Cristián Mattar scite author profile

The El Niño-Southern Oscillation (ENSO) is the main driver of interannual climate extremes in Amazonia and other tropical regions. The current 2015/2016 EN event was expected to be as strong as the EN of the century in 1997/98, with extreme heat and drought over most of Amazonian rainforests. Here we show that this protracted EN event, combined with the regional warming trend, was associated with unprecedented warming and a larger extent of extreme drought in Amazonia compared to the earlier strong EN events in 1982/83 and 1997/98. Typical EN-like drought conditions were observed only in eastern Amazonia, whilst in western Amazonia there was an unusual wetting. We attribute this wet-dry dipole to the location of the maximum sea surface warming on the Central equatorial Pacific. The impacts of this climate extreme on the rainforest ecosystems remain to be documented and are likely to be different to previous strong EN events.

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Land Surface Temperature Retrieval Methods From Landsat-8 Thermal Infrared Sensor Data

Jiménez-Muñoz

Sobrino

Skokovic

et al. 2014

IEEE Geosci. Remote Sensing Lett.

674

367

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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

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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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An Improved Single-Channel Method to Retrieve Land Surface Temperature from the Landsat-8 Thermal Band

et al. 2018

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Land surface temperature (LST) is one of the sources of input data for modeling land surface processes. The Landsat satellite series is the only operational mission with more than 30 years of archived thermal infrared imagery from which we can retrieve LST. Unfortunately, stray light artifacts were observed in Landsat-8 TIRS data, mostly affecting Band 11, currently making the split-window technique impractical for retrieving surface temperature without requiring atmospheric data. In this study, a single-channel methodology to retrieve surface temperature from Landsat TM and ETM+ was improved to retrieve LST from Landsat-8 TIRS Band 10 using near-surface air temperature (T a) and integrated atmospheric column water vapor (w) as input data. This improved methodology was parameterized and successfully evaluated with simulated data from a global and robust radiosonde database and validated with in situ data from four flux tower sites under different types of vegetation and snow cover in 44 Landsat-8 scenes. Evaluation results using simulated data showed that the inclusion of T a together with w within a single-channel scheme improves LST retrieval, yielding lower errors and less bias than models based only on w. The new proposed LST retrieval model, developed with both w and T a , yielded overall errors on the order of 1 K and a bias of −0.5 K validated against in situ data, providing a better performance than other models parameterized using w and T a or only w models that yielded higher error and bias.

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Spatial and temporal patterns of the recent warming of the Amazon forest

et al. 2013

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[1] In recent years, several studies have addressed the response of Amazonian forests to drought by analyzing anomalies in vegetation indices retrieved from satellite sensors. Attention was paid to Amazonia because of two major droughts in 2005 and 2010, which were considered amongst the most severe in a century. These drought events have been associated with increased tree mortality and a temporary shutdown of the Amazon carbon sink. The mortality has been attributed to water stress anomalies, though an additional effect might have resulted from thermal anomalies. Variations in surface temperature are believed to be closely related to drought events, but very few studies have analyzed this variable over the Amazonian region.

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Emissivity mapping over urban areas using a classification-based approach: Application to the Dual-use European Security IR Experiment (DESIREX)

Sobrino

Oltra-Carrió

Jiménez-Muñoz

et al. 2012

International Journal of Applied Earth Observation and Geoinfor

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Atmospheric correction of optical imagery from MODIS and Reanalysis atmospheric products

Jiménez-Muñoz

Sobrino

Mattar

et al. 2010

Remote Sensing of Environment

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Impacts of the broadband albedo on actual evapotranspiration estimated by S-SEBI model over an agricultural area

Mattar

Franch

Sobrino

et al. 2014

Remote Sensing of Environment

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