Informations et ressources scientifiques
sur le développement des zones arides et semi-arides

Accueil du site → Master → Etats Unis → 2011 → Differences in drought sensitivity among prairie communities and among management histories : A remote sensing analysis of 221 prairies in the northern Great Plains

Michigan State University (2011)

Differences in drought sensitivity among prairie communities and among management histories : A remote sensing analysis of 221 prairies in the northern Great Plains

Morrice, Jarrod J

Titre : Differences in drought sensitivity among prairie communities and among management histories : A remote sensing analysis of 221 prairies in the northern Great Plains

Auteur : Morrice Jarrod J.

Etablissement de soutenance : Michigan State University

Grade : Master of Science (MS) 2011

Résumé
The relationship between primary production and precipitation in grasslands has long been an issue of great interest both to ecologists and managers who graze livestock and/or maintain conservation properties. Data from remote sensors are now obtained at higher spatial resolutions on a near daily basis providing new methods to explore broad scale relationships between grassland production and moisture availability. To promote remote sensing-based analysis of grasslands in North America, I developed the Prairie Spatial Database (PSD) for the northern Great Plains. To develop the PSD, I obtained geospatial coordinates and ecological data from conservation managers for 261 prairies. Sites were filtered for suitability for remote sensing studies, and 221 were selected for further analysis ; representing a mix of shortgrass, mixedgrass, and tallgrass prairie types and different C3/C4 dominances. Using time series weather data (PRISM), I next derived Palmer’s Drought Severity Index (PDSI) values and produced a time series of normalized difference vegetation index (NDVI) values for each site for 2000 - 2008 from the Moderate Resolution Imaging Spectroradiometer (MODIS). Mixed modeling techniques allowed me next to compare the influence of soil moisture on growing season time integrated NDVI (TINDVI) and maximum NDVI across prairie types. Selection of best-fit models highlighted the contingency of biomass production on soil moisture availability and a hidden relationship between TINDVI and soil moisture within tallgrass prairies.

Présentation

Version intégrale

Page publiée le 13 mai 2012, mise à jour le 29 août 2017