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18 results on '"Galantowicz, John F."'

2. Contributors

Author

Ali, Hani, primary, Anderson, Tyler, additional, Bauer, Jean-Martin, additional, Bazo, Juan, additional, Bell, Veronica, additional, Brakenridge, G. Robert, additional, Casado, Mónica Rivas, additional, Ceola, Serena, additional, Chini, Marco, additional, Collischonn, Walter, additional, Dasgupta, Antara, additional, Demuzere, Matthias, additional, de Moraes Frasson, Renato Prata, additional, Dias de Paiva, Rodrigo Cauduro, additional, Dinga, Jéan Bienvenu, additional, Domeneghetti, Alessio, additional, Doyle, Colin, additional, Fialho Brêda, João Paulo, additional, Fleischmann, Ayan Santos, additional, Galantowicz, John F., additional, Gascoigne, Jonathon, additional, Glinskis, Emmalina, additional, Grimaldi, Stefania, additional, Ho, Jeff C., additional, Horna, Natalia, additional, Hostache, Renaud, additional, Kettner, A.J., additional, Khouakhi, Abdou, additional, Kruczkiewicz, Andrew, additional, Kugler, Zsofia, additional, Leinster, Paul, additional, Martinis, Sandro, additional, Mason, Jesse, additional, Matgen, Patrick, additional, Mazzoglio, Paola, additional, McClain, Shanna, additional, Muthusamy, Manoranjan, additional, N’diaye, Patrick Impeti, additional, Nghiem, Son. V., additional, Papa, Fabrice, additional, Pauwels, Valentijn R.N., additional, Picton, Jeff, additional, Rättich, Michaela, additional, Ramsankaran, RAAJ, additional, Ravanello, Mariane Moreira, additional, Rudorff, Conrado, additional, Schumann, Guy J-P., additional, Schwarz, Bessie, additional, Senol Cabi, Nalan, additional, Shen, X., additional, Tellman, Beth, additional, Thomson, Tina, additional, Vergara, Humberto, additional, Vu, William, additional, Walker, Jeffrey P., additional, Wang, Ruo-Qian, additional, Warrick, Olivia, additional, Weber, Sam, additional, Wieland, Marc, additional, and Zare, Mohammad, additional

Published
2021
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4. Discrepancies Between MODIS and ISCCP Land Surface Temperature Products Analyzed with Microwave Measurements

Author

Moncet, Jean-Luc, Liang, Pan, Lipton, Alan E, Galantowicz, John F, and Prigent, Catherine

Subjects
Earth Resources And Remote Sensing
Abstract

This paper compares land surface temperature (LST) products from the Moderate Resolution Imaging Spectroradiometer (MODIS) and the International Satellite Cloud Climatology Project (ISCCP). With both sources, the LST data are derived from infrared measurements. For ISCCP, LST is a secondary product in support of the primary cloud analyses, but the LST data have been used for several other purposes. The MODIS measurements from the Aqua spacecraft are taken at about 01:30 and 13:30 local time, and the ISCCP three-hourly data, based on several geostationary and polar orbiting satellites. were interpolated to the MODIS measurement times. For July 2003 monthly averages over all clear-sky locations, the ISCCP-MODIS differences were +5.0 K and +2.5 K for day and night, respectively, and there were areas with differences as large as 25 K. The day-night differences were as much as approximately 10 K higher for ISCCP than for MODIS. The MODIS measurements were more consistent with independent microwave measurements from AMSR-E, by several measures, with respect to day-night differences and day-to-day variations.

Published
2011
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5. Subsurface Emission Effects in AMSR-E Measurements: Implications for Land Surface Microwave Emissivity Retrieval

Author

Galantowicz, John F, Moncet, Jean-Luc, Liang, Pan, Lipton, Alan E, Uymin, Gennady, Prigent, Catherine, and Grassotti, Christopher

