Dates: 26-31 August 2018

Location: University of Birmingham UK

Class Description

Photo: Nino Amvrosiadi

Course Overview

The Catchment Science Summer School is a 5-day short course that is intended for post-graduate students and post-docs interested in a hands-on catchment science curriculum, focusing on northern catchments, runoff processes and combined hydrometric, isotope/chemical tracer and modeling techniques in catchment hydrology. The learning objectives for this short course are to understand:

  • Rainfall-runoff processes
  • Rainfall-runoff model development, use, and testing
  • Hydrochemical and isotopic measurement and analyses
  • Linking field experiments with modeling approaches
  • Evolution of empirical and theoretical understanding of runoff processes
  • Landscape analysis, land-use and climate change impacts on streamflow 

Enrollment in the class is limited to 30 students. Our aim is for a hands-on course experience with a low student-teacher ratio.

Course Coordinator

Dr. Jeff McDonnell (University of Saskatchewan and University of Birmingham)

Course Instructors

Course instructors bring a broad spectrum of experience and knowledge from a variety of universities with water programs. This course is an excellent opportunity for professional networking and planning next-steps in your career.

Dr. Jeff McDonnell (University of Saskatchewan and University of Birmingham)

Dr. Chris Soulsby (University of Aberdeen)

Dr. Jan Seibert (University of Zurich) Dr. Ilja van Meerveld (University of Zurich)
Dr. David Hannah (University of Birmingham) Dr. Stefan Kraus (University of Birmingham)

Instructor Alumni

Dr. Jossie Geris (University of Aberdeen) Dr. Rick Hooper (CUAHSI, USA)
Dr. Doerthe Tetzlaff (University of Aberdeen) Dr. Keith Beven (Lancaster University)

Course Materials

Required reading for evening discussions:

For Monday:

  • Beven, K.J. (2006) "Introduction" in Streamflow Generation Processes: Benchmark Papers in Hydrology. IAHS, Wallingford.
  • Mosley, M.P. (1979) Streamflow generation in a forested watershed, New Zealand, Water Resources Research 15: 795-806.
  • Sklash, M.G. and Farvolden, R.N. (1979) The role of groundwater in storm runoff, Journal of Hydrology 43: 45-65.
  • Pearce, A.J., Stewart, M.K., Sklash, M.G. (1986) Storm runoff generation in humid headwater catchments: 1. Where does the water come from? Water Resources Research 22, 1263–1272.
  • Sklash, M.G., Stewart, M.K., Pearce, A.J. 1986. Storm Runoff Generation in Humid Headwater Catchments: 2. A Case Study of Hillslope and Low-Order Stream Response. Water Resources Research 22(8), 1273–1282, DOI: 10.1029/WR022i008p01273.

These papers will be made available via dropbox, a link for which will be emailed to the class.

Additional reading material:

Students with little background in hydrology should also read Hewlett, J.D. (1982) Principles of Forest Hydrology. The University of Georgia Press, Athens. (particularly read chapters 5 and 7). This will also be made available via dropbox.

Wednesday all-day field trip:

The class will visit the Birmingham Institute of Forest Research BIFoR FACE during the all-day field trip. Information and videos about the research site can be accessed Here.

Accommodation and Transportation

Students will need to make their own accommodation arrangements.

Information about on-campus accommodation can be found on the course information page Here.

Information about traveling to campus can be found on the University of Birmingham website.

Please plan to arrive in Birmingham on Sunday, Aug 26 in time for an introductory talk and reception at 4 pm. Course teaching will commence at 9 am on Monday, Aug 27 and continue through to Friday, Aug 31 at 4 pm.

Cost and Registration

The tuition cost for the course is £499.

This cost covers field trip transportation, daily coffee breaks, and a Wednesday evening conference dinner.

Registration details

Registration can be found Here.

Photos: Sim Reaney & Bjorn Thomas