Abstract
Glaciers are the most important water reservoirs found in the Andes. While the scientific community has conducted more extensive glaciological studies in southern Chile, it is only recently that attention has been focused on northern Chile. In the Chilean “Norte Chico” region, where glaciation is restricted to the highest summits, the sparse glacier network provides the majority of water to down-stream users during dry years. Here the economy is based on mining and agriculture, both of which depend on an intensive and reliable water source. Given the importance of glaciers to supply this water, it is surprising that few detailed glaciological studies have been conducted in this region. Just as the glaciers recede to higher summits, making water availability less reliable, the economic activity in this region is increasing; thus, glacier inventory is needed to aid Chilean policy makers in the decision making process. This chapter examines how remotely sensed imagery (ASTER and aerial photos) is being used to develop baseline glacier data in Norte Chico and to provide policy makers with scientific data for decision making. Finally, the chapter shows how GIS technology can integrate remote sensing processing results into a georeferenced database with a broader range of users than the raw data.
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References
Aniya M (1988) Glacier inventory for the Northern Patagonia Icefield, Chile, and variations 1944/45 to 1985/86. Arct Alp Res 20:179–187
Aniya M, Naruse R, Casassa G, Rivera A (1999) Variations of Patagonian glaciers, South America, utilizing RADARSAT images. In: Proceedings of the international symposium on RADARSAT application development and research opportunity, Montreal, Canada, 13–15 Oct 1998
Barcaza G (2009) Unidad de Glaciología y Nieves. http://aprchile.cl/pdfs/ Presentacion_Gonzalo_Barcaza_Mayo_2009.pdf. Accessed 1 Aug 2009
Bown F, Rivera A, Acuña C (2008) Recent glacier variations at the Aconcagua basin, central Chilean Andes. Ann Glaciol 48:43–48
Braun M, Rau F, Simões J (2008) A GIS-based glacier inventory for the Antarctic Peninsula and the South Shetland Islands. A first case study on King George Island. Geosp Inf Sci 4(2):15–24
Carrasco J, Casassa G, Rivera A (2002) Meteorological and climatological aspects of the Southern Patagonia Ice Cap Patagonia. In: Casassa G, Sepulveda F, Sinclair R (eds) The Patagonian Icefields. A unique natural laboratory for environmental and climate change studies. Kluwer/Plenum, New York, NY
Casassa G, Rivera A, Aniya M, Naruse R (2000) Características glaciológicas del Campo de Hielo Patagónico Sur. An Inst Patagonia, Ser Cienc Nat 28:5–22
Casassa G, Rivera A, Aniya M, Naruse R (2002) Current knowledge of the Southern Patagonia Icefield. In: Casassa G, Sepulveda F, Sinclair R (eds) The Patagonian Icefields. A unique natural laboratory for environmental and climate change studies. Kluwer/Plenum, New York, NY
Departamento de Geofísica, Universidad de Chile (2006) Estudio de la variabilidad climática en Chile para el siglo XXI. http://www.dgf.uchile.cl/ACT19/COMUNICACIONES/ OtrosTextos/articles-39442_pdf_Estudio_texto.pdf. Accessed 11 Jan 2010
Casassa G, Rivera A, Schwikowski M (2006) Glacier mass balance data for southern South America (30°S–56°S). In: Knight PG (ed) Glacier Science and Environmental Change, Blackwell, Oxford
Casassa G, Haeberli W, Jones G, Kaser G, Ribstein P, Rivera A, Schneider C (2007) Current status of Andean glaciers. Glob Planet Change 59:1–9
Garín C (1987) Inventario de Glaciares de los Andes Chilenos desde los 18° a los 32° de Latitud Sur. Revista Geogr Norte Gd 14:35–48
Ginot P, Kull C, Schwikowski M, Schotterer U, Gäggeler HW (2001) Effects of post-depositional processes on snow composition of a subtropical glacier (Cerro Tapado, Chilean Andes). J Geophys Res 106(D23):32375–32386
INE, Instituto Nacional de Estadísticas (2002) Censo Nacional de Población y Vivienda, Santiago, Chile
IPCC (2007) Summ for policymakers. In: Solomon S, Qin D, Manning M, Chen Z, Marquis M, Averyt KB, Tignor M, Miller HL (eds) Climate change 2007: the physical science basis. contribution of working group I to the 4th assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge
Kääb A, Paul F, Maisch M, Hoelzle M, Haeberli W (2002) The new remote sensing derived Swiss glacier inventory: II. First results. Ann Glaciol 34:362–366
Kull C, Grosjean M, Veit H (2002) Modelling modern and late pleistocene glacio-climatogological conditions in the North Chilean Andes (29°S–30°S). Clim Chan 52(3): 359–381
La Tercera-Orbe (2009) Consejo de ministros de Conama aprueba política nacional de glaciares. http://latercera.com/contenido/659_117909_9.shtml. Accessed 1 Aug 2009