Subjects
Earth Resources And Remote Sensing
Abstract

An analysis of land surface microwave emission time series shows that the characteristic diurnal signature associated with subsurface emission in sandy deserts carry over to arid and semi-arid region worldwide. Prior work found that diurnal variation of Special Sensor Microwave/Imager (SSM/I) brightness temperatures in deserts was small relative to International Satellite Cloud Climatology Project land surface temperature (LST) variation and that the difference varied with surface type and was largest in sand sea regions. Here we find more widespread subsurface emission effects in Advanced Microwave Scanning Radiometer-EOS (AMSR-E) measurements. The AMSR-E orbit has equator crossing times near 01:30 and 13 :30 local time, resulting in sampling when near-surface temperature gradients are likely to be large and amplifying the influence of emission depth on effective emitting temperature relative to other factors. AMSR-E measurements are also temporally coincident with Moderate Resolution Imaging Spectroradiometer (MODIS) LST measurements, eliminating time lag as a source of LST uncertainty and reducing LST errors due to undetected clouds. This paper presents monthly global emissivity and emission depth index retrievals for 2003 at 11, 19, 37, and 89 GHz from AMSR-E, MODIS, and SSM/I time series data. Retrieval model fit error, stability, self-consistency, and land surface modeling results provide evidence for the validity of the subsurface emission hypothesis and the retrieval approach. An analysis of emission depth index, emissivity, precipitation, and vegetation index seasonal trends in northern and southern Africa suggests that changes in the emission depth index may be tied to changes in land surface moisture and vegetation conditions

Published
2011
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6. Land Surface Microwave Emissivities Derived from AMSR-E and MODIS Measurements with Advanced Quality Control

Author

Moncet, Jean-Luc, Liang, Pan, Galantowicz, John F, Lipton, Alan E, Uymin, Gennady, Prigent, Catherine, and Grassotti, Christopher

Subjects
Geophysics
Abstract

A microwave emissivity database has been developed with data from the Advanced Microwave Scanning Radiometer-EOS (AMSR-E) and with ancillary land surface temperature (LST) data from the Moderate Resolution Imaging Spectroradiometer (MODIS) on the same Aqua spacecraft. The primary intended application of the database is to provide surface emissivity constraints in atmospheric and surface property retrieval or assimilation. An additional application is to serve as a dynamic indicator of land surface properties relevant to climate change monitoring. The precision of the emissivity data is estimated to be significantly better than in prior databases from other sensors due to the precise collocation with high-quality MODIS LST data and due to the quality control features of our data analysis system. The accuracy of the emissivities in deserts and semi-arid regions is enhanced by applying, in those regions, a version of the emissivity retrieval algorithm that accounts for the penetration of microwave radiation through dry soil with diurnally varying vertical temperature gradients. These results suggest that this penetration effect is more widespread and more significant to interpretation of passive microwave measurements than had been previously established. Emissivity coverage in areas where persistent cloudiness interferes with the availability of MODIS LST data is achieved using a classification-based method to spread emissivity data from less-cloudy areas that have similar microwave surface properties. Evaluations and analyses of the emissivity products over homogeneous snow-free areas are presented, including application to retrieval of soil temperature profiles. Spatial inhomogeneities are the largest in the vicinity of large water bodies due to the large water/land emissivity contrast and give rise to large apparent temporal variability in the retrieved emissivities when satellite footprint locations vary over time. This issue will be dealt with in the future by including a water fraction correction. Also note that current reliance on the MODIS day-night algorithm as a source of LST limits the coverage of the database in the Polar Regions. We will consider relaxing the current restriction as part of future development.

Published
2011
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7. Freeze/thaw classification for prairie soils using SSM/I radiobrightnesses

Author

Judge, Jasmeet, Galantowicz, John F., England, A.W., and Dahl, P.

Subjects
Prairies -- Research, Soil research -- Methods, Frozen ground -- Research, Business, Earth sciences, Electronics and electrical industries
Abstract

Data from the Nimbus-7 Scanning Multichannel Microwave Radiometer (SMMR) have been used to classify snow-free soils in the northern Great Plains as either frozen or thawed. The technique is based on differing sensitivities among SMMR radiobrightness frequencies to liquid moisture and volume scattering in the upper few millimeters of bare soil. The SMMR is no longer active. A current near-equivalent is the Special Sensor Microwave/Imager (SSM/I). We demonstrate that SSM/I radiobrightnesses also exhibit differential sensitivities to liquid water and volume scattering in frozen soil despite their higher frequencies. We find that the best classification discriminants for SSM/I data are a combination of the 37-GHz V-poi radio-brightnesses and the 19-to-37-GHz V-pol spectral gradients. We also examine the sensitivity of the classification to atmospheric emission and absorption and find little effect.

