978-90-481-2945-4

Dokulil, M.T. & Teubner, K., 2003. Steady state phytoplankton assemblages during thermal stratification in deep alpine lakes. Do they occur? Hydrobiologia 502: 65-72.

Dokulil, M.T., 2013. Impact of climate warming on European inland waters. Inland Waters 4:27-40.

Dokulil, M.T. and Teubner, K., 2011. Eutrophication and Climate Change: Present Situation and Future Scenarios. In: A.A. Ansari, S.S. Gill, G. R. Lanza and W. Rast, Eutrophication: causes, consequences and control, 1-16, DOI: 10.1007/978-90-481-9625-8_1.

Dokulil, M.T., 2013. Predicting summer surface water temperatures for large Austrian lakes in 2050 under climate change scenarios. Hydrobiologia DOI 10.1007/s10750-013-1550-5

Easterling, D.R., Horton, B., Jones, P.D., Peterson, T.C., Karl, T.R., Parker, D.E., Salinger, M.J., Razuvayev, Plummer, N., Jamason, P. and Folland, C.K. (1997). Maximum and Minimum Temperature Trends for the Globe. Science, 277: 364-367.

Easterling, D. R., & Wehner, M. F. (2009). Is the climate warming or cooling? Geophysical Research Letters, 36(8), 1-3.

Edmundson, J.A. and Mazumder, A. (2002). Regional and hierarchical perspectives of thermal regimes in subarctic, Alaskan lakes. Freshwater Biology, 47,1-17.

Engel, K. and R. Tollrian. 2012. Competitive ability, thermal tolerance and invasion success in exotic Daphnia lumholtzi. Journal of Plankton Research 34: 92-97.

Ficke, A.D., C.A. Myrick, and L.J. Hansen. 2007. Potential impacts of global climate change on freshwater fisheries. Reviews in Fish Biology and Fisheries 17: 518-613.

First U.S. National Assessment (2000) U.S. National Assessment of the Potential Consequences of Climate Variability and Change By the National Assessment Synthesis Team, U.S. Global Change Research Program.

Friedrich, K., et al. (2017), Reservoir Evaporation in the Western United States: Current Science, Challenges, and Future Needs. Bull. Am. Meteor. Soc. (in press). 

Gan, T. Y. (1995). Trends in Air Temperature and Precipitation for Canada. International Journal of Climatology, 15: 1115-1134.

George, D. G., Talling, J. F., Rigg, E., & Hose, T. F. (2000). Factors influencing the temporal coherence of five lakes in the English Lake District. Freshwater Biology, 43: 449-461.

George, G., Nickus, U., Dokulil, M.T., and Blenckner, T., 2010. The influence of changes in the atmospheric circulation on the surface temperature of lakes. In. G. George (ed) The impact of climate change on European lakes. pp. 293-310, Springer Doordrecht.DOI 10.1007/978-90-481-2945-4

Global Climate Change Impacts in the United States (2009). Edited by: Thomas R. Karl, Jerry M. Melillo, Thomas C. Peterson, and Susan J. Hassol, ISBN: 9780521144070,192 pages

Good, S. A., et al. (2007), The global trend in sea surface temperature from 20 years of advanced very high resolution radiometer data, J. Clim., 20, 1255–1264, doi:10.1175/JCLI4049.1.

Gorham, E. (1964). Morphometric Control of Annual Heat Budgets in Temperate Lakes. Limnology and Oceanography, 9(4), 525-529.

Golosov, S., A. Terzhevik, I. Zverev, G. Kirillin, and C. Engelhardt, 2012: Climate change impact on thermal and oxygen regime of shallow lakes. Tellus A, 64, 17264. doi:10.3402/tellusa.v64i0.17264

Goyette, S., and M. Perroud (2012), Interfacing a one-dimensional lake model with a single-column atmospheric model: Application to the deep Lake Geneva, Switzerland. Water Resour. Res., 48, W04507, doi:10.1029/2011WR011223.

