TEMPORAL RELATIONSHIP OF NDVI AND SEASONAL VEGETATION IN 
STRUCTURAL GRADIENT IN PERMANENT PLOTS 
H. N. Mesquita Jr M. ^ 
* M.D. Bitencourt b 
+ zh 
' beto@ib.usp.br; ’ tencourt@ib.usp.br 
Ecology Department, University of Säo Paulo 
Phone # 55-11-30917603 - Rua do Matäo, trav. 14, #321 
Säo Paulo - SP, Brazil, CEP 05508-900. 
Commission VII, WG VII/3: 
KEY WORDS: Remote Sensing, Vegetation, Modeling, Sampling, Ecosystem, IKONOS, Landsat, Temporal 
ABSTRACT: 
The relationship between remotely sensed data and vegetation has been the object of study for experts in both environmental remote 
sensing and plant ecology. 
One difficulty in establishing relationships between remotely sensed reflectance and vegetation is due to 
seasonal dynamics. The objectives of the study were to derive a model for the relationship between the variation of spectral response 
of the sensors, climate, and phenology of Cerrado. The site location is the Pé-de-Gigante, Brazil (21037'30" S, 4703730" W). Sensor 
spectral responses were analyse 
d. in the form of NDVI images from Ikonos-Multispectral, Landsat-TM e Terra-ASTER, l'erra- 
MODIS. Two years data of seasonal variation in NDVI images were compared with meteorological data and LAI and 
phytossociological parameters o 
climatologic parameters. A temporal series of nine Landsat-TM images and one I 
btained from 39 plots. The two year time series of fifteen days images were compared with 
konos- Multispectral and one Terra-ASTER were 
compared with the field data. The structural parameter with the highest overall correlation coefficient was the cylindrical volume. 
The best correlation coefficient of NDVI and LAI were obtained to Ikonos and Aster images (r = 0,74). A two year temporal series 
NDVI images were correlated with meteorological data to identify the phase lag over the vegetation structural gradient. The seasonal 
phase lag variation was lower with less structurally heterogeneous canopy and higher with high floristically heterogeneous canopy. 
The final results were achieved by the theoretical models of the seasonal variation of the veg 
the climate. 
1. INTRODUCTION 
The reflectance of the vegetation in the red depends on the 
present amount of clorofila in leves and the reflectance of the 
vegetation in the next infra-red ray, of the alive foliar structure. 
In this way, the IVDN has been mainly related with fitomassa 
foliar green, among others parameters of the vegetation. The 
vegetation indices are numerical models that relate the spectral 
reply of the vegetation with the density of vegetation for area, 
in sight of the antagonistic answers of the red and next infra-red 
ray. 
The Cerrado vegetation is the most seasonal vegetation in Säo 
Paulo state and the measurement of seasonal dynamics by 
orbital remote sensors was the object of this study. Cerrado 
vegetation has a characteristic physiognomic — gradient 
determined by the proportion of herbaceous and arboreal 
components. The objectives of the study were to derive a model 
for the relationship between the variation of spectral response of 
the sensors, climate, and phenology of Cerrado. 
Amongst the spectral indices of vegetation, the IVDN (index of 
vegetation for normalized difference) is more widely used for 
the study of the continental vegetation. The first works with the 
IVDN presented correlation with biomass of agroecossistemas 
and homogeneous vegetations (Tucker, 1979; Anderson et al, 
  
  
Corresponding author. 
setation physiognomies, conditioned by 
1993) and with the amount of water in the leaf (Tucker, 1980). 
The pioneering works in Brazil with the use of the IVDN had 
searched to evidence the existing correlations between 
fitomassa of the open pasture and the observed spectral reply in 
orbital level through indices of vegetation (Bitencourt-Pereira, 
1986: Valeriano & Bitencourt-Pereira, 1988; Santos, 1988). 
’articulary in Brazil, Bitencourt-Pereira (1986) and Santos 
(1988) had made a calibration of the vegetation index, 
respectively, with the cerrado stricto sensu (s.s.). and the campo 
cerrado of central plateaus of Brasil. The first author related 
green fitomass with the spectral signature gotten by the 
Landsat-MSS and with radiometry of field, and found 
coefficients of linear correlation of 0,94 and 0,96 respectively. 
Beyond the biomass, the fraction of covering of the vegetation 
frequently was related to the IVDN (Jasinski, 1990), as much in 
opened savannahs (Larsson, 1993), as in denser forests (DeFries 
et al., 1997). Another parameter of the structure that frequently 
is associated with the IVDN is the index of foliar area (TAF), 
that it can be esteem with use of optic sensors, based in the 
fraction of light intercepted for the canopy (Chen 1996a and 
1996b; White ef al., 1998; Eklundh ef af., 2001). Other 
parameters, as density and basal area, also are associates to this 
index. D'Arrigo er al. (2000) had related the annual variations 
of long temporal series of IVDN with growth's rings of species 
of boreal forests. 
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