Documenting, understanding and projecting changes in the hydrological cycle in the American cordillera (SGP-CRA 2047)

spg_cra2047
Imagen 1: Nothofagus pumilio forest devastated by fire in Estancia Canigó, Patagonia cra2047-first-science-meetingParticipants in the first science meeting of the SGP-CRA, Uspallata Argentina, April 21-25, 2013
Imagen 2: This image shows a millennial-aged, drought-stressed, Austrocedrus chilensis in the northern Patagonian Andes
Villalba et al., Nat Geosci., 5, (11), 793-798
Imagen 3: Participants in the first science meeting of the SGP-CRA, Uspallata Argentina, April 21-25, 2013
 

Project information


Principal investigator:
Brian H. Luckman (luckman@uwo.ca)
Department of Geography, University of Western Ontario, Canadá.  

This project follows the research started in CRN 2047, with the same title.

Executive summary Project status Investigators Students

Executive summary

Fresh water is an increasingly scarce resource in the warmer, more crowded world resulting from ongoing global changes. Mountain regions are the source of much of the water that sustains adjacent arid lowland communities in the Americas. They also provide good high resolution proxy archives that document long records of hydroclimate variability and the significant interrelationships between precipitation, runoff and the climatic variables that control these patterns over time. The project examines past and current changes in hydroclimate, snowpack and glaciers based on selected case studies from the American cordillera in western Canada, Mexico, the Altiplano and Southern South America using tree-ring data, precipitation and streamflow records, glacier studies and basin-wide hydrological balances. It investigates the causes, nature and range of hydroclimate variability from centennial to annual timescales, illustrates the impacts of these changes on society, and explores the implications of these changes for future water management in the adjacent lowlands.

Goals
Examine and develop contemporary and proxy climate and runoff data and their links with the dominant causes of climate and streamflow variability (ENSO, PDO, AAO, etc.) over the last ca. 300 years and assess whether these instrumental series are representative of climate and streamflow variability over the longer interval
Document and model mass loss from glaciers and their contributions to streamflow in selected areas
Assess modelled and projected future changes in precipitation and streamflow to test methodologies for quantitative assessments of climate-driven environmental impacts over the next 50-100 years
In conjunction with social scientists and water resource managers, assess the impact of these changes on economic and social activities and their implications for future water management scenarios, policies and institutional frameworks.

Activities and results
Scientific activities include the assembly of databases for streamflow, climate records, glacier fluctuations and mass balances in the target regions; selected monitoring projects; development of tree-ring chronologies and climate reconstructions of hydroclimate variables (precipitation, PDSI, streamflow, etc); training courses; publications and outreach activities.

Significant results include a drought reconstruction (Palmer Drought Severity Index, PDSI) for central Mexico (771-2008), a precipitation reconstruction for the Bolivian Altiplano (1226-2009), annual regional snowpack reconstruction for the Andes between 30-37°S (1150-2010), and 300 year-long reconstructions for four major rivers draining from the Southern Andes. We have also reconstructed the Antarctic Oscillation (AAO or Southern Annular Mode) from 1409 to 2006.

Project status

The project is a three-year extension of CRN 2047 (2006-2012). Details of activities, annual reports, etc. can be obtained from luckman@uwo.ca. The most recent Annual Reports are CRN 2047 Final report 10 August 2012 (347p), CRA2047 30 November, 2012 (110p).

Principal investigator and lead agency

Brian H. Luckman (luckman@uwo.ca)
Department of Geography, University of Western Ontario, Canadá

Co-Investigators
Jose Villanueva-Diaz (INIFAP, Mexico)
Ricardo Villalba (IANIGLA, Argentina)
Antonio Lara (Instituto de Silvicultura, Universidad Austral de Chile)
Juan Carlos Aravena (CEQUA, Chile)
James McPhee (Universidad de Chile)
and 14 Co-PIs

Students

Angela Bustos, PHD, Universidad Austral de Chile, Chile.
Claudia Guerrido, PHD, Universidad Austral de Chile, Chile.
Constanza Becerra, Master, Universidad Austral de Chile, Chile.
Daniela Rodriguez, Undergraduate, Universidad Austral de Chile, Chile.
Diego Aliste, Undergraduate, Universidad Austral de Chile, Chile.
Gabriel Cardoza, Master, Universidad Autonoma de Nuevo Leon, Mexico.
Karla Leal, Undergraduate, Universidad Austral de Chile, Chile.
Lorenzo Palma, Master, Universidad Nacional Autónoma de Mexico,
Marcos Cortes, PHD, Universidad Austral de Chile, Chile.
Marcos Raul Radins, Master, IANIGLA-CONICET, Argentina.
Mario Romero, PHD, Universidad Austral de Chile, Chile.
Mauricio Montriel, Master, Universidad Austral de Chile, Chile.
Mauro Britos, Master, IANIGLA-CONICET, Argentina.
Nayeli Cortes-barrera, Master, Universidad Autonoma de Tlaxcala, Mexico.
Omar Palacios, Master, Universidad Autonoma de Nuevo Leon, Mexico.
Oscar Concha, Undergraduate, Universidad Austral de Chile, Chile.
Pia Cardenas, Undergraduate, Universidad Austral de Chile, Chile.
Prisma Ruiz, Undergraduate, Universidad Autónoma Metropolitana, Mexico.
René Reyes, PHD, Agrupación de Ingenieros Forestales por el Bosque Nativo, Chile.
Teodoro, PHD, Universidad Nacional Autónoma de Mexico, Mexico.
Yasna Salazar, Undergraduate, Universidad Austral de Chile, Chile.