Published
1997

8. Real Time Monitoring of Flooding from Microwave Satellite Observations

Author

Galantowicz, John F and Frey, Herb

Subjects
Earth Resources And Remote Sensing
Abstract

We have developed a new method for making high-resolution flood extent maps (e.g., at the 30-100 m scale of digital elevation models) in real-time from low-resolution (20-70 km) passive microwave observations. The method builds a "flood-potential" database from elevations and historic flood imagery and uses it to create a flood-extent map consistent with the observed open water fraction. Microwave radiometric measurements are useful for flood monitoring because they sense surface water in clear-or-cloudy conditions and can provide more timely data (e.g., compared to radars) from relatively wide swath widths and an increasing number of available platforms (DMSP, ADEOS-II, Terra, NPOESS, GPM). The chief disadvantages for flood mapping are the radiometers' low resolution and the need for local calibration of the relationship between radiances and open-water fraction. We present our method for transforming microwave sensor-scale open water fraction estimates into high-resolution flood extent maps and describe 30-day flood map sequences generated during a retrospective study of the 1993 Great Midwest Flood. We discuss the method's potential improvement through as yet unimplemented algorithm enhancements and expected advancements in microwave radiometry (e.g., improved resolution and atmospheric correction).

Published
2002

9. Real Time Monitoring of Flooding from Microwave Satellite Observations

Author

Galantowicz, John F and Frey, H

Subjects
Earth Resources And Remote Sensing
Abstract

In this report, we review the progress to date including results from data analyses and present a schedule of milestones for the remainder of the project. We discuss the processing of flood extent data and SSM/I brightness temperature data for the 1993 Midwest Flood. We present preliminary results from the derivation of open water fraction from brightness temperatures.

Published
2001

10. The radiobrightness thermal inertia measure of soil moisture

Author

England, Anthony W, Galantowicz, John F, and Schretter, Mindy S

Subjects
Earth Resources And Remote Sensing
Abstract

Radiobrightness thermal inertia (RTI) is proposed as a method for using day-night differences in satellite-sensed radiobrightness to monitor the moisture of Great Plains soils. Diurnal thermal and radiobrightness models are used to examine the sensitivity of the RTI method. Model predictions favor use of the 37.0 and 85.5 GHz, H-polarized channels of the Special Sensor Microwave/Imager (SSM/I). The model further predicts that overflight times near 2:00 AM/PM would be nearly optimal for RTI, that midnight/noon and 4:00 AM/PM are nearly as good, but that the 6:00 AM/PM overflight times of the current SSM/I are particularly poor. Data from the 37.0 GHz channel of the Scanning Multichannel Microwave Radiometer (SMMR) are used to demonstrate that the method is plausible.

Published
1992
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11. A Comparison of Ground-Based and Satellite-Borne Microwave Radiometric Observations in the Great Plains

Author

Judge, Jasmeet, Galantowicz, John F., and England, Anthony W.

Subjects
Radiometers -- Usage, Soil moisture -- Measurement, Scaling laws (Statistical physics) -- Usage, Business, Earth sciences, Electronics and electrical industries
Abstract

We compare ground-based and the special sensor microwave/imager (SSM/I) brightness temperatures at 19 and 37 GHz in the Northern and the Southern Great Plains. The comparison was conducted to examine season-related differences in plot-scale and satellite footprint-scale brightness temperatures at these frequencies. The ground-based observations were from the three Radiobrightness Energy Balance Experiments (REBEXs), viz., REBEX-1, REBEX-4, and REBEX-5. REBEX-1 and REBEX-4 were conducted near Sioux Falls, SD, in fall and winter 1992--93, and in summer 1996, respectively. REBEX-5 was conducted near Lamont, OK, during summer 1997 as part of the Southern Great Plains Hydrology Experiment-1997 (SGP'97). The instantaneous fields of view (FOV) of the ground-based radiometers were only a few meters compared to those of the SSM/I, which were several tens of kilometers. The REBEX and the SSM/I brightness temperatures are moderately correlated at both the 19 and 37 GHz. They match well during winter when there was uniform snow cover over the SSM/I footprint. During spring, summer, and fall, REBEX brightness temperatures at the grass-site were on average 18 K higher than the SSM/I brightness temperatures because the SSM/I footprint included nearby agricultural fields in summer and predominantly bare soil in fall and spring. During summer, REBEX-4 brightness temperatures at the bare soil site were on average 10 K cooler than the SSM/I brightness temperatures. In effect, the REBEX grass and bare soil brightness temperatures bracket the SSM/I observations with the SSM/I brightness temperatures lying closest to those of the bare soil. Index Terms--Microwave radiometry, radiobrightness, scaling, soil moisture.

Published
2001

12. Estimation of Soil-Type Heterogeneity Effects in the Retrieval of Soil Moisture from Radiobrightness

Author

Galantowicz, John F., Entekhabi, Dara, and Njoku, Eni G.