Lemke P, Ren J, Alley R, Allison I, Carrasco J, Flato G, Fuji Y, Kaser G, Mote P, Thomas R, Zhang T (2007) Observations: changes in snow, ice and frozen ground. In: Solomon S, Qin D, Manning M, Chen Z Marquis M, Averyt KB, Tignor M, Miller HL (eds) Climate change 2007: the physical science basis. contribution of working group I to the 4th assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge
Lliboutry L (1956) Nieves y Glaciares de Chile Fundamentos de Glaciología, 1st edn. Ediciones de la Universidad de Chile, Santiago
Marín J, Nicholson L, Rabatel A, Castebrunet H, Garrido R, Novoa E (2008) Glacier inventory of the upper Huasco River Basin, Norte Chico, Chile. AVH4 Conference The Andes: challenge for geosciences. Santiago de Chile 24–28 Nov 2008
Miller M (1965) Inventory of terminal position changes in Alaskan Coastal Glaciers since the 1750’s. Proc Am Philos Soc 108 (3):257–273
MOP, Ministerio de Obras Publicas (2004) Diagnóstico y Clasificación de los Cursos y Cuerpos de Agua según objetivos de calidad: Cuenca del Río Huasco. Santiago de Chile. http://www.sinia.cl/1292/articles-31018_Huasco.pdf. Accessed 13 Jan 2010
Müeller F, Caflish T, Müeller G (1976) Firn und Eis der Schweizer Alpen, Gletscherinventar, vdf-Verlag, Zürich
Mueller F, Caflisch T, Mueller G (1977) Instructions for the compilation and assemblage of data for a World Glacier Inventory. Temporary technical secretariat for the World Glacier Inventory. Zurich, ETH Zurich
Nicholson L, Marín J, Lopez D, Rabatel A, Bown F, Rivera A (2009) Glacier inventory of the upper Huasco valley, Norte Chico, Chile: glacier characteristics, glacier change and comparison to central Chile. Ann Glaciol 50(53):111–118
Paul F (2001) Evaluation of different methods for glacier mapping using Landsat TM. In eProceedings EARSeL Workshop on Remote Sensing of Land Ice and Snow, Dresden, 16.-17.6.2000. 1, 239–245
Pellicciotti F, Helbing J, Rivera A, Favier V, Corripio J, Araos J, Sicart JE, Carenzo M (2008) A study of the energy balance and melt regime on Juncal Norte Glacier, semi-arid Andes of central Chile, using melt models of different complexity. Hydrol Process 22:3980–3997
Rabatel A, Castebrunet H, Favier V, Nicholson L. Behaviour of cold glaciers in the semi-arid Andes of Chile (29°S), results of a 6-year monitoring program. Unpublished
Racoviteanu A, Williams M, Barry R (2008) Optical remote sensing of glacier characteristics: a review with focus on the Himalaya. Sensors 8:3355–3383
Rau F, Mauz F, Vogt S, Singh Khalsa SJ, Raup B (2005) Illustrated GLIMS glacier classification manual; glacier classification guidance for the GLIMS glacier inventory. GLIMS regional center Antarctic Peninsula Version 1.0. http://www.glims.org/MapsAndDocs/assets/GLIMS_Glacier-Classification-Manual_V1_2005-02-10.pdf. Accessed 11 Jan 2010
Raup B, Kieffer, Hugh H, Hare, Trent M, Kargel J (2000) Generation of data acquisition requests for the ASTER satellite instrument for monitoring a globally distributed target: glaciers. IEEE Trans Geosci Remote Sens 38(2):1105–1112
Rignot E, Rivera A, Casassa G (2003) Contribution of the patagonia icefields of South America to global sea level rise. Sci 302:434–437
Rivera A, Acuña C, Casassa G, Bown F (2002) Use of remotely sensed and field data to estimate the contribution of Chilean glaciers to eustatic sea-level rise. Ann Glaciol 34:367–372
Rivera A, Casassa G (2004) Ice elevation, areal, and frontal changes of glaciers from national park Torres Del Paine, Southern Patagonia icefiled. Arct Antarct Alp Res 36(4):379–389
Rosemblüth B, Casassa G, Fuenzalida H (1997) Recent temperature variations in southern south America. Intern J Climatol 17:67–85
Suslov VF (1978) Utilization of glacier inventory in the USSR water cadastre. http://iahs.info/redbooks/a126/iahs_126_0139.pdf. Accessed 13 Jan 2010
UNESCO (1970) Perennnial ice and snow masses. A guide for compilation and assemblage of data for a World Glacier Inventory: UNESCO/IAHS Technical Papers in Hydrol1
Vaughan D, Marshall G, Connolley W, Parkinson C, Mulvaney R, Hodgson D, King J, Pudsey C, Turner J (2003) Recent rapid regional climate warming on the Antarctic Peninsula. Clim Chan 60:243–274
Young G, Ommanney C (1984) Canadian glacier hydrology and mass balance studies; a history of accomplishments and recommendations for future work. Geogr Ann Ser A Phys Geogr 66(3):169–182
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Special thanks to N Hoalst Pullen, MW Patterson and S MacDonell for their invaluable comments on earlier drafts of this manuscript.
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Marín, J., Araos, J. (2010). Glacier Inventory: A Case in Semiarid Chile. In: Hoalst-Pullen, N., Patterson, M. (eds) Geospatial Technologies in Environmental Management. Geotechnologies and the Environment, vol 3. Springer, Dordrecht. https://doi.org/10.1007/978-90-481-9525-1_6
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