Gula, J., and W. R. Peltier, 2012: Dynamical downscaling over the Great Lakes Basin of North America using the WRF Regional Climate Model: The impact of the Great Lakes system on regional greenhouse warming. J. Climate, 25, 7723-7742.

Hampton, S. E., Izmest’Eva, L. R., Moore, M. V., Katz, S. L., Dennis, B., & Silow, E. a. (2008). Sixty years of environmental change in the world’s largest freshwater lake - Lake Baikal, Siberia. Global Change Biology, 14(8), 1947–1958.

Hansen, J., R. Ruedy, M. Sato, and K. Lo, 2008. Global Temperature Trends: 2005 Summation, http://data.giss.nasa.gov/gistemp/2008/

Hansen, J., Sato, M., Ruedy, R., Lo, K., Lea, D. W., & Medina-elizade, M. (2006). Global temperature change. PNAS, 103(39), 14288-14293.

Healey, N. C., S. J. Hook, S. G. Schladow, J. D. Lenters (2017), Drought conditions cause rapid wintertime warming of large lakes in California and Nevada (USA) (in preparation).

Healey, N. C. et al. (2017), Water budget drivers of Lake Tahoe water levels. (in preparation).

Healey, N. C., and S. J. Hook (2017), The Impact of the Pacific Decadal Oscillation on the summertime temperatures of inland water bodies in Alaska (USA) and northwest Canada (in review)

Hirsch, R.M., Alexander, R.B. and Smith, R.A. (1991). Selection of Methods for the Detection and Estimation of Trends in Water Quality. Water Resources Research, 27(5): 803-813.

Hondzo, M. and Stefan, H.G. (1991). Three Case Studies of Lake Temperature and Stratification Response to Warmer Climate. Water Resources Research, 27(8), 1837-1846.

Huber, V., C. Wagner, D. Gerten, and R. Adrian. 2012. To bloom or not to bloom: constrasting responses of cyanobacteria to recent heat waves explained by critical thresholds of abiotic drivers. Oecologia 169: 245-256.

Hulley, G. C., S. J. Hook, and P. Schneider (2011), Optimized split-window coefficients for deriving surface temperatures from inland water bodies, Remote Sens. Environ., 115, 3758-3769. doi: 10.1016/j.rse.2011.09.014

Intergovernmental Panel on Climate Change (IPCC), Climate Change 2001: The Scientific Basis, edited by J. T. Houghton, Y. Ding,, D. J. Griggs, M. Noguer, P. J. van der Linden and D. Xiaosu, Cambridge Univ. Press, New York, 2001. http:www.grida.no/climate/ipcc_tar/

Intergovernmental Panel on Climate Change (IPCC), Climate Change 2007: The Physical Science Basis, edited by Solomon, S., D. Qin, M. Manning, Z. Chen, M. Marquis, K.B. Averyt, M. Tignor and H.L. Miller. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 996 pp.

IPCC (Intergovernmental Panel on Climate Change). Fifth Assessment Report (2013). Climate Change 2013: The Physical Science Basis.

Jackson, D. A., Peres-Neto, P. R. and Olden, J. D. (2001). What controls who is where in freshwater fish communities – the roles of biotic, abiotic, and spatial factors. Canadian Journal of Fisheries and Aquatic Sciences, 58(1), 157–170.

Jones, P. D., New, M., Parker, D. E., Martin, S., & Rigor, I. G. (1999). Surface air temperature and its changes over the past 150 years. Review of Geophysics, 37(2), 173-199.

Karl, T.R., Kukla, G. and Gavin, J. (1984). Decreasing Diurnal Temperature Range in the United States and Canada from 1941 through 1980. Journal of Climate and Applied Meteorology, 23(11), 1489-1504.

