38 results on '"Cammalleri, C"'
Search Results
2. Micrometeorological and sap flow measurement of energy and mass exchanges of woody crops in a Mediterranean environment
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Motisi, A., Consoli, S., Rossi, F., Cammalleri, C., Papa, R., Giovanni Rallo, D’urso, G., Motisi, A, Consoli, S, Rossi, F, Cammalleri, C, Papa, R, Rallo, G, and D’Urso, G
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Settore AGR/03 - Arboricoltura Generale E Coltivazioni Arboree ,sap-flow, eddy covariance, Mediterranean environment, woody crops ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali - Published
- 2011
3. Modellazione in continuo dell’umidità del suolo e dell’evapotraspirazione effettiva mediante l’uso di un modello accoppiato energetico/idrologico
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Cammalleri, C., Agnese, Ciraolo, G., La Loggia, G., Minacapilli, M., Provenzano, G., Giovanni Rallo, CAMMALLERI, C, AGNESE, C, CIRAOLO, G, LA LOGGIA, G, MINACAPILLI, M, PROVENZANO, G, and RALLO, G
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bilancio energetico superficiale ,misure scintillometriche ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,bilancio idrologico ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,evapotraspirazione effettiva ,colture olivicole - Published
- 2010
4. Mapping daily evapotranspiration at field to continental scales using geostationary and polar orbiting satellite imagery
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John M. Norman, Martha C. Anderson, Agustin Pimstein, William P. Kustas, Feng Gao, John R. Mecikalski, Lori Schultz, María P. González-Dugo, Carmelo Cammalleri, Christopher Hain, Guido D'Urso, Anderson, MC, Kustas, WP, Norman, JM, Hain, CR, Mecikalski, JR, Schultz, L, González-Dugo, MP, Cammalleri, C, D’urso, G, Pimstein, A, Gao, F, Anderson, M. C., Kustas, W. P., Norman, J. M., Hain, C. R., Mecikalski, J. R., Schultz, L., Gonzalez Dugo, M. P., Cammalleri, C., D'Urso, Guido, Pimstein, A., and Gao, F.
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lcsh:GE1-350 ,Meteorology ,lcsh:T ,Planetary boundary layer ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,lcsh:Geography. Anthropology. Recreation ,Polar orbit ,Vegetation ,lcsh:Technology ,remote sensing, mapping ET, ALEXI ,lcsh:TD1-1066 ,Normalized Difference Vegetation Index ,lcsh:G ,Evapotranspiration ,Geostationary orbit ,Environmental science ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Satellite ,Satellite imagery ,lcsh:Environmental technology. Sanitary engineering ,lcsh:Environmental sciences ,Remote sensing - Abstract
Thermal infrared (TIR) remote sensing of land-surface temperature (LST) provides valuable information about the sub-surface moisture status required for estimating evapotranspiration (ET) and detecting the onset and severity of drought. While empirical indices measuring anomalies in LST and vegetation amount (e.g., as quantified by the Normalized Difference Vegetation Index; NDVI) have demonstrated utility in monitoring ET and drought conditions over large areas, they may provide ambiguous results when other factors (e.g., air temperature, advection) are affecting plant functioning. A more physically based interpretation of LST and NDVI and their relationship to sub-surface moisture conditions can be obtained with a surface energy balance model driven by TIR remote sensing. The Atmosphere-Land Exchange Inverse (ALEXI) model is a multi-sensor TIR approach to ET mapping, coupling a two-source (soil + canopy) land-surface model with an atmospheric boundary layer model in time-differencing mode to routinely and robustly map daily fluxes at continental scales and 5 to 10-km resolution using thermal band imagery and insolation estimates from geostationary satellites. A related algorithm (DisALEXI) spatially disaggregates ALEXI fluxes down to finer spatial scales using moderate resolution TIR imagery from polar orbiting satellites. An overview of this modeling approach is presented, along with strategies for fusing information from multiple satellite platforms and wavebands to map daily ET down to resolutions on the order of 10 m. The ALEXI/DisALEXI model has potential for global applications by integrating data from multiple geostationary meteorological satellite systems, such as the US Geostationary Operational Environmental Satellites, the European Meteosat satellites, the Chinese Fen-yung 2B series, and the Japanese Geostationary Meteorological Satellites. Work is underway to further evaluate multi-scale ALEXI implementations over the US, Europe, Africa and other continents with geostationary satellite coverage.
- Published
- 2011
5. The impact of in-canopy wind profile formulations on heat flux estimation using the remote sensing-based two-source model for an open orchard canopy in southern Italy
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C. Cammalleri, M. C. Anderson, G. Ciraolo, G. D'Urso, W. P. Kustas, G. La Loggia, M. Minacapilli, CAMMALLERI, C, ANDERSON, MC, CIRAOLO, G, D’URSO, G, KUSTAS, WP, LA LOGGIA, G, MINACAPILLI, M, Cammalleri, C., Anderson, M. C., Ciraolo, G., D'Urso, Guido, Kustas, W., La Loggia, G., and Minacapilli, M.
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remote sensing ,aerodinamic canopy resistance ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,surface energy fluxe ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,energy balance ,open orchard canopy - Abstract
For open orchard and vineyard canopies containing significant fractions of exposed soil (>50%), typical of Mediterranean agricultural regions, the energy balance of the vegetation elements is strongly influenced by heat exchange with the bare soil/substrate. For these agricultural systems a "two-source" approach, where radiation and turbulent exchange between the soil and canopy elements are explicitly modelled, appears to be the only suitable methodology for reliably assessing energy fluxes. In strongly clumped canopies, the effective wind speed profile inside and below the canopy layer can highly influence the partitioning of energy fluxes between the soil and vegetation components. To assess the impact of in-canopy wind profile on model flux estimates, an analysis of three different formulations is presented, including algorithms from Goudriaan (1977), Massman (1987) and Lalic et al. (2003). The in-canopy wind profile formulations are applied to the thermal-based Two-Source Energy Balance (TSEB) model developed by Norman et al. (1995) and modified by Kustas and Norman (1999). High resolution airborne remote sensing images, collected over an agricultural area located in the western part of Sicily (Italy) comprised primarily of vineyards, olive and citrus orchards, are used to derive all the input parameters need to apply the TSEB. The images were acquired from June to October 2008 and include a relatively wide range of meteorological and soil moisture conditions. A preliminary sensitivity analysis of the three wind profile algorithms highlight the dependence of wind speed just above the soil/substrate to leaf area index and canopy height over the typical canopy properties range of these agricultural area. It is found that differences in wind just above surface among the models is most significant under sparse and medium fractional cover conditions (20–60%). The TSEB model heat flux estimates are compared with micrometeorological measurements from a small aperture scintillometer and an eddy covariance tower collected over an olive orchard characterized by moderate fractional vegetation cover (≈35%) and relatively tall crop height (≈3.5 m). TSEB fluxes for the 7 image acquisition dates generated using both the Massman and Goudriaan in-canopy wind profile formulations give close agreement with measured fluxes, while the Lalic et al. equations yield poor results. The Massman wind profile scheme slightly outperforms that of Goudriaan, but it requires an additional parameter describing the roughness of the underlying vegetative surface. This parameter is not directly obtainable using remote sensing, hence this study suggests that the Goudriaan formulation for landscape applications is most suitable when detailed site-specific information regarding canopy architecture is unavailable.
