GIMMS NDVI time series reveal the extent, duration, and intensity of “blooming desert” events in the hyper-arid Atacama Desert, Northern Chile
Author:
Funder
CONICYT PAI
Fondecyt Iniciación
Fondecyt
FONDAP Chile
Publisher
Elsevier BV
Subject
Management, Monitoring, Policy and Law,Computers in Earth Sciences,Earth-Surface Processes,Global and Planetary Change
Reference62 articles.
1. Plant communities of the fog-free coastal desert of Chile: plant strategies in a fluctuating environment;Armesto;Rev. Chil. Hist. Nat.,1993
2. Detection area with flowering desert in the territory of the Shifting Sands of Atacama, using remote sensing | Detección del área con desierto florido en el territorio del Mar de Dunas de Atacama, mediante percepción remota;Avaria;Rev. Geogr. Norte Gd.,2014
3. Chile’s Atacama Desert: World’s Driest Place in Bloom After Surprise Rain;BBC,2017
4. DENDROCLIM2002: a C++ program for statistical calibration of climate signals in tree-ring chronologies;Biondi;Comput. Geosci.,2004
5. Impacts of heavy rainfalls in El Niño 1997/98 on the vegetation of Sechura Desert in Northern Peru (a preliminary report);Block;Phytocoenologia,2000
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