SUNConferences, New Frontiers in Forecasting Forests 2018

Font Size: 
A MODEL TO ESTIMATE LEAF AREA INDEX IN LOBLOLLY PINE PLANTATIONS IN THE SOUTHEAST UNITED STATES USING GROUND BASED MEASUREMENTS AND SATELLITE DATA
Stephen M Kinane, Cristian R Montes

##manager.scheduler.building##: Wallenburg Research Centre (STIAS)
##manager.scheduler.room##: Main auditorium
Date: 2018-09-26 11:50 AM – 11:55 AM
Last modified: 2018-05-08

Keywords


Leaf area index, loblolly pine

References


Albaugh, T. J., Allen, H. L., Dougherty, P. M., Kress, L. W., & King, J. S. (1998). Leaf Area and Above- and Belowground Growth Responses of Loblolly Pine to Nutrient and Water Additions. Forest Science, 44(2), 317–328.

Flores, F. J., Allen, H. L., Cheshire, H. M., Davis, J. M., Fuentes, M., & Kelting, D. (2006). Using multispectral satellite imagery to estimate leaf area and response to silvicultural treatments in loblolly pine stands. Canadian Journal of Forest Research, 36(6), 1587–1596.

Grier, C. G., & Running, S. W. (1977). Leaf Area of Mature Northwestern Coniferous Forests: Relation to Site Water Balance. Ecology, 58(4), 893–899.

Peduzzi, A., Wynne, R. H., Fox, T. R., Nelson, R. F., & Thomas, V. A. (2012). Forest Ecology and Management Estimating leaf area index in intensively managed pine plantations using airborne laser scanner data. Forest Ecology and Management, 270, 54–65.

Sampson, D. A., Albaugh, T. J., Johnsen, K. H., Allen, H. L., & Zarnoch, S. J. (2003). Monthly leaf area index estimates from point-in-time measurements and needle phenology for Pinus taeda. Canadian Journal of Forest Research-Revue Canadienne De Recherche Forestiere, 33(12), 2477–2490.


An account with this site is required in order to view papers. Click here to create an account.