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- 2010
6. The impact of in-canopy wind profile formulations on heat flux estimation in an open orchard using the remote sensing-based two-source model
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Martha C. Anderson, Giuseppe Ciraolo, Carmelo Cammalleri, William P. Kustas, Guido D'Urso, Mario Minacapilli, G. La Loggia, Cammalleri, C, Anderson, MC, Ciraolo, G, D'Urso, G, Kustas, WP, La Loggia, G, Minacapilli, M, Cammalleri, C., Anderson, M. C., Ciraolo, G., D'Urso, Guido, Kustas, W., La Loggia, G., and Minacapilli, M.
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Actual evapotranspiration ,Eddy covariance ,Sensible heat ,lcsh:Technology ,Wind speed ,lcsh:TD1-1066 ,law.invention ,Wind profile power law ,law ,Semi-arid area ,Two-source energy balance ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Leaf area index ,lcsh:Environmental technology. Sanitary engineering ,lcsh:Environmental sciences ,Remote sensing ,lcsh:GE1-350 ,lcsh:T ,High spatial resolution ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,lcsh:Geography. Anthropology. Recreation ,Vegetation ,Heat flux ,lcsh:G ,Scintillometer ,Environmental science ,Sparse canopy ,Wind speed extinction - Abstract
For open orchard and vineyard canopies containing significant fractions of exposed soil (>50%), typical of Mediterranean agricultural regions, the energy balance of the vegetation elements is strongly influenced by heat exchange with the bare soil/substrate. For these agricultural systems a "two-source" approach, where radiation and turbulent exchange between the soil and canopy elements are explicitly modelled, appears to be the only suitable methodology for reliably assessing energy fluxes. In strongly clumped canopies, the effective wind speed profile inside and below the canopy layer can strongly influence the partitioning of energy fluxes between the soil and vegetation components. To assess the impact of in-canopy wind profile on model flux estimates, an analysis of three different formulations is presented, including algorithms from Goudriaan (1977), Massman (1987) and Lalic et al. (2003). The in-canopy wind profile formulations are applied to the thermal-based two-source energy balance (TSEB) model developed by Norman et al. (1995) and modified by Kustas and Norman (1999). High resolution airborne remote sensing images, collected over an agricultural area located in the western part of Sicily (Italy) comprised primarily of vineyards, olive and citrus orchards, are used to derive all the input parameters needed to apply the TSEB. The images were acquired from June to October 2008 and include a relatively wide range of meteorological and soil moisture conditions. A preliminary sensitivity analysis of the three wind profile algorithms highlights the dependence of wind speed just above the soil/substrate to leaf area index and canopy height over the typical range of canopy properties encountered in these agricultural areas. It is found that differences among the models in wind just above the soil surface are most significant under sparse and medium fractional cover conditions (15–50%). The TSEB model heat flux estimates are compared with micro-meteorological measurements from a small aperture scintillometer and an eddy covariance tower collected over an olive orchard characterized by moderate fractional vegetation cover (≈35%) and relatively tall crop (≈3.5 m). TSEB fluxes for the 7 image acquisition dates generated using both the Massman and Goudriaan in-canopy wind profile formulations give close agreement with measured fluxes, while the Lalic et al. equations yield poor results. The Massman wind profile scheme slightly outperforms that of Goudriaan, but it requires an additional parameter accounting for the roughness sub-layer of the underlying vegetative surface. The analysis also suggests that within-canopy wind profile model discrepancies become important, in terms of impact on modelled sensible heat flux, only for sparse canopies with moderate vegetation coverage.
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- 2010
7. Soil Water Content Diachronic Mapping: An FFT Frequency Analysis of a Temperature–Vegetation Index
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Antonino Maltese, Giuseppe Ciraolo, Carmelo Cammalleri, Antonio Francipane, Fulvio Capodici, Goffredo La Loggia, Capodici F., Cammalleri C., Francipane A., Ciraolo G., La Loggia G., and Maltese A.
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Seasonal effect ,Earth observation ,010504 meteorology & atmospheric sciences ,0208 environmental biotechnology ,02 engineering and technology ,Forcing (mathematics) ,Atmospheric sciences ,01 natural sciences ,Normalized Difference Vegetation Index ,medicine ,Fast Fourier-transform ,Water content ,seasonal effects ,0105 earth and related environmental sciences ,lcsh:QE1-996.5 ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Humidity ,Vegetation ,Seasonality ,medicine.disease ,Diachronic mapping ,020801 environmental engineering ,lcsh:Geology ,Soil water ,General Earth and Planetary Sciences ,Environmental science ,Thermal admittance ,Settore ICAR/06 - Topografia E Cartografia - Abstract
Among the indirect estimation approaches of soil water content in the upper layer of the soil, the &ldquo, triangle method&rdquo, is one of the most common that relies on the simple relationship between the optical and thermal features sensed via Earth Observation. These features are controlled by water content at the surface and within the root zone but also by meteorological forcing including air temperature and humidity, as well as solar radiation. Night- and day-time MODIS composites of land-surface temperature (LST) allowed applying a version of the triangle method that takes into account the temporal admittance of the soil. In this study, it has been applied to a long time-series of pair images to analyze the seasonal influence of the meteorological forcing on a triangle method index (or temperature&ndash, vegetation index, TVX), as well as to discuss extra challenges of the diachronic approach including seasonality effects and the variability of environmental forcing. The Imera Meridionale basin (Sicily, Italy) has been chosen to analyze the method over a time-series of 12 years. The analysis reveals that, under these specific environmental and climatic conditions (strong seasonality and rainfall out of phase with vegetation growth), Normalized Difference Vegetation Index (NDVI) and LST pairs move circularly in time within the optical vs. thermal feature space. Concordantly, the boundaries of the triangle move during the seasons. Results showed a strong correlation between TVX and rainfall normalized amplitudes of the power spectra (r2 ~0.8) over the range of frequencies of the main harmonics.