Kaufmann, R. K., Kauppi, H., Mann, M. L., & Stock, J. H. (2011). Reconciling anthropogenic climate change with observed temperature 1998 – 2008. PNAS, 108(29), 11790–11793.

Kettle, H., Thompson, R., Road, W. M., Eh, E., Anderson, N. J., & Livingstone, D. M. (2004). Empirical modeling of summer lake surface temperatures in southwest Greenland, 49(1), 271–282.

King, J.R., Shuter, B.J. and Zimmerman, A.P. (1997). The response of the thermal stratification of South Bay (Lake Huron) to climatic variability. Canadian Journal of Fisheries and Aquatic Sciences, 54: 1873-1882.

Kirillin, G., 2010: Modeling the impact of global warming on water temperature and seasonal mixing regimes in small temperate lakes. Boreal Env. Res., 15, 279-293.

Kvarnäs, H. (2001). Morphometry and hydrology of the four large lakes of Sweden. AMBIO: A Journal of the Human Environment, 30(8), 467–74.

Kraemer, B. M., et al., (2015), Century-Long Warming Trends in the Upper Water Column of Lake Tanganyika. PLoS ONE, 10, e0132490, doi:10.1371/journal.pone.0132490

Lawrence, S. P., D. T. Llewellyn-Jones, and S. J. Smith, 2004. The measurement of climate change using data from the advanced very high resolution and Along Track Scanning radiometers, J. Geophys. Res.,109, C08017, doi:10.1029/2003JC002104.

Lenters, J. D. (2015), The Global Lake Temperature Collaboration (GLTC). LakeLine, 35(3), 9-12.

Lewis, W. M. (1996). Tropical lakes : how latitude makes a difference. Perspectives in Tropical Limnology, 43-64.

Livingstone, D., 1993. Temporal structure in the deep-water termperature of four Swiss lakes: A short-term climatic change indicator. Verh. Int. Verein. Limnol, vol. 25, pp 75-81.

Livingstone, D. M., & Lotter, F. (1998). The relationship between air and water temperatures in lakes of the Swiss Plateau : a case study with palæolimnological implications. Journal of Paleolimnology, 19, 181–198.

Livingstone, D. M., Lotter, A. F., Walker, I. R., Livingstone, D. M., Lotter, A. F., & Walkert, I. R. (1999). Comparison with Air Temperature Lapse Rates in Summer Water with The Decrease Surface Altitude in Swiss Temperature with Air A Comparison Rates Lakes : Temperature Lapse Alpine.

Livingstone, D.M. & M. T. Dokulil 2001. Eighty years of spatially coherent Austrian lake surface temperatures and their relationship to regional air temperatures and to the North Atlantic Oscillation. Limnol. Oceanogr. 46: 1220-1227

Livingstone, D. M., & Dokulil, M. T. (2001). Eighty years of spatially coherent Austrian lake surface temperatures and their relationship to regional air temperature and the North Atlantic Oscillation, 46(5), 1220–1227.

Livingstone, D. M. (2003). Thermal Structure of a Large Temperate Central European Lake. Climate Change, 57, 205–225.

Livingstone, D.M., Adrian, R., Arvola, L., Blenckner, T., Dokulil, M.T., Hari, R.E., George, G., Jankowski, T., Järvinen, M., Jennings, E., Nöges, P., Nöges, T., Straile, D., and Weyhenmeyer, G.A., 2010. Regional and supra-regional coherence in limnological variables. In. G. George (ed) The impact of climate change on European lakes. pp. 311-338, Springer Doordrecht.DOI 10.1007/978-90-481-2945-4

Lucas, L.E., D.E. Waliser, P. Xie, J.E. Janowiak, B. Liebmann, 2001: Estimating the Satellite Equatorial Crossing Time Biases in the Daily, Global Outgoing Longwave Radiation Data Set. J. Climate, 14, 2583-2605.

