American Geophysical Union -- Session ID# 8983 Description: Gaining a predictive understanding of dynamic ecosystem and hydrological processes in watersheds involves complex surface and subsurface hydrology, biogeochemistry, and vegetation dynamics. Heterogeneous properties and responses are needed in sufficiently detailed spatial and temporal resolution. However, properties and responses must be averaged, translated, and/or upscaled to integrate over the entire watershed or watersheds. While there has been some progress towards developing multi-scale approaches to understand and predict watershed-scale behavior, the community still struggles to extrapolate knowledge beyond the point scale. However, advances in technology and interdisciplinary cooperation are changing this trend.
Dear CZEN Members,
It's that time of year when the abstract submission deadline for the AGU Fall Meeting is looming large on the horizon; at this time it is just a week away (5 August)!
Register your views on the draft science agenda and next steps for organizing international CZO research
An international meeting of Critical Zone (CZ) researchers supported by the US NSF and the European Commission FP7 project SoilTrEC met at the University of Delaware during November 2011. The meeting summarised international advances in CZ science and took the initial steps towards forming an international Critical Zone Observatory (CZO) research programme and a 10-year CZ science agenda. The full report from that meeting has been published by the University of Sheffield, United Kingdom, and is now available for download.
We invite public input on the 1-page outline plan for developing an international CZO research programme.
- view the 1-page outline (pdf)
- czen.org members can provide and view others' feedback by using the links below
Thank you in advance for your participation in this consultation.