Thrust Areas Ecosystem Water Institute Classification Level
Water, Land Use and Ecosystems Water and Climate Water and Society Water Resources Sustainability Springs Wetlands Watersheds Aquifers Lakes Coastal Zone  Water Institute Classification 1  Water Institute Classification 2  Water Institute Classification 3  Water Institute Classification 4
     

Rapid Assessment of Restoration Performance Measures at Multiple Scales in the Greater Everglades Using Near Infrared Reflectance Spectroscopy
Contract No:  56923
Goals and Objectives
 
As the Comprehensive Everglades Restoration Plan (CERP) reformulates the Greater Everglades ecosystem in an attempt to restore more historical processes, metrics of recovery are paramount, both for status reporting and adaptive management. In many respects, soils are a useful ecosystem performance measure: they change at time scales well-suited to large-area diagnostic surveillance, are sensitive to numerous stressors, and integrate ecological processes. Soil properties cannot be inferred remotely because of vegetation cover, so this project explores the feasibility of using high-resolution diffuse reflectance spectroscopy (DRS) for sample analysis at reduced costs in the Greater Everglades. This project explored the use of an emerging optical technique for the measurement of soil properties. Near infrared spectroscopy is increasingly viewed as a low cost, high throughput, high precision alternative to conventional soil analytical approaches, and is particularly useful in the context of large-area surveillance where adequate sampling density is often cost-prohibitive. We used over 3000 soils from the Greater Everglades to create the models that relate reflectance information to soil properties. Successful calibrations were observed for organic matter, soil nitrogen, soil total phosphorus, soil calcium, and soil organic matter quality (fiber fractionation).
 
Planned Outputs
Final Report
Journal Articles
 
Available Outputs

Title: Rapid Assessment of Restoration Performance Measures at Multiple Scales in the Greater Everglades using Near Infrared Reflectance Spectroscopy (NIRS)
Authors: Cohen, M.J., S. Grunwald, M.W. Clark, K.R. Reddy
Project Lead
Cohen, Matthew J
 
Project Participants
Cohen, Matthew J
 
Additional Participants
Jean-Claude Bonzongo
Mark Clark
Sabine Grunwald
Konda Ramesh Reddy
 
EcoSystem:
Wetlands
 
WIClassLevel: 
Level 1: WI Affiliated Faculty Project
 
ThrustArea: 
Water, Land Use and Ecosystems
 
Sponsor
US DEPT OF INTERIOR NATL PARK SERVICE
 
Grant Award Dates
4/14/2005 to 6/30/2007