Research Article
Response of snow processes to climate change: spatial variability in a small basin in the Spanish Pyrenees
J. I. López-Moreno,
J. W Pomeroy,
J. Revuelto,
S. M. Vicente-Serrano,
J. I. López-Moreno
Pyrenean Institute of Ecology (CSIC), Department of Geoenvironmental Processes and Global Change, Zaragoza, Spain
Search for more papers by this authorJ. W Pomeroy
Centre for Hydrology, University of Saskatchewan, Saskatoon, Canada
Search for more papers by this authorJ. Revuelto
Pyrenean Institute of Ecology (CSIC), Department of Geoenvironmental Processes and Global Change, Zaragoza, Spain
Search for more papers by this authorS. M. Vicente-Serrano
Pyrenean Institute of Ecology (CSIC), Department of Geoenvironmental Processes and Global Change, Zaragoza, Spain
Search for more papers by this authorJ. I. López-Moreno,
J. W Pomeroy,
J. Revuelto,
S. M. Vicente-Serrano,
J. I. López-Moreno
Pyrenean Institute of Ecology (CSIC), Department of Geoenvironmental Processes and Global Change, Zaragoza, Spain
Search for more papers by this authorJ. W Pomeroy
Centre for Hydrology, University of Saskatchewan, Saskatoon, Canada
Search for more papers by this authorJ. Revuelto
Pyrenean Institute of Ecology (CSIC), Department of Geoenvironmental Processes and Global Change, Zaragoza, Spain
Search for more papers by this authorS. M. Vicente-Serrano
Pyrenean Institute of Ecology (CSIC), Department of Geoenvironmental Processes and Global Change, Zaragoza, Spain
Search for more papers by this authorCorrespondence to: Juan Ignacio López Moreno, Campus de Aula Dei. Avda. Montañana 1005, Zaragoza 50.059, Spain
E-mail: [email protected]
Abstract
In this study, the Cold Regions Hydrological Modelling platform was used to create an alpine snow model including wind redistribution of snow and energy balance snowmelt to simulate the snowpack over the period 1996–2009 in a small (33 ha) snow-dominated basin in the Spanish Pyrenees. The basin was divided into three hydrological response units (HRUs), based on contrasting physiographic and aerodynamic characteristics. A sensitivity analysis was conducted to calculate the snow water equivalent regime for various combinations of temperature and precipitation that differed from observed conditions. The results show that there was large inter-annual variability in the snowpack in this region of the Pyrenees because of its marked sensitivity to climatic conditions. Although the basin is small and quite homogeneous, snowpack seasonality and inter-annual evolution of the snowpack varied in each HRU. Snow accumulation change in relation to temperature change was approximately 20% for every 1 °C, and the duration of the snowpack was reduced by 20–30 days per °C. Melting rates decreased with increased temperature, and wind redistribution of snow was higher with decreased temperature. The magnitude and sign of changes in precipitation may markedly affect the response of the snowpack to changes in temperature. There was a non-linear response of snow to individual and combined changes in temperature and precipitation, with respect to both the magnitude and sign of the change. This was a consequence of the complex interactions among climate, topography and blowing snow in the study basin. Copyright © 2012 John Wiley & Sons, Ltd.
REFERENCES
- Adam JC, Hamlet AF, Lettenmaier DP. 2009. Implications of global climate change for snowmelt hydrology in the 21st century. Hydrological Processes 23: 962–972.
- Anderton SP, White SM, Alvera B. 2004 Evaluation of spatial variability in snow water equivalent for a high mountain catchment, Hydrological Processes 18(3): 435–453.
- Baltas EA. 2007. Impact of climate change on the hydrological regime and water resources in the basin of Siatista. International Journal of Water Resources Development 23: 501–518.
- Beniston M, Keller F, Koffi B, Goyette S. 2003. Estimates of snow accumulation and volume in the Swiss Alps under changing climatic conditions. Theoretical and Applied Climatology 76: 125–140.
- Bethoux JP, Gentili B, Tailliez D. 1998. Warming and freshwater budget change in the Mediterranean since the 1940s, their possible relation to the greenhouse effect. Geophysical Research Letters 25: 1023–1026.
- Breiling M, Charamza P. 1999. The impact of global warming on winter tourism and skiing: a regionalised model for Austrian snow conditions. Regional Environmental Change 1(1): 4–14.
- Brown RD, Goodison BE. 1996. Inter-annual variability in reconstructed Canadian snow cover, 1915–1992. Journal of Climate 9(6): 1299.1318.
- Brown R, Mote P. 2009. The response of Northern Hemisphere Snow Cover to a Changing Climate? Journal of Climate 22: 2124–2145.
