Monitoring global vegetation with the Yearly Land Cover Dynamics (YLCD) method

Author

Julien, Yves ; Sobrino, Jose A.

Author_Institution

Imaging & Process. Lab., Univ. of Valencia, Valencia, Spain

fYear

2011

fDate

12-14 July 2011

Firstpage

121

Lastpage

124

Abstract

Global vegetation has been traditionally monitored mainly through the use of the Normalized Difference Vegetation Index (NDVI). Land surface temperature (LST) provides additional information, and is generally less affected by atmospheric conditions when water vapor is taken into account. The Yearly Land Cover Dynamics (YLCD) method can then be used to retrieve 3 parameters which allow for a good differentiation between biomes at the global and local levels. Using NASA´s Long Term Data Record (LTDR), the YLCD method has been applied to IDR (iterative Interpolation for Data Reconstruction) reconstructed LTDR data, in order to account for atmospheric contamination of part of the dataset for a few selected pixels. The evolution of the retrieved YLCD parameters is monitored throughout the 20-year span of the LTDR dataset.

Keywords

atmospheric humidity; land surface temperature; vegetation mapping; LTDR data; LTDR dataset; NASA Long Term Data Record; YLCD method; atmospheric conditions; atmospheric contamination; global vegetation; iterative Interpolation for Data Reconstruction; land surface temperature; normalized difference vegetation index; vegetation monitoring; water vapor; yearly land cover dynamics; Earth; Land surface temperature; Monitoring; Remote sensing; Satellites; Temperature sensors; Vegetation mapping; LST; NDVI; Yearly Land Cover Dynamics (YLCD); vegetation monitoring;

fLanguage

English

Publisher

ieee

Conference_Titel

Analysis of Multi-temporal Remote Sensing Images (Multi-Temp), 2011 6th International Workshop on the

Conference_Location

Trento

Print_ISBN

978-1-4577-1202-9

Type

conf

DOI

10.1109/Multi-Temp.2011.6005063

Filename

6005063