Morris, D. P., Zagarese, H., Williamson, C. E., Balseiro, E. G., Hargreaves, B. R., Modenutti, B., Moeller, R., et al. (1995). The attenuation of solar UV radiation in lakes and the role of dissolved organic carbon. Limnology and Oceanography, 40(8), 1381–1391.

Nõges, T. 2009. Trends of air and water temperature in Estonia and in large lakes Peipsi and Võrtsjärv, possible consequences on water quality. E. Schweizerbartische Verlagsbuchhandlung, Science Publishers, Stuttgart Verhandlungen der Internationalen Vereinigung für Theoretische und Angewandte Limnologie Vol. 30 Part 7. p. 997–999.

Nõges, T.; Tuvikene, L.; Nõges, P. 2010. Contemporary trends of temperature, nutrient loading and water quality in large lakes Peipsi and Võrtsjärv, Estonia. Aquatic Ecosystem Health & Management, 13(2):143–153. DOI: 10.1080/14634981003788987

Nõges, P., Nõges T. 2013 Weak trends in ice phenology of Estonian large lakes despite significant warming trends. Hydrobiologia. DOI 10.1007/s10750-013-1572-z

North, R.P., North, R.L., Livingstone, D.M., Köster, O. and Kipfer, R. 2014. Long-term changes in hypoxia and soluble reactive phosphorus in the hypolimnion of a large temperate lake: consequences of a climate regime shift. Global Change Biology. 20: 811–823. doi:10.1111/gcb.12371

North, R. P., D. M. Livingstone, R. E. Hari, O. Köster, P. Niederhauser, and R. Kipfer (2013), The physical impact of the late 1980s climate regime shift on Swiss rivers and lakes, Inland Waters, 3, 341-350, doi:10.5268%2FIW-3.3.560

O’Reilly, C. M., et al. (2015), Rapid and highly variable warming of lake surface waters around the globe. Geophys. Res. Lett., 42(24), 10773-10781. doi: 10.1002/2015GL066235

O’Reilly, C. M., Alin, S. R., Plisnier, P.-D., Cohen, A. S., & McKee, B. a. (2003). Climate change decreases aquatic ecosystem productivity of Lake Tanganyika, Africa. Nature, 424(6950), 766–768.

Oswald, C.J. and Rouse, W.R. (2004). Thermal Characteristics and Energy Balance of Various-Size Canadian Shield Lakes in the Mackenzie River Basin. Journal of Hydrometeorology, 5, 129-144.

Pareeth, S. et al., (2016), New Automated Method to Develop Geometrically Corrected Time Series of Brightness Temperatures from Historical AVHRR LAC Data. Remote Sens., 8(169), 1-29. doi:10.3390/rs8030169

Persson, I., Jones, I., Sahlberg, J., Dokulil, M., Hewitt, D., Leppäranta, M. & Blenckner, T. 2005. Modeled thermal response of three European lakes to a probable future climate. Verh. Internat. Verein. Limnol. 29, 667-671.

Piccolroaz, S., et al. (2017), On the predictability of lake surface temperature using air temperature in a changing climate: A case study for Lake Tahoe (USA). Limnol. Oceanogr. (in press).

Piccolroaz, S., M. Toffolon, and B. Majone (2013), A simple lumped model to convert air temperature into surface water temperature in lakes, Hydrol. Earth Syst. Sci., 17, 3323-3338, doi:10.5194/hess-17-3323-2013.

Prata, A. J. 1994, Land surface temperatures derived from AVHRR and ATSR. II:  Experimental results and validation of AVHRR algorithms, J. Geophys.  Res., vol. 99, pp. 13,025 -13,058.

Quayle, W. C., Peck, L. S., Peat, H., Ellis-Evans, J. C. and P. R. Harrigan, 2002. Extreme Responses to Climate Change in Antartic Lakes. Science, vol. 295, pp. 645.

Quinn, G.P. & Keough, M.J. (2002) Experimental Design and Data Analysis for Biologists. Cambridge University Press, Cambridge, UK.