- Camuffo D, Bertolin CM, Barriendos F, Dominguez-Castro C, Cocheo S, Enzi M, Sghedoni A, della Valle E, Garnier M-J, Alcoforado E, Xoplaki J, Luterbacher N, Diodato M, Maugeri MF, Nunes-Rodriguez R. 2010. 500-year temperature reconstruction in the Mediterranean Basin by means of documentary data and instrumental observations. Climatic Change 10: 1169–199.
- Casola JH, Cuo L, Livneh B, Lettenmaier DP, Soelinga MT, Mote PW, Wallace J. 2009. Assessing the impacts of global warming on snowpack in the Washington Cascades. Journal of Climate 22: 2758–2772.
- Dankers R, Christensen OB. 2005. Climate change impact on snow coverage, evapotranspiration and river discharge in the subarctic Tana basin, northern fennoscandinavia. Climatic Change 69: 367–392.
- De Jong C, Lowler D, Essery R. 2009. Mountain hydroclimatology and snow seasonality: Perspectives on climate impacts, snow seasonality and hydrological change in mountain environments. Hydrological Processes 23: 955–961.
- DeBeer CM, Pomeroy JW. 2010. Simulation of the snowmelt runoff contributing area in a small alpine basin. Hydrology and Earth System Sciences 14: 1205–1219.
-
Del Barrio G,
Alvera B,
Puigdefábrega J,
Díez C. 1997. Response of high mountain landscape to topographic variables: Central Pyrenees. Landscape Ecology 12: 95–115.
10.1007/BF02698210 Google Scholar
-
DeWalle R,
Rango A. 2008. Principles of snow hydrology. Ed. Cambridge: UK; 410.
10.1017/CBO9780511535673 Google Scholar
- Dornes PF, Pomeroy JW, Pietroniro A, Carey SK, Quinton WL. 2008. Influence of landscape aggregation in modelling snow-cover ablation and snowmelt runoff in a sub-arctic mountainous environment. Hydrological Sciences Journal 53(4): 725–740.
- Dyer JL, Mote TL. 2006. Spatial variability and trends in snow depth over North America. Geophysical Research Letters 33: L16503.
- Ellis CR, Pomeroy JW, Brown T, MacDonald J. 2010. Simulations of snow accumulation and melt in needleaf forest environments. Hydrology and Earth System Sciences 14: 925–940.
- Essery R, Pomeroy J. 2004. Vegetation and topographic control of wind-blown snow distributions in distributed and aggregated simulations for an arctic tundra basin. Journal of Hydrometeorology 5: 735–744.
- Essery R, Rutter N, Pomeroy JW, Baxter R, Stahli M, Gustafsson D, Barr A, Bartlett P, Elder K. 2009. SNOWMIP2: An evaluation of forest snow process simulations. Bulletin of the American Meteorological Society 90(8): 1120–1135.
- Fang X, Pomeroy JW, Westbrook CJ, Guo X, Minke AG, Brown T. 2010. Prediction of snowmelt derived streamflow in a wetland dominated prairie basin. Hydrology Earth System Sciences 14: 991–1006. DOI: 10.5194/hess–14–1–2010.
- Fassnacht SR. 2006. Upper versus Lower Colorado River sub-basin streamflow: characteristics, runoff estimation and model simulation. Hydrological Processes 20: 2187–2205.
- Garnier BJ, Ohmura A. 1970. The evaluation of surface variations in solar radiation income. Solar Energy 13: 21–34.
- Ghatak D, Gong G, Frei A. 2010. North American Temperature, Snowfall and Snow-Depth Response to Winter Climate Modes. Journal of Climate 23: 2320–2332,
- Gibelin AL, Déqué M. 2003. Anthropogenic climate change over the Mediterranean region simulated by a global variable resolution model. Climate Dynamics 20, 327–339.
- Giorgi F. 2006. Climate change hot-spots. Geophysical Research Letters 33: L08707.
- Goubanova K, Li L. 2007. Extremes in temperature and precipitation around the Mediterranean basin in an ensemble of future climate scenario simulations. Global and Planetary Change 57: 27–42.
- Granger RJ, Gray DM. 1990. A net radiation model for calculating daily snowmelt in open environments. Nordic Hydrology 21: 217–234.
- Granger RJ, Pomeroy JW. 1997. Sustainability of the western Canadian boreal forest under changing hydrological conditions—2-summer energy and water use. In Sustainability of Water Resources under Increasing Uncertainty, D Rosjberg, N Boutayeb, A Gustard, Z Kundzewicz, P Rasmussen (eds). IAHS Publ No. 240. IAHS Press: Wallingford; 243–250.
- Gray DM, Landine PG. 1988. An energy-budget snowmelt model for the Canadian prairies. Canadian Journal of Earth Sciences 25(9): 1292–1303.
