Y. Julien scite author profile

A double logistic function has been used to describe global inventory mapping and monitoring studies (GIMMS) normalized difference vegetation index (NDVI) yearly evolution for the 1981 to 2003 period, in order to estimate land surface phenology parameter. A principal component analysis on the resulting time series indicates that the first components explain 36, 53 and 37% of the variance for the start, end and length of growing season, respectively, and shows generally good spatial homogeneity. Mann-Kendall trend tests have been carried out, and trends were estimated by linear regression. Maps of these trends show a global advance in spring dates of 0.38 days per year, a global delay in autumn dates of 0.45 days per year and a global increase of 0.8 days per year in the growing seasons validated by comparison with previous works. Correlations between retrieved phenological parameters and climate indices generally showed a good spatial coherence.

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Changes in land surface temperatures and NDVI values over Europe between 1982 and 1999

Julien

Sobrino

Verhoef

2006

Remote Sensing of Environment

227

131

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Evaluation of the surface urban heat island effect in the city of Madrid by thermal remote sensing

Sobrino

Oltra-Carrió

Sòria

et al. 2012

International Journal of Remote Sensing

113

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The surface urban heat island (SUHI) effect is defined as the increased surface temperatures in urban areas in contrast to cooler surrounding rural areas. In this article, the evaluation of the SUHI effect in the city of Madrid (Spain) from thermal infrared (TIR) remote-sensing data is presented. The data were obtained from the framework of the Dual-use European Security IR Experiment (DESIREX) campaign that was carried out during June and July 2008 in Madrid. The campaign combined the collection of airborne hyperspectral and in situ measurements. Thirty spectral and spatial high-resolution images were acquired with the Airborne Hyperspectral Scanner (AHS) sensor in a 11, 21, and 4 h UTC scheme. The imagery was used to retrieve the SUHI effect by applying the temperature and emissivity separation (TES) algorithm. The results show a nocturnal SUHI effect with a highest value of 5 K. This maximum value agrees within 1 K with the highest value of the urban heat island (UHI) observed using air temperature data (AT). During the daytime, this situation is reversed and the city becomes a negative heat island.

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Comparison of cloud-reconstruction methods for time series of composite NDVI data

Julien

Sobrino

2010

Remote Sensing of Environment

200

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The Yearly Land Cover Dynamics (YLCD) method: An analysis of global vegetation from NDVI and LST parameters

Julien

Sobrino

2009

Remote Sensing of Environment

125

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Y. Julien

Global land surface phenology trends from GIMMS database

Changes in land surface temperatures and NDVI values over Europe between 1982 and 1999

Evaluation of the surface urban heat island effect in the city of Madrid by thermal remote sensing

Comparison of cloud-reconstruction methods for time series of composite NDVI data

The Yearly Land Cover Dynamics (YLCD) method: An analysis of global vegetation from NDVI and LST parameters

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