Read, J. S., L. A. Winslow, G. J. A. Hansen, J. Van Den Hoek, P. C. Hanson, L. C. Bruce, and C. D. Markfort (2014), Simulating 2368 temperate lakes reveals weak coherence in stratification phenology, Ecol. Model., 291, 142–150. doi:10.1016/j.ecolmodel.2014.07.029.

Robertson, D. M., & Ragotzkie, R. a. (1990). Changes in the thermal structure of moderate to large sized lakes in response to changes in air temperature. Aquatic Sciences, 52(4), 360–380. doi:10.1007/BF00879763

Sahoo, G.B., A.L. Forrest, S.G. Schladow, J.E. Reuter, R. Coats, and M. Dettinger (2016), Climate change impacts on lake thermal dynamics and ecosystem vulnerabilities. Limnol. Oceanogr., 61, 496–507, doi:10.1002/lno.10228

Sahoo, G.B., S.G. Schladow, and J.E. Reuter (2013), Hydrologic budget and dynamics of a large oligotrophic lake related to hydro-meteorological inputs. J. Hydrol., 500, 127-143, doi: 10.1016/j.jhydrol.2013.07.024

Salmaso, N., 2005. Effects of climatic fluctuations and vertical mixing on the interannual trophic variability of Lake Garda, Italy. Limnology and Oceanography 50(2): 553-565.

Salmaso N, Mosello R, 2010. Limnological research in the deep southern subalpine lakes: synthesis, directions and perspectives. Advances in Oceanography and Limnology 1: 29–66.

Salmaso, N., Cerasino, L., 2012. Long-term trends and fine year-to-year tuning of phytoplankton in large lakes are ruled by eutrophication and atmospheric modes of variability. Hydrobiologia 698: 17-28.

Salmaso, N. (2012). Influence of atmospheric modes of variability on the limnological characteristics of a deep lake south of the Alps. Climate Research. 51: 125–133, 2012. doi: 10.3354/cr01063

Salmaso, N., Buzzi, F., Cerasino, L., Garibaldi, L., Leoni, B., Morabito, G., Rogora, M., Simona, M. Influence of atmospheric modes of variability on the limnological characteristics of large lakes south of the Alps: a new emerging paradigm (2013) Hydrobiologia, pp. 1-18.

Schmid, M., and O. Köster (2016), Excess warming of a Central European lake driven by solar brightening, Water Resour. Res., 52(10):8103–8116, doi: 10.1002/2016WR018651

Schmid, M., S. Hunziker, and A. Wüest (2014), Lake surface temperatures in a changing climate: a global sensitivity analysis, Clim. Change, 124, 301-315, doi: 10.1007/ s10584-014-1087-2.

Schneider, P. and S. J. Hook, (2010), Space observations of inland water bodies show rapid surface warming since 1985. Geophys. Res. Lett., 37(22), L22405. doi: 10.1029/2010GL045059

Schindler, D.W., Beaty, K.G., Fee, E.J., Cruikshank, D.R., DeBruyn, E.R., Findlay, D.L., Linsey, G.A., Shearer, J.A., Stainton, M.P., and Turner, M.A. (1990). Effects of Climate Warming on Lakes of the Central Boreal Forest. Science, 250(4983), 967-970.

Schindler, D.W., Bayley, S.E., Parker, B.R., Beaty, K.G., Cruikshank, D.R., Fee, E.J., Schindler, E.U., and Stainton, M.P. (1996). The Effects of Climate Warming on the Properties of Boreal Lakes and Streams at the Experimental Lakes Area, Northwestern Ontario. Limnology and Oceanography, 41(5), 1004-1017.

Schneider, P., S. J. Hook, R. G. Radocinski, G. K. Corlett, G. C. Hulley, S. G. Schladow and T. E.  Steissberg, 2009. Satellite observations indicate rapid warming trend for lakes in California and Nevada. Geophysical Research Letters, vol. 36.