- Hair JF, Anderson RE, Tatham RL, Black WC. 1998. Multivariate data analysis 5th edn. Prentice-Hall: Upper Saddle River, NJ; 768.
- Hantel M, Hirtl-Wielke LM. 2007. Sensitivity of Alpine snow cover to European temperature. International Journal of Climatology 27(10): 1265–1275.
- Hyvärinen V. 2003. Trends and characteristics of hydrological time series in Finland. Nordic Hydrology 34: 71–90.
- Iacozza J, Barber DG. 2010. An examination of snow redistribution over smooth land-fast sea ice. Hydrological Processes 24(7): 850–865.
- Kapnik S, Hall A. 2010. Observed climate-snowpack relationships in California and their implications for the future. Journal of Climate 23: 3446–3456.
- Keller F, Goyette S, Beniston M. 2005. Sensitivity analysis of snow cover to climate change scenarios and their impact on plant habitats in alpine terrain. Climatic Change 72: 299–319.
- Knox SH, Carey JK, Humphreys ER. in press. Snow Surface Energy Exchanges and Snowmelt in a Shrub-Covered Bog in Eastern Ontario, Canada. Hydrological Processes. on-line: DOI: 10.1002/hyp.9289.
- Leavesley GH, Markstrom SL, Restrepo PJ, Viger RJ. 1996. A modular approach to addressing model design, scale, and parameter estimation issues in distributed hydrological modelling. Hydrological Processes, 16(2): 173–187.
- Li L, Pomeroy JW. 1997. Probability of blowing snow occurrence by wind. Journal of Geophysical Research 102: D18.
- López-Moreno JI. 2005. Recent variations of snowpack depth in the Central Spanish Pyrenees. Arctic, Antarctic, and Alpine Research 37(2): 253–260.
- López-Moreno JI, García-Ruiz JM. 2004. Influence of snow accumulation and snowmelt processes on the distribution of streamflow in the central Spanish Pyrenees. Journal of Hydrological Sciences 49: 787–802.
- López-Moreno JI, Goyette S, Beniston M, Alvera B. 2008a. Sensitivity of the snow energy balance to climatic changes: implications for the evolution of snowpack in the Pyrenees in the 21st century. Climate Research 36: 206–217.
- López-Moreno JI, Goyette S, Beniston M. 2008b. Climate change prediction over complex areas: spatial variability of uncertainties and expected changes over the Pyrenees from a set of regional climate models. International Journal of Climatology 28(11): 1535–1550.
- Lopez-Moreno JI, Goyette S, Beniston M. 2009. Impact of climate change on snowpack in the Pyrenees: Horizontal spatial variability and vertical gradients. Journal of Hydrology 374(3–4): 384–396.
- López-Moreno JI, Latron J, Lehmann A. 2010. Effects of sample and grid size on the accuracy and stability of regression-based snow interpolation methods. Hydrological Processes 24(14): 1914–1928.
- López-Moreno JI, Vicente-Serrano SM, Morán-Tejeda E, Lorenzo J, Kenawy A, Beniston M. 2011. NAO effects on combined temperature and precipitation winter modes in the Mediterranean mountains: Observed relationships and projections for the 21st century. Global and Planetary Change 77: 72–66.
- MacDonald MK, Pomeroy JW, Pietroniro A. 2009. Parameterising redistribution and sublimation of blowing snow for hydrological models: tests in a mountainous subarctic catchment. Hydrological Processes 23(18): 2570–2583.
- MacDonald MK, Pomeroy JW, Pietroniro A. 2010. On the importance of sublimation to an alpine snow mass balance in the Canadian Rocky Mountains. Hydrology and Earth System Sciences 14: 1401–1415.
- Magnusson J, Jonas T, López-Moreno JI, Lehning M. 2010. Impact of climate change on the snowpack in a partly-glaciated basin in central Switzerland. Hydrology Research 41(3–4): 230–240.
- Mason PJ, Sykes RI. 1979. Flow over an isolated hill of moderate slope. Quarterly Journal of the Royal Meteorological Society 105: 383–395.
- Mellander PE, Löfvenius MO, Laudon H. 2007. Climate change impact on snow and soil temperature in boreal Scot pine stands. Climatic Change 85: 179–193.
- Merritt W, Alila Y, Barton M, Taylor B, Cohen S, Neilsen D. 2006. Hydrologic response to scenarios of climate change in sub watersheds of the Okanagan basin, British Columbia. Journal of Hydrology 326: 79–108.
- Minder JR. 2010 The sensitivity of Mountain Snowpack Accumulation to Climate Warming. Journal of Climate 23: 2634: 2645.