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- 2020
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8. Combined use of eddy covariance and sap flow techniques for partition of ET fluxes and water stress assessment in an irrigated olive orchard
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Carmelo Cammalleri, Giovanni Rallo, Mario Minacapilli, Giuseppe Ciraolo, Giuseppe Provenzano, Carmelo Agnese, Cammalleri, C., Rallo, G., Agnese, C., Ciraolo, G., Minacapilli, M., and Provenzano, G.
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Hydrology ,Phenology ,Water stress ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,fungi ,Eddy covariance ,Olive ,food and beverages ,Soil Science ,Flux partition ,Sap flow ,Crop coefficient ,Evapotranspiration ,Soil water ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Environmental science ,DNS root zone ,Orchard ,Agronomy and Crop Science ,Earth-Surface Processes ,Water Science and Technology ,Transpiration - Abstract
Correct estimation of crop actual transpiration plays a key-role in precision irrigation scheduling, since crop growth and yield are associated to the water passing through the crop. Objective of the work was to assess how the combined use of micro-meteorological techniques (eddy covariance, EC) and physiological measurements (sap flow, SF) allows a better comprehension of the processes involving in the Soil–Plant–Atmosphere continuum. To this aim, an experimental dataset of actual evapotranspiration, plant transpiration, and soil water content measurements was collected in an olive orchard during the midseason phenological period of 2009 and 2010. It was demonstrated that the joint use of EC and SF techniques is effective to evaluate the components of actual evapotranspiration in an olive orchard characterized by sparse vegetation and a significant fraction of exposed bare soil. The availability of simultaneous soil water content measurements allowed to estimate the crop coefficients and to assess a simple crop water stress index, depending on actual transpiration that can be evaluated even in the absence of direct measurements of actual transpiration. The crop coefficients experimentally determined resulted very similar to those previously evaluated; in particular, in the absence of water stress, a seasonal average value of about 0.65 was obtained for the “single” crop coefficient, whereas values of a 0.34 and 0.41 were observed under limited water availability in the root zone. The comparison between the values of crop water stress index evaluated during the investigated periods evidenced systematically lower values (less crop water stress) in the first year compared to the second, according to the general trend of soil waters content in the root zone. Further researches are however necessary to extent the experimental dataset to periods characterized by values of soil evaporation higher than those observed, in order to verify the crop coefficients even under different conditions than those investigated.
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- 2013
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9. Daytime sensible heat flux estimation over heterogeneous surfaces using multitemporal land‐surface temperature observations
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F. Castellvi, C. Cammalleri, G. Ciraolo, A. Maltese, F. Rossi, Castellví, F., Cammalleri, C., Ciraolo, G., Maltese, A., and Rossi, F.
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in situ sensing ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,temperature ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,thermal data ,olive grove ,surface renewal ,sensible heat flux ,Settore ICAR/06 - Topografia E Cartografia ,Water Science and Technology - Abstract
Equations based on surface renewal (SR) analysis to estimate the sensible heat flux (H) require as input the mean ramp amplitude and period observed in the ramp‐like pattern of the air temperature measured at high frequency. A SR‐based method to estimate sensible heat flux (HSR‐LST) requiring only low‐frequency measurements of the air temperature, horizontal mean wind speed, and land‐surface temperature as input was derived and tested under unstable conditions over a heterogeneous canopy (olive grove). HSR‐LST assumes that the mean ramp amplitude can be inferred from the difference between land‐surface temperature and mean air temperature through a linear relationship and that the ramp frequency is related to a wind shear scale characteristic of the canopy flow. The land‐surface temperature was retrieved by integrating in situ sensing measures of thermal infrared energy emitted by the surface. The performance of HSR‐LST was analyzed against flux tower measurements collected at two heights (close to and well above the canopy top). Crucial parameters involved in HSR‐LST, which define the above mentioned linear relationship, were explained using the canopy height and the land surface temperature observed at sunrise and sunset. Although the olive grove can behave as either an isothermal or anisothermal surface, HSR‐LST performed close to H measured using the eddy covariance and the Bowen ratio energy balance methods. Root mean square differences between HSR‐LST and measured H were of about 55 W m−2. Thus, by using multitemporal thermal acquisitions, HSR‐LST appears to bypass inconsistency between land surface temperature and the mean aerodynamic temperature. The one‐source bulk transfer formulation for estimating H performed reliable after calibration against the eddy covariance method. After calibration, the latter performed similar to the proposed SR‐LST method. This research was funded by project CGL2012‐37416‐C04‐01 and CGL2015‐65627‐C3‐1‐R (Ministerio de Ciencia y Innovación of Spain), CEI Iberus, 2014 (Proyecto financiado por el Ministerio de Educación en el marco del Programa Campus de Excelencia Internacional of Spain), and Ayuda para estancias en centros extranjeros (Ministerio de Educación, Cultura y Deporte of Spain).
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- 2016
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10. Using scintillometry to assess reference evapotranspiration methods and their impact on the water balance of olive groves
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Mario Minacapilli, Giuseppe Ciraolo, Giovanni Rallo, Giuseppe Provenzano, Carmelo Cammalleri, Minacapilli, M., Cammalleri, C., Ciraolo, G., Rallo, G., and Provenzano, G.