Schneider, P., & Hook, S. J. (2010). Space observations of inland water bodies show rapid surface warming since 1985. Geophysical Research Letters, 37(22), L22405, doi:10.1029/2010GL045059

Sen, P.K. (1968). Estimates of the Regression Coefficient Based on Kendall’s Tau. Journalof the American Statistical Association, 63(324), 1379-1389.

Sharma, S., et al. (2015), A global database of lake surface temperatures collected by in situ and satellite methods from 1985–2009. Nature – Scientific Data, 2, 150008. doi: 10.1038/sdata.2015.8 

Sharma, S., Walker, S. C., & Jackson, D. a. (2008). Empirical modelling of lake water-temperature relationships: a comparison of approaches. Freshwater Biology, 53(5), 897–911. doi:10.1111/j.1365-2427.2008.01943.x

Sharma, S., Jackson, D. a., Minns, C. K., & Shuter, B. J. (2007). Will northern fish populations be in hot water because of climate change? Global Change Biology, 13(10), 2052–2064. doi:10.1111/j.1365-2486.2007.01426.x

Shuter, B.J., Schlesinger, D.A., and Zimmerman, A.P. (1983). Empirical predictors of annual surface water temperature cycle sin North American lakes. Can. J. Fish. Aquat. Sci. 40, 1838-1845.

Shuter B. J., A. G. Finstad, I. P. Helland, I. Zweimüller, and F. Hölker, 2012: The role of winter phenology in shaping the ecology of freshwater fish and their sensitivities to climate change. Aquat. Sci. doi:10.1007/s00027-012-0274-3

Sima S., A. Ahmadalipour, M. Tajrishy (2013), Mapping surface temperature in a hyper-saline lake and investigating the effect of temperature distribution on the lake evaporation. Rem. Sens. Environ., 136, 374-385. doi: 10.1016/j.rse.2013.05.014

Snoeijs, P.J.M. 1990. Effects of temperature on spring bloom dynamics of epilithic diatom communities in the Gulf of Bothnia. Journal of Vegetation Science 1: 599–608.

Snucins, E., & Gunn, J. (2000). Interannual variation in the thermal structure of clear and colored lakes. Limnol. Oceanogr., 45(7), 1639–1646.

Stjern, C. W. (2009). Global dimming and global brightening – an analysis of surface radiation and cloud cover data in northern Europe, 653, 643–653.

Straile, D., Johnk, K., & Rossknecht, H. (2003). Complex effects of winter warming on the physicochemical characteristics of a deep lake. Limnol. Oceanogr., 48(4), 1432–1438. 

Teubner, K., Tolotti, M., Greisberger, S., Morscheid, H., Dokulil, M.T. & Kucklentz, V. 2006. Steady state of phytoplankton and implications for climatic changes in a deep pre-alpine lake: epilimnetic versus metalimnetic assemblages. Verh. Internat. Verein. Limnol. 29, 1688-1692.

Toffolon, M., S. Piccolroaz, B. Majone, A.-M. Soja, F. Peeters, M. Schmid, and A. Wüest (2014), Prediction of surface temperature in lakes with different morphology using air temperature, Limnol. Oceanogr., 59, 2182-2202, doi:10.4319/lo.2014.59.6.2185

Toffolon, M., and S. Piccolroaz (2015), A hybrid model for river water temperature as a function of air temperature and discharge, Environ. Res. Lett., 10, 114011, doi:10.1088/1748-9326/10/11/114011

Van Cleave, K., J. D. Lenters, J. Wang, and E. M. Verhamme (2014), A regime shift in Lake Superior ice cover, evaporation, and water temperature following the warm El Niño winter of 1997–1998, Limnol. Oceanogr., 59, 1889-1898, doi:10.4319/lo.2014.59.6.1889

Waliser, D. E. and W. Zhou, 1997: Removing Satellite Equatorial Crossing Time Biases from the OLR and HRC data sets. J. Climate, 10, 2125-2146.