- Molotch NP, Colee MT, Bales RC, Dozier J. 2005. Estimating the spatial distribution of snow water equivalent in an alpine basing using binary regression tree models: the impact of digital elevation data and independent variable selection. Hydrological Processes 19: 1459–1479.
- Mote PW Hamlet AF, Clark MP, Lettenmaier DP. 2005. Declining mountain snowpack in western North America. Bulletin of the American Meteorological Society 86: 39–49.
- Mott R, Lehning M. 2010. Meteorological Modeling of Very High-Resolution Wind Fields and Snow Deposition for Mountains. J. Hydrometeor 11: 934–949.
- Neumann NN, Derksen C, Smith C, Goodison B. 2006. Characterizing local scale snow cover using point measurements during the winter season. Atmosphere-Ocean 44(3): 257–269.
- Nogués-Bravo D, Araújo MB, Errea MP, Martínez-Rica JP. 2007. Exposure of global mountain systems to climate warming during the 21st Century. Global Environmental Change 17: 420–428.
- Pomeroy JW, Li L. 2000. Prairie and Arctic areal snow cover mass balance using a blowing snow model. Journal of Geophysical Research 105(D21): 26619–26634.
- Pomeroy JW, Gray DM, Hedstrom NR, Quinton WL, Granger RJ, Carey SK. 2007. The cold regions hydrological model: a platform for basing process representation and model structure on physical evidence. Hydrological Processes 21: 2650–2667.
- Pomeroy JW, Fang X, Ellis C. 2012. Sensitivity of snowmelt hydrology in Marmot Creek, Alberta to forest cover disturbance. Hydrological Processes on-line: DOI: 10.1002/hyp.9248.
- Räisänen J. 2006. How reliable are climate models? Tellus 59: 2–29.
- Raisänen J. 2007. Warmer climates: less or more snow? Climate Dynamics 30: 307–319.
- Rasmus S, Räisänen J, Lehning M. 2004. Estimating snow conditions in Finland in the late 21st century using the SNOWPACK model with regional climate scenario data as input. Annals of Glaciology 38: 238–244.
- Repapis CC, Philastras CM. 2004. A note on the air temperature trends of the last 100 years as evidenced in the eastern Mediterranean time series. Theoretical and Applied Climatology 39: 93–97.
- Richman MB. 1986. Rotation of principal components. Journal of Climatology 6: 293–335.
- Rutter N, Essery R, Pomeroy J, Altimir N, Andreadis K, Baker I, Barr A, Barlett P, Boone A, Deng H, Douville H, Dutra E, Elder K, Ellis C, Feng X, Gelfan A, Goodboy A, Gusev Y, Gustafsson D, Hellstöm R, Hirabayashi Y, Hirota T, Jonas T, Koren V, Kuragina A, Lettenmaier D, Li W-P, Luce C, Martin E, Nasonova O, Pumpanen J, Pyres RD, Samuelsson P, Sandells M, Schädler G, Shmakin A, Smirnova T, Stähli M, Stöckli R, Strasse U, Su H, Suzuki K, Takata K, Tanaka K, Thompson E, Vesala T, Viterbo P, Witshire A, Xia K, Xue Y, Yamazaki T. 2009. Evaluation of forest snow processes models (SnowMIP2). Journal of Geophysical Research 114: D06111. DOI: 10.1029/2008JD011063.
- Sanchez-Gomez E, Somot S, Mariotti A. 2009. Future changes in the Mediterranean water budget projected by an ensemble of regional climate models. Geophysical Research Letters 36(21): 1–5.
- Sicart JE, Pomeroy JW, Essery RLH, Hardy JE, Link T, Marks D. 2004. A sensitivity study of daytime net radiation during snowmelt to forest canopy and atmospheric conditions. Journal of Hydrometeorology 5: 744–784.
- Solomon S, Qin D, Manning M, Chen Z, Marquis M, Averyt KB, Tignor M, Miller HL. 2007. Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge: United Kingdom and New York, NY, USA.
- Uhlmann B, Goyette S, Beniston M. 2009. Sensitivity analysis of snow patterns in Swiss ski resorts to shifts in temperature precipitation and humidity under condition of climate change. International Journal of Climatology 29: 1048–1055.
- Valt M, Cagnati A, Crepaz A, Marigo G. 2005. Snow precipitation in the last years on Italian Alps. Hrvatski Meteoroloski Casopis 40: 654–657.
- Vojtek M, Faško P, Šťastný P. 2003. Some selected snow climate trends in Slovakia with respect to altitude. Acta Meteorologica Universitatis 23: 17–27.
- Walmsley JL, Taylor PA, Salmon JR. 1989. Simple guidelines for estimating windspeed variations due to small-scale topographic features– an update. Climatological Bulletin 23: 3–14.