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010504 meteorology & atmospheric sciences ,ASCE and FAO-56 papers ,0208 environmental biotechnology ,Soil Science ,02 engineering and technology ,ET Radiation based models ,01 natural sciences ,law.invention ,Water balance ,law ,Scintillometer ,Evapotranspiration ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Reference evapotranspiration ,Penman–Monteith equation ,0105 earth and related environmental sciences ,Water Science and Technology ,Earth-Surface Processes ,Hydrology ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Irrigation scheduling ,Micrometeorology ,020801 environmental engineering ,Water resources ,Environmental science ,Water quality ,Mediterranean climate ,Scale (map) ,Agronomy and Crop Science - Abstract
Reference evapotranspiration (ET 0 ) is widely used for irrigation scheduling, to promote an efficient use of water resources for a sustainable agro-ecosystem productivity, as well as to manage water quality and to face other environmental concerns. As suggested by ASCE-EWRI and FAO, standard Penman–Monteith methods are generally applied for an accurate estimation of ET 0 from hourly to daily scale. In absence of detailed meteorological information several simplified equations, using a limited number of variables, have been proposed as alternative. In this paper, the performance of different reference evapotranspiration methods, at hourly (Penman–Monteith, Pristley–Taylor, Makkink and Turc) and daily scale (Penman–Monteith, Blaney and Criddle, Hargreaves, Pristley–Taylor, Makkink and Turc), was evaluated against scintillometer measurements collected during six month in 2005 in an experimental plot maintained under “reference” conditions (alfalfa crop). The daily values of ET 0 obtained with the examined methodologies were then used as input in the FAO-56 agro-hydrological model, in order to evaluate, for an olive grove in a Mediterranean environment, the impact on simulated actual evapotranspiration. The experiment was carried out in South-West Sicily, in an area where olive groves are the major crop. The comparison between estimated and measured fluxes confirmed that FAO-56 Penman–Monteith (PM) standardized equation is characterized by the lowest mean bias error (−0.15 mm d −1 and 0.06 mm d −1 using daily or hourly data, respectively). Additionally, the analysis also highlighted that the Pristley–Taylor equation can be considered a valid alternative for an accurate estimation of ET 0 (mean bias error of 0.35 mm d −1 and 0.43 mm d −1 using daily or hourly data, respectively). The application of the FAO-56 water balance model on the investigated olive grove evidenced that the best estimations of actual evapotranspiration are obtained when the Pristley–Taylor ET 0 data are used as input, confirming that this approach can be considered a valid alternative to the standard Penman–Monteith.
- Published
- 2016
11. Statistical analysis of inter-arrival times of rainfall events for Italian Sub-Alpine and Mediterranean areas
- Author
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Stefano Ferraris, L. Mercalli, Carmelo Agnese, Carmelo Cammalleri, D. Cat Berro, Giorgio Baiamonte, Agnese, C, Baiamonte, G, Cammalleri, C, Cat Berro, D, Ferraris, S, and Mercalli, L
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Mediterranean climate ,Atmospheric Science ,Distribution (economics) ,drought ,lcsh:QC851-999 ,Mediterranean ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Duration (project management) ,lcsh:Science ,Sub-Alpine ,statistical distributions ,trend ,business.industry ,Ecological Modeling ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Pollution ,lcsh:QC1-999 ,Trend analysis ,Geophysics ,Geography ,Sample size determination ,Climatology ,Probability distribution ,lcsh:Q ,lcsh:Meteorology. Climatology ,rainfall inter-arrival time ,Scale (map) ,business ,lcsh:Physics ,Quantile - Abstract
In this work a set of time-series of inter-arrival times of rainfall events, at daily scale, was analysed, with the aim to verify the issue of increasing duration of dry periods. The set consists of 12 time-series recorded at rain gauges in 1926–2005, six of them belong to an Italian Sub-Alpine area (Piedmont) and six to a Mediterranean one (Sicily). In order to overcome the problem related to limited sample size for high values of inter-arrival times, the discrete probability polylog-series distribution was used to fit the empirical data from partial (20 yr) time-series. Moreover, a simple qualitative trend analysis was applied to some high quantiles of inter-arrival times as well as to the average extent of rain clusters. The preliminary analysis seems to confirm the issue of increasing duration of dry periods for both environments, which is limited to the ''cold'' season.
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- 2012
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12. Daily evapotranspiration assessment by means of residual surface energy balance modeling: A critical analysis under a wide range of water availability
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Antonino Maltese, Carmelo Cammalleri, Giuseppe Ciraolo, G. La Loggia, Cammalleri, C, Ciraolo, G, La Loggia, G, and Maltese, A
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Actual evapotranspiration ,Daytime ,SEBAL ,Meteorology ,Water availability ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Residual ,Atmospheric sciences ,Surface energy balance ,Spectroradiometer ,Heat flux ,Soil heat flux ,Evapotranspiration ,Range (statistics) ,Surface energy balance, Actual evapotranspiration, Evaporative fraction, Soil heat flux, Water availability ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Environmental science ,Evaporative fraction ,Reliability (statistics) ,Water Science and Technology - Abstract
Summary An operational use of the actual evapotranspiration assessed by remote sensing approaches requires the integration of instantaneous fluxes to daily values. This is commonly achieved under the hypotheses of daytime self-preservation of evaporative fraction and negligible daily ground heat flux. The aim of this study is to evaluate the effect of these assumptions on estimate daily evapotranspiration over a full phenological cycle, including phases characterized by significant changes both in net radiation and vegetation cover. To assess the reliability of these hypotheses, the observations made by a flux tower, installed within a homogeneous field of cereal located in the valley part of the Imera Meridionale basin, were analyzed. Additionally, the widely-known SEBAL (Surface Energy Balance Algorithm for Land) model was applied on the same study area by means of four MODIS (MODerate-resolution Imaging Spectroradiometer) images selected across a three-rainfall events period in March–April 2007 with the aim to analyze the consistency of its estimates in an operational study case under different conditions of water availability. The analysis of in situ data highlights errors on 24-h evapotranspiration characterized by an average value of 20% due to daily soil heat flux neglecting; whereas, the hypothesis of evaporative fraction self-preservation causes an average error equal to −16%. Moreover, the analysis of the observations suggests that a compensation effect of the errors related to each hypothesis occurs in most cases (56%), and this makes suitable the approach for practical daily integration purposes. The application of the SEBAL model at basin scale shows a good capability to detect the increase of the actual 24-h evapotranspiration under the tested hypotheses, also in the case of instantaneous evaporative fraction and daily net radiation not derived form in situ observations.
- Published
- 2012
- Full Text
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13. Actual evapotranspiration assessment by means of a coupled energy/hydrologic balance model: Validation over an olive grove by means of scintillometry and measurements of soil water contents
- Author
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Carmelo Cammalleri, Giuseppe Provenzano, Carmelo Agnese, Giovanni Rallo, Giuseppe Ciraolo, Mario Minacapilli, CAMMALLERI, C, AGNESE, C, CIRAOLO, G, MINACAPILLI, M, PROVENZANO, G, and RALLO, G
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Actual evapotranspiration ,Hydrology ,Scintillometer measurements ,Moisture ,Scale (ratio) ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Energy balance ,Scintillometer measurement ,Hydrologic balance ,Water balance ,Hydrology (agriculture) ,Evapotranspiration ,Olive grove ,Surface energy fluxes ,Soil water ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Environmental science ,Surface energy fluxe ,Water content ,Water Science and Technology - Abstract
Summary A coupled energy/hydrologic model was applied to simulate the exchange of energy and water in the soil–plant-atmosphere system (SPA). The model, which uses a “two-source” approach to estimate the energy fluxes, and the “force-restore” approach to represent the water balance, was validated by means of evapotranspiration measurements collected via scintillometry and soil moisture measurements collected via time domain reflectometry (TDR) in a Sicilian olive grove. The comparison between measured and estimated fluxes values at an hourly scale showed good agreement. Additional comparisons on a daily timescale confirmed the model’s applicability for quantifying crop water requirements. Also in terms of daily evapotranspiration and soil water content values, the obtained results confirmed the model’s applicability for those practical applications aiming to quantify the crop water requirement. Moreover, further studies should be conducted to test the feasibility of using this model for long term simulations over a broad range of conditions.