Wagner, C., and R. Adrian. 2011. Consequences of changes in thermal regime for plankton diversity and trait composition in a polymictic lake: a matter of temporal scale. Freshwater Biology 56: 1949-1961.

Weyhenmeyer, G.A., H. Peter, and E. Willen. 2012. Shifts in phytoplankton species richness and biomass along a latitudinal gradient – consequences for relationships between biodiversity and ecosystem functioning. Freshwater Biology dio:10.1111/j.365-2427.2012.02779.x

Wetzel, R.G. (2001). Limnology: Lake and River Ecosystems. Academic Press: San Diego, California.

Wild, M., Gilgen, H., Roesch, A., Ohmura, A., Long, C. N., Dutton, E. G., Forgan, B., et al. (2005). From dimming to brightening: decadal changes in solar radiation at Earth’s surface. Science, 308(5723), 847–50.

Wilhelm, S., Hintze, T., Livingstone, D.M. and Adrian, R. (2006). Long-term response of daily epilimnetic temperature extrema to climate forcing. Canadian Journal of Fisheries and Aquatic Sciences, 63, 2467-2477.

Wilson, R. C., S. J. Hook, P. Schneider, S. G. Schladow (2013), Skin and bulk temperature difference at Lake Tahoe: A case study on lake skin effect. J. Geophys. Res. – Atmospheres, 118(18), 10332-10346. doi: 10.1002/jgrd.50786.

Winder, M, and D.E. Schindler. 2004. Climate change uncouples trophic interactions in an aquatic ecosystem. Ecology 85: 2100-2106.

Winslow, L. A., Read, J. S., Hansen, G. J. A., Hanson, P. C., (2014), Small lakes show muted climate change signalin deepwater temperatures. Geophys. Res. Lett., 42, doi:10.1002/2014GL062325.

Wisconsin Initiative on Climate Change Impacts (WICCI). (2011). Wisconsin’s Changing Climate: Impacts and Adaptations (First Report). Retrieved from: http://www.wicci.wisc.edu/

Wood, T. M., S. A. Wherry, S. Piccolroaz, and S. F. Girdner (2016), Simulation of deep ventilation in Crater Lake, Oregon, 1951–2099: U.S. Geological Survey Scientific Investigations Report 2016–5046, 43 p., doi: 10.3133/sir20165046.

Woolway, R. I., P. Meinson, P. Nõges, I. D. Jones, and A. Laas (2017a), Atmospheric stilling leads to prolonged thermal stratification in a large shallow polymictic lake. Cli. Change, 141(4), 759-773. doi: 10.1007/s10584-017-1909-0

Woolway, R.I., M.T. Dokulil, W. Marszelewski, M. Schmid, and D. Bouffard, (2017b), Recent warming of Central European lakes and their response to the 1980s climate regime shift. Cli. Change (in review)

Woolway R.I., I.D. Jones, D.P. Hamilton, S.C. Maberly, K. Muraoka, J.S. Read, R.L. Smyth, and L.A. Winslow (2015), Automated calculation of surface energy fluxes with high-frequency lake buoy data. Environ. Model. Softw., 70, 191-198, doi: 10.1016/j.envsoft.2015.04.013

Woolway, R. I., et al., 2016. Lake surface temperatures [in “State of the Climate in 2015”]. Bull. Amer. Meteor. Soc., 97(8):S17-S18

Verburg, P., R.E. Hecky, and H. Kling. 2003. Ecological consequences of a century of warming in Lake Tanganyika. Science. 301: 505-507

Zhong Y., M. Notaro, S.J. Vavrus, and M.J. Foster (2016), Recent accelerated warming of the Laurentian Great Lakes: Physical drivers. Limnol. Oceanogr., 61(15), 1762–1786, doi: 10.1002/lno.10331