Your search keyword '"Quattrochi, Dale"' showing total 3 results

1. Using Landsat, MODIS, and a Biophysical Model to Evaluate LST in Urban Centers.

Author

Al-Hamdan, Mohammad Z., Quattrochi, Dale A., Bounoua, Lahouari, Lachir, Asia, and Ping Zhang

Subjects

*LAND surface temperature, *LANDSAT satellites, *MODIS (Spectroradiometer), *URBAN heat islands, *GEOPHYSICAL surveying services, *REMOTE sensing

Abstract

In this paper, we assessed and compared land surface temperature (LST) in urban centers using data from Landsat, MODIS, and the Simple Biosphere model (SiB2). We also evaluated the sensitivity of the model's LST to different land cover types, fractions (percentages), and emissivities compared to reference points derived from Landsat thermal data. This was demonstrated in three climatologically- and morphologically-different cities of Atlanta, GA, New York, NY, andWashington, DC. Our results showed that in these cities SiB2 was sensitive to both the emissivity and the land cover type and fraction, but much more sensitive to the latter. The practical implications of these results are rather significant since they imply that the SiB2 model can be used to run different scenarios for evaluating urban heat island (UHI) mitigation strategies. This study also showed that using detailed emissivities per land cover type and fractions from Landsat-derived data caused a convergence of the model results towards the Landsat-derived LST for most of the studied cases. This study also showed that SiB2 LSTs are closer in magnitude to Landsat-derived LSTs than MODIS-derived LSTs. It is important, however, to emphasize that both Landsat and MODIS LSTs are not direct observations and, as such, do not represent a ground truth. More studies will be needed to compare these results to in situ LST data and provide further validation. [ABSTRACT FROM AUTHOR]

Published

2016

2. Supporting Global Environmental Change Research: A Review of Trends and Knowledge Gaps in Urban Remote Sensing.

Author

Wentz, Elizabeth A., Anderson, Sharolyn, Fragkias, Michail, Netzband, Maik, Mesev, Victor, Myint, Soe W., Quattrochi, Dale, Rahman, Atiqur, and Seto, Karen C.

Subjects

KNOWLEDGE gap theory, URBAN remote sensing, URBANIZATION, GLOBAL environmental change, ATMOSPHERIC models, INFORMATION storage & retrieval systems

Abstract

This paper reviews how remotely sensed data have been used to understand the impact of urbanization on global environmental change. We describe how these studies can support the policy and science communities' increasing need for detailed and up-to-date information on the multiple dimensions of cities, including their social, biological, physical, and infrastructural characteristics. Because the interactions between urban and surrounding areas are complex, a synoptic and spatial view offered from remote sensing is integral to measuring, modeling, and understanding these relationships. Here we focus on three themes in urban remote sensing science: mapping, indices, and modeling. For mapping we describe the data sources, methods, and limitations of mapping urban boundaries, land use and land cover, population, temperature, and air quality. Second, we described how spectral information is manipulated to create comparative biophysical, social, and spatial indices of the urban environment. Finally, we focus how the mapped information and indices are used as inputs or parameters in models that measure changes in climate, hydrology, land use, and economics. [ABSTRACT FROM AUTHOR]

Published

2014

3. Correlating Remote Sensing Data with the Abundance of Pupae of the Dengue Virus Mosquito Vector, Aedes aegypti, in Central Mexico.

Author

Moreno-Madriñán, Max J., Crosson, William L., Eisen, Lars, Estes, Sue M., Estes Jr., Maurice G., Hayden, Mary, Hemmings, Sarah N., Irwin, Dan E., Lozano-Fuentes, Saul, Monaghan, Andrew J., Quattrochi, Dale, Welsh-Rodriguez, Carlos M., and Zielinski-Gutierrez, Emily

Subjects

MODIS (Spectroradiometer), REMOTE sensing, TRANSECT method, DENGUE viruses, AEDES aegypti, LAND surface temperature

Abstract

Using a geographic transect in Central Mexico, with an elevation/climate gradient, but uniformity in socio-economic conditions among study sites, this study evaluates the applicability of three widely-used remote sensing (RS) products to link weather conditions with the local abundance of the dengue virus mosquito vector, Aedes aegypti (Ae. aegypti). Field-derived entomological measures included estimates for the percentage of premises with the presence of Ae. aegypti pupae and the abundance of Ae. aegypti pupae per premises. Data on mosquito abundance from field surveys were matched with RS data and analyzed for correlation. Daily daytime and nighttime land surface temperature (LST) values were obtained from Moderate Resolution Imaging Spectroradiometer (MODIS)/Aqua cloud-free images within the four weeks preceding the field survey. Tropical Rainfall Measuring Mission (TRMM)-estimated rainfall accumulation was calculated for the four weeks preceding the field survey. Elevation was estimated through a digital elevation model (DEM). Strong correlations were found between mosquito abundance and RS-derived night LST, elevation and rainfall along the elevation/climate gradient. These findings show that RS data can be used to predict Ae. aegypti abundance, but further studies are needed to define the climatic and socio-economic conditions under which the correlations observed herein can be assumed to apply. [ABSTRACT FROM AUTHOR]

Published

2014