- Published
- 2010
- Full Text
- View/download PDF
14. Regional-scale modeling of reference evapotranspiration: Intercomparison of two simplified temperature- and radiation-based approaches
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Giuseppe Ciraolo, Carmelo Cammalleri, Alfonso Senatore, Giuseppe Mendicino, Senatore, A., Mendicino, G., Cammalleri, C., and Ciraolo, G.
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Meteorology ,Land Surface Analysis Satellite Application Facility (LSA-SAF) surface radiation product ,South Italy ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Hargreaves equation ,Radiation ,Agricultural and Biological Sciences (miscellaneous) ,Makkink coefficient regionalization ,Evapotranspiration ,Environmental science ,Scale model ,Makkink equation ,Water Science and Technology ,Civil and Structural Engineering - Abstract
Two regionalized models for the distributed estimation of daily reference evapotranspiration, the temperature-based Hargreaves (HE) and the radiation-based Makkink (MK) equations, are applied in Southern Italy during the years 2007 and 2008. Spatially distributed meteorological inputs, such as air temperature and incoming solar radiation, were derived from geostatistical interpolation of ground data and from the Land Surface Analysis Satellite Application Facility (LSA-SAF) surface radiation product, respectively. Comparison of the latter with 83,394 daily measurements provided by 128 weather stations shows a not negligible seasonal error in daily solar radiation that is corrected by means of a periodic equation. A preliminary local calibration of the MK coefficient highlights its strong dependency on the interactions between moist winds from the Atlantic Ocean and orographic obstructions, leading to two western and eastern subzones. Hence, a regionalization of the MK-adjusted coefficient was performed following a procedure similar to the one already used by the authors in a previous work for the HE coefficient. Application of both regionalized models and their comparison with Penman-Monteith estimates derived from the same stations leads to average whole-year absolute errors of approximately 0.5 mm d-1, further showing the great potential of the MK method in terms of informative content and less dependence on the site density of a ground-based monitoring network. Overall, discussing pros and cons of both regionalized models, it is shown that their integrated use in southern Italy is possible and advisable.
- Published
- 2015
15. A simple method to directly retrieve reference evapotranspiration from geostationary satellite images
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Carmelo Cammalleri, Giuseppe Ciraolo, Cammalleri, C, and Ciraolo, G
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Global and Planetary Change ,Meteorology ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Elevation ,Orography ,Reference evapotranspiration MSG geostationary satellite Mediterranean environment ,Management, Monitoring, Policy and Law ,Seasonality ,medicine.disease ,Regression ,Geography ,Approximation error ,Evapotranspiration ,Geostationary orbit ,medicine ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Computers in Earth Sciences ,Scale (map) ,Reference evapotranspiration, MSG geostationary satellite, Mediterranean environment ,Earth-Surface Processes - Abstract
Application of FAO-56 methodology for the assessment of reference evapotranspiration, ET 0 , is challenging in areas of the world with sparse meteorological network stations. For this reason alternative procedures using remotely observed data have been proposed in the literature. In this work, a simplified version of the Makkink approach [J. Inst. Wat. Eng. 11: 277–288, 1957] was tested in a typical Mediterranean environment (Sicily, Italy). The implemented Makkink approach (MAK) uses remotely estimated solar radiation derived from Meteosat Second Generation (MSG) satellite data and in situ observations of air temperature to assess ET 0 at daily time scale. Alternatively, taking advantage of well-defined relationships that exist between seasonality, elevation and air temperature, a deterministic procedure for estimating air temperature inputs used in the MAK approach (named RS) was also tested. This approach allows the assessment of daily ET 0 without the need of auxiliary air temperature ground observations. A comparison between the FAO-56 and MAK approaches was performed for 45 sites in Sicily over the period 2007–2010. Assuming FA0-56 as the benchmark, the average accuracy of the MAK methodology was 0.4 mm d −1 , with a relative error of 12%. Similar to other applications of the same procedure, the MAK approach showed a slightly underestimation of ET 0 high values; however, an average regression slope of 0.96 (and negligible intercept) suggests a satisfactory agreement with the FAO-56 modeled values. Air temperature observations acquired during 2002–2006 were used to calibrate the deterministic relation between air temperature, seasonality (as a function of the DOY) and orography (as a function of elevation). For the period 2007–2010, the RS approach performs similarly to MAK, with an average difference of less than 0.05 mm d −1 . Analysis of monthly, seasonal and yearly ET 0 maps shows a slight decrease in RS performance during June and July; nevertheless, the differences between MAK and RS approaches are negligible at all analyzed temporal scales.
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- 2013
16. Eddy covariance and sap flow measurement of energy and mass exchange of woody crops in a Mediterranean environment
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Mario Minacapilli, Giovanni Rallo, Guido D'Urso, Antonio Motisi, Federica Rossi, Rita Papa, Carmelo Cammalleri, Simona Consoli, Motisi, A, Rossi, F, Consoli, S, Papa, R, Minacapilli, M, Rallo, G, Cammalleri, C, and D’Urso, G
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Mediterranean climate ,hysteresi ,orange ,Agroforestry ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Eddy covariance ,Orange (colour) ,Horticulture ,Atmospheric sciences ,tree capacitance ,Flow measurement ,olive ,grapevine ,Settore AGR/03 - Arboricoltura Generale E Coltivazioni Arboree ,Geography ,hysteresis ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,olive, grapevine, orange, tree capacitance, hysteresis - Abstract
Evapotranspiration estimation by micrometeorological techniques through the assessment of mass and energy exchanges in the soil-plant-atmosphere continuum (SPAC) is a very active research area, involving both well-known and novel measurement techniques. A crucial aspect in validating experimental results is the integration of independent measurements of mass and energy exchanges in the SPAC. To this aim, the development and validation of an integrated approach in major tree crop species, involving different independent techniques, are presented. Eddy covariance estimates of ET fluxes were compared to up-scaled sap flow measurements in olive, orange and grapevine, three important Mediterranean tree crop species with contrasting ecophysiological characteristics and responses to water deficits. These differences can affect directly the degree of coupling of the tree to the environment and, consequently, the degree of correspondence between instantaneous transpirational flux at tree level and the micrometeorological measurement of ET at orchard level. Data were analyzed to verify to what extent, in the three species, transpirational flow at orchard level is regulated by tree conductance, capacitance effects related to tree size or by environmental demand. Hourly observations were helpful in detecting physiological processes of the three species only when data were analyzed taking into consideration their diurnal changes.