Subjects
Earth sciences -- Research, Remote sensing -- Research, Soil moisture -- Measurement, Radiation -- Measurement, Business, Earth sciences, Electronics and electrical industries
Abstract

We estimate the magnitude of the beam-filling error due to soil-type heterogeneity in the determination of sensor-footprint average soil moisture ([bar][[Theta].sub.f]) retrieved from remote L-band radiometer measurements. Sets of randomly chosen soils are given uniform initial wetness and are subjected to atmospheric drying over 15 days in a numerical model. Results indicate that soil heterogeneity contributes less than 0.7% volumetric soil-moisture error ([MATHEMATICAL EXPRESSION NOT REPRODUCIBLE IN ASCII]). Index Terms--Microwave radiometry, moisture models, soil coupled heat, soil moisture, spatial heterogeneity.

Published
2000

16. A land surface process/radiobrightness model with coupled heat and moisture transport for prairie grassland

Author

Liou, Yuei-An, Galantowicz, John F., and England, Anthony W.

Subjects
Soil moisture -- Research, Prairie flora -- Research, Heat -- Environmental aspects, Ecology -- Models, Business, Earth sciences, Electronics and electrical industries
Abstract

We present a biophysically based, one-dimensional hydrology/radiobrightness (1dH/R) model for prairie grassland that is subject to solar heating, radiant heating and cooling, precipitation, and sensible and latent heat exchanges with the atmosphere. The 1dH/R model consists of two modules, a one-dimensional hydrology (1dH) module that estimates the temperature and moisture profiles of the soil and the canopy and microwave emission module that predicts radiobrightness (R). We validate the 1dH/R model by comparing its predictions with data from a field experiment. The model was forced by meteorological and sky radiance data from our Radiobrightness Energy Balance Experiment (REBEX-1) on prairie grassland near Sioux Falls, SD, during the fall and winter of 1992-1993. Model predictions were compared with 995 consecutive REBEX-1 observations over a 14-day period in October. Average errors (predicted-measured) for canopy temperature are 1.1 K with a variance of 3.72 [K.sup.2], for soil temperatures at 2-, 4-, 8-, 16-, 32-, and 64-cm depths are 2 K with a variance of 4 [K.sup.2], and for H-polarized brightnesses are 0.06 K with a variance of 1.30 [K.sup.2] at 19 GHz and 6.01 K with a variance of 6.04 [K.sup.2] at 37 GHz. The model overestimates the 37.GHz brightness because we have not included scatter darkening within the vegetation canopy in the model. We use the 1dH/R model to simulate a 60-day dry-down of prairie grassland in summer. For grass with a column density of 3.7 kg/[m.sup.2] and soil with an initially uniform moisture content of 38% by volume, the upper 5 mm of soil dries to 27% by the end of the simulation. The corresponding L-band brightness increases from an initial 143 K to a final 163 K. In contrast, none of the special sensor microwave/imager (SSM/I) radiobrightnesses nor the radiobrightness thermal inertia (RTI) technique, either at L-band or at any SSM/I frequency, exhibits significant sensitivity to the soil dry-down.

Published
1999

17. Tests of sequential data assimilation for retrieving profile soil moisture and temperature from observed L-band radiobrightness

Author

Galantowicz, John F., Entekhabi, Dara, and Njoku, Eni G.

Subjects
Kalman filtering -- Usage, Soil moisture -- Research, Heat -- Environmental aspects, Soil temperature -- Research, Business, Earth sciences, Electronics and electrical industries
Abstract

Sequential data assimilation (Kalman filter optimal estimation) techniques are applied to the problem of retrieving near-surface soil moisture and temperature state from periodic terrestrial radiobrightness observations that update soil heat and moisture diffusion models. The retrieval procedure uses a time-explicit numerical model to continuously propagate the soil state profile, its error of estimation, and its interdepth covariances through time. The model's coupled soil moisture and heat fluxes are constrained by micrometeorology boundary conditions drawn from observations or atmospheric modeling. When radiometer data are available, the Kalman filter updates the state profile estimate by weighing the propagated state, error, and covariance estimates against an a priori estimate of radiometric measurement error. The Kalman filter compares predicted and observed radiobrightnesses directly, so no inverse algorithm relating brightness to physical parameters is required. We demonstrate Kalman filter model effectiveness using field observations and a simulation study. An observed 1 m soil state profile is recovered over an eight-day period from daily L-band observations following an intentionally poor initial state estimate. In a four-month simulation study, we gauge the longer term behavior of the soil state retrieval and Kalman gain through multiple rain events, soil dry-downs, and updates from radiobrightnesses. Index Terms - Data assimilation, Kalman filter, microwave radiometry, soil coupled heat and moisture models, soil moisture.

Published
1999

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