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- 2012
17. Confronto tra evapotraspirazione effettiva e potenziale idrico fogliare da dati telerilevati e micrometeorologici
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CAMMALLERI, Carmelo, CIRAOLO, Giuseppe, CAPODICI, Fulvio, LA LOGGIA, Goffredo, MALTESE, Antonino, SANTANGELO, Tanino, Cammalleri, C, Ciraolo, G, Capodici, F, La Loggia, G, Maltese, A, and Santangelo, T
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Settore AGR/03 - Arboricoltura Generale E Coltivazioni Arboree ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,evapotraspirazione effettiva, potenziale idrico fogliare, vigneto - Published
- 2012
18. Analysis of energy fluxes estimations over Italy using time-differencing models based on thermal remote sensing data
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CAMMALLERI, Carmelo, Anderson, MC, CIRAOLO, Giuseppe, Kustas, WP, Hain, C, Schultz, L, Mecikalski, JR, D'URSO, GUIDO, Neale, CMU, Cosh, MH, IAHS Red Book series, Cammalleri, C, Anderson, MC, Ciraolo, G, D’Urso, G, Kustas, WP, Hain, C, Schultz, L, and Mecikalski, JR
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Actual evapotranspiration ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Geostationary satellite ,Time-differential surface energy balance ,Earth and Planetary Sciences (all) - Abstract
Large area estimations of land surface fluxes can be a useful operational tool for up-scaling local measurements and can serve as an upper-boundary condition for higher spatial resolution applications. Given hourly measurements of radiometric surface temperature from a geostationary satellite, it is possible to derive the partitioning of energy fluxes based on the influence of the evapotranspiration process on morning surface temperature rise. In this work, the Atmosphere-Land Exchange Inverse (ALEXI) model and the Dual Temperature Difference (DTD) approach were applied in order to relate the sensible heat flux to time-differential remote observations of surface temperature obtained from Meteosat satellite data. Copyright © 2012 IAHS Press.
- Published
- 2012
19. Applications of a remote sensing-based two-source energy balance algorithm for mapping surface fluxes without in situ air temperature observations
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G. La Loggia, Carmelo Cammalleri, William P. Kustas, Giuseppe Ciraolo, Guido D'Urso, Martha C. Anderson, Mario Minacapilli, C., Cammalleri, M. C., Anderson, G., Ciraolo, D'Urso, Guido, W. P., Kusta, G., La Loggia, M., Minacapilli, Cammalleri, C, Anderson, MC, Ciraolo, G, D'Urso, G, Kustas, WP, La Loggia, G, and Minacapilli, M
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Actual evapotranspiration ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Multispectral image ,Energy balance ,Soil Science ,Geology ,Sensible heat ,Residual ,Temperature gradient ,Boundary layer ,Heat flux ,Emissivity ,Two-source energy balance ,Environmental science ,Computers in Earth Sciences ,Mediterranean climate ,Thermal remote sensing ,Two-source energy balance, Actual evapotranspiration, Mediterranean climate, Thermal remote sensing ,Remote sensing - Abstract
The two-source energy balance (TSEB) model uses remotely sensed maps of land–surface temperature (LST) along with local air temperature estimates at a nominal blending height to model heat and water fluxes across a landscape, partitioned between dual sources of canopy and soil. For operational implementation of TSEB, however, it is often difficult to obtain representative air temperature data that are compatible with the LST retrievals, which may themselves have residual errors due to atmospheric and emissivity corrections. To address this issue, two different strategies in applying the TSEB model without requiring local air temperature data were tested over a typical Mediterranean agricultural area using a set of high-resolution multispectral airborne remote sensing images. Alleviating the need for accurate local air temperature data as input, these two approaches estimate the surface-to-air temperature gradient that drives the sensible heat flux by directly exploiting the information available in the image. The two approaches include: 1) a scene-based internal calibration (TSEB-IC) procedure that estimates air temperature over a well-watered and fully vegetated pixel in the LST image, and 2) a disaggregation scheme (DisALEXI) that uses air temperature estimates from a time-differential coupled TSEB-atmospheric boundary layer model of atmosphere–land exchange (ALEXI). A comparison of the air temperatures modeled by TSEB-IC and DisALEXI with in situ weather station observations shows good agreement, with average differences on the order of 1 K, comparable with the uncertainties in the remotely sensed surface temperature maps. Surface fluxes estimated by each method agree well with micro-meteorological measurements acquired over an olive orchard within the aircraft imaging domain. In comparison with fluxes generated with TSEB using local measurements of air temperature, instantaneous fluxes from these alternative methods show good spatial agreement, with differences of less than 10 W m − 2 across the domain. Finally, a sensitivity analysis of the three models, performed by introducing artificial errors into the model inputs, demonstrates that the DisALEXI and TSEB-IC approaches are relatively insensitive to errors in absolute surface temperature calibration, while turbulent fluxes from TSEB applications using local air temperature measurements show sensitivity of approximately 30 W m − 2 per degree temperature perturbation. This highlights the value of both internal calibration and time-differential estimation of the surface-to-air temperature gradient within a surface energy balance framework.
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- 2012
20. Mapping evapotranspiration on vineyards: A comparison between Penman-Monteith and energy balance approaches for operational purposes
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Christopher M. U. Neale, Giuseppe Ciraolo, Carmelo Cammalleri, Fulvio Capodici, Antonino Maltese, D'URSO, GUIDO, Christopher M. U., Neale, Giuseppe, Ciraolo, Carmelo, Cammalleri, Fulvio, Capodici, D'Urso, Guido, Antonino, Maltese, Ciraolo, G., Cammalleri, C, Capodici, F, D'Urso, G, and Maltese, A
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Evapotranspiration ,evapotranspiration, vineyards, Penman-Monteith, energy balance, leaf water potential ,Multispectral image ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Penman-Monteith ,Spectral bands ,Energy balance ,Albedo ,Leaf water potential ,Vineyards ,Normalized Difference Vegetation Index ,Geography ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Leaf area index ,Penman–Monteith equation ,Image resolution ,Settore ICAR/06 - Topografia E Cartografia ,Remote sensing - Abstract
Estimation of evapotranspiration (ET) in Sicilian vineyard is an emerging issue since these agricultural systems are more and more converted from rainfed to irrigated conditions, with significant impacts on the management of the scarce water resources of the region. The choice of the most appropriate methodology for assessing water use in these systems is still an issue of debating, due to the complexity of canopy and root systems and for their high spatial fragmentation. In vineyards, quality and quantity of the final product are dependent on the controlled stress conditions to be set trough irrigation. This paper reports an application of the well-known Penman-Monteith approach, applied in a distributed way, using high resolution remote sensing data to map the potential evapotranspiration (ET p ). In 2008 a series of airborne multispectral images were acquired on "Tenute Rapitala", a wine farm located in the northwest of Sicily. Five airborne remote sensing scenes were collected using a SKY ARROW 351 650 TC/TCNS aircraft, at a height of about 1000 m a.g.l.. The acquisitions were performed encompassing a whole phenological period, period between June and September 2008 (approximately every three weeks). The platform had on board a multi-spectral camera with 3 spectral bands at green (G, 530-570 nm), red (R, 650-690 nm) and near infrared (NIR, 767-832 nm) wavelengths, and a thermal camera with a broad band in the range 7.5-13 µm. The nominal pixel resolution was approximately 0.7 m for VIS/NIR acquisitions, and 1.7 m for the thermal-IR data. Field data were acquired simultaneously to airborne acquisitions. These data include spectral reflectances in VIS-NIR-SWIR (shortwave infrared), leaf area index (LAI), soil moisture at different depths (both in row and below plants). Moreover, meteo variables were measured by a standard weather station whereas fluxes were measured by means of an Eddy correlation tower located within the field. The VIS-NIR bands were atmospherically corrected and calibrated in order to calculate albedo, NDVI and LAI, which represented the distributed inputs of the Penman-Monteith algorithm. Moreover a sensitivity analysis has been carried out on input parameters (such as albedo). A sensitivity analysis was carried out to highlight the variability of outputs (such as ET p ) on the accuracy in the parameters assessment obtainable using high spatial resolution airborne images. Scale effects have been also investigated by means of an artificial degradation of images spatial resolution. Finally the relationship between stress factor evaluated as the ratio between actual and reference ET and pre-dawn leaf water potential has been also investigated.
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- 2012
21. Monitoring water and carbon fluxes at fine spatial scales using HyspIRI-like measurements
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Mitchell Schull, Rasmus Houborg, Feng Gao, Martha C. Anderson, Carmelo Cammalleri, Houborg, R, Anderson, MC, Gao, F, Schull, M, and Cammalleri, C
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data fusion ,Infrared ,Electromagnetic spectrum ,Planetary boundary layer ,Thermal infrared, reflective shortwave, data fusion, energy fluxes, carbon flux ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Hyperspectral imaging ,Sensor fusion ,energy fluxes ,carbon flux ,Temporal resolution ,reflective shortwave ,Environmental science ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Thermal infrared ,Spatial analysis ,Image resolution ,Remote sensing - Abstract
Remotely sensed observations in the visible to the shortwave infrared (VSWIR) and thermal infrared (TIR) regions of the electromagnetic spectrum can be used synergistically to provide valuable products of land surface properties for reliable assessments of carbon and water fluxes. The high spatial, spectral and temporal resolution VSWIR and TIR observations provided by the proposed Hyperspectral - InfraRed (HyspIRI) mission will enable a new era of global agricultural monitoring, critical for addressing growing issues of food insecurity. To enable predictions at fine spatial resolution (
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- 2012
22. Un modello energetico-idrologico per la stima distribuita dell’evapotraspirazione alla scala di bacino: prime applicazioni
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CAMMALLERI, Carmelo, CAPODICI, Fulvio, CIRAOLO, Giuseppe, MALTESE, Antonino, LA LOGGIA, Goffredo, Lombardo, G, Cammalleri, C, Capodici, F, Ciraolo, G, Lombardo, G, Maltese, A, and La Loggia, G
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scala di bacino, bilancio idrologico, bilancio energetico ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali - Published
- 2012
23. Thermal inertia modeling for soil surface water content estimation: A laboratory experiment
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Carmelo Cammalleri, Mario Minacapilli, Giuseppe Ciraolo, Francesco D'Asaro, Massimo Iovino, Antonino Maltese, Minacapilli, M, Cammalleri, C, Ciraolo, G, D'Asaro, F, Iovino, M, and Maltese, A
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TIR, thermal infrared ,VIS-NIR, visible–near infrared ,Thermal inertia ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Soil Science ,Environmental science ,Soil science ,Geotechnical engineering ,Soil surface ,Laboratory experiment ,ATI, apparent thermal inertia ,Water content - Abstract
We are proposing a new method for estimating soil surface water content from thermal inertia distributions retrieved from visible–near infrared (VISNIR)and thermal infrared (TIR) images. A drying experiment was conducted on three fi ne-textured soils while acquiring multispectral VIS-NIR and TIR images. Simultaneous measurements of soil water content and thermal inertia were conducted by the thermogravimetric method and the heat pulse technique, respectively. Direct measurements were used to test the thermal inertia approach proposed by Murray and Verhoef that requires only knowledge of soil porosity and can be easily inverted to derive soil water content from thermal inertia. For the three considered soils, the performance of the Murray and Verhoef model was practically equal to that of the traditional approach based on the direct estimation of thermal conductivity and heat capacity, which requires more detailed information about soil properties. With the aim of simplifying the estimation of thermal inertia from remotely sensed images,a modified Kersten function was proposed in which the normalized thermal inertia is substituted by the normalized apparent thermal inertia. Comparison between the two modifi ed Kersten functions was satisfactory. The proposed approach allowed predictions of the surface soil moisture from apparent thermal inertia distributions with an acceptable level of accuracy for practical purposes (0.028 ≤ RMSE ≤ 0.043 m3 m−3) and therefore it can be considered a simple and effective tool for estimating the spatial and temporal distribution of surface soil moisture from VIS-NIR and TIR remotely sensed data.
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- 2012
24. An integrated approach for high spatial resolution mapping of water and carbon fluxes using multi-sensor satellite data
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Martha C. Anderson, Carmelo Cammalleri, William P. Kustas, Rasmus Houborg, Feng Gao, Mitchell Schull, Cammalleri, C, Anderson, MC, Houborg, R, Gao, F, Kustas, WP, and Schull, M
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Canopy ,Moisture ,Near-infrared spectroscopy ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Data fusion ,computer.software_genre ,Sensor fusion ,Energy budget ,Surface energy balance ,Thermal infrared, optical bands, data fusion, surface energy balance ,Optical bands ,Evapotranspiration ,Environmental science ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Leaf area index ,Thermal infrared ,computer ,Remote sensing ,Data integration - Abstract
In the last years, modeling of surface processes - such as water, energy and carbon budgets, as well as vegetation growth- seems to be focused on integrated approaches that combine aspects of hydrology, biology and meteorology into unified analyses. In this context, remotely sensed data often have a core role due to the cross-cutting impact of this novel source of spatially distributed information on all these research areas. However, several applications - such as drought monitoring, yield forecasting and crop management - require spatially detailed products at sub-field scales, which can be obtained only with support of adequately fine resolution remote sensing data (< 100 m). In particular, observations in the visible to the near infrared (VIS/NIR) spectral region can be used to derive biophysical and biochemical properties of the vegetation (i.e., leaf area index and leaf chlorophyll). Complementarily, the thermal infrared (TIR) signal provides valuable information about land surface temperature, which in turn represents an accurate proxy indicator of the subsurface moisture status by means of surface energy budget analysis. Additionally, the strong link between crop water stress and stomatal closure allows inference of crop carbon assimilation using the same tools. In this work, an integrated approach is proposed to model both carbon and water budgets at field scale by means of a joint use of a thermal-based Two Source Energy Budget (TSEB) model and an analytical, Light-Use-Efficiency (LUE) based model of canopy resistance. This suite of models allows integration of information retrieved by both fine and coarse resolution satellites by means of a data fusion procedure. A set of Landsat and MODIS images are used to investigate the suitability of this approach, and the modeled fluxes are compared with observations made by several flux towers in terms of both water and carbon fluxes.
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- 2012
25. About time of occurrence of rainy days for Mediterranean and (sub)-Alpine areas
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AGNESE, Carmelo, BAIAMONTE, Giorgio, CAMMALLERI, Carmelo, Cat Berro, D, Ferraris, S, Mercalli, L., Agnese, C, Baiamonte, G, Cammalleri, C, Cat Berro, D, Ferraris, S, and Mercalli, L
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Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,rainfall day time-series, intermittency, inter-arrival time distribution, Lerch probabilty distribution - Published
- 2012
26. Early warnings of Rhynchophorus ferrugineus infestation of Phoenix canariensis: a proximity thermal sensing approach
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CAMMALLERI, Carmelo, CAPODICI, Fulvio, CIRAOLO, Giuseppe, FILARDO, Giuseppe, LA LOGGIA, Goffredo, MALTESE, Antonino, Cammalleri, C, Capodici, F, Ciraolo, G, Filardo, G, La Loggia, G, and Maltese, A
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Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,insect infestation, disease detection, proximity sensing - Abstract
Phoenix canariensis represents one of the most relevant ornamental plants within Mediterranean environment. In the last few years the infestation of a curculio coleopteron, namely the Rhynchophorus ferrugineus, caused a widespread decimation of these palms. Unluckily damages caused by the insect are evident only in the advanced phase of the disease making futile almost any plant treatment. Early warning of this disease may represents the only way to setup efficient actions to fight the coleopteron in trees where it takes over, thus limiting its spreading in contiguous palms. This research aims to achieve the former result by processing: i) short and long-wave images of the crown acquired during day-time by a balloon platform, and ii) a time series of thermal images of the trunk recorded during night-time on the field. The research is based on the hypotheses that: j) the disease induces changes of both transpiration processes and crown shape, because the damages of vascular tissues; jj) the local increase of temperature within the trunk, due to anaerobic fermentation established within the palm, extends up enough to surface to be diachronically analyzed to localize the disease core. © (2011) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
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- 2011
27. Trend of inter-arrival times of rainfall events for Italian Sub-Alpine and Mediterranean areas
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AGNESE, Carmelo, BAIAMONTE, Giorgio, CAMMALLERI, Carmelo, Bevilacqua, I, Cat Berro, D, Ferraris, S, Mercalli, L., Agnese, C, Baiamonte, G, Bevilacqua, I, Cammalleri, C, Cat Berro, D, Ferraris, S, and Mercalli, L
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rainfall inter-arrival times, Mediterranean environment, sub-alpine environment, discrete probability distribution ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali - Published
- 2011
28. Comparing actual evapotranspiration and plant water potential on a vineyard
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Fulvio Capodici, Antonino Maltese, Giuseppe Ciraolo, Carmelo Cammalleri, Goffredo La Loggia, Francesco Colletti, Tanino Santangelo, Maltese, A, Cammalleri, C, Capodici, F, Ciraolo, G, Colletti, F, La Loggia, G, and Santangelo, T
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Actual evapotranspiration ,Hydrology ,Irrigation ,Plant water potential ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Eddy covariance ,Energy balance ,Surface energy balance ,Settore AGR/03 - Arboricoltura Generale E Coltivazioni Arboree ,surface energy balance, actual evapotranspiration, plant water potential ,Evapotranspiration ,Farm water ,Environmental science ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Spatial variability ,Irrigation management ,Water content - Abstract
Agricultural water requirement in arid and semi-arid environments represents an important fraction of the total water consumption, suggesting the need of appropriate water management practices to sparingly use the resource. Furthermore the quality and quantity of some crops products, such as grape, is improved under a controlled amount of water stress. The latter is related, on a side to actual evapotranspiration (ET) through water demand, on the other side to plant water content through leaf water potential. Residual energy balance approaches based on remote sensing allow to estimate the spatial distribution of daily actual ET at plant scale, representing an useful tool to detect its spatial variability across different cultivars and even within each parcel. Moreover, the connection between actual ET and leaf water potential is still not well assessed, especially under water stress conditions, even if farmers use leaf water potential to plan irrigation. However residual energy balance methods are based on the hypothesis that storage terms are negligible, at least during the remote sensor overpass. Indeed, energy balance approaches estimate daily actual ET from the instantaneous value at the overpass time using a daily integration method. The paper first verifies this latter assumption using field data acquired by a flux tower on a whole phenological period. Then, the actual ET values measured by eddy covariance tower were analyzed together with water potential measured using a Scholander chamber; the analysis highlights that, under water stress conditions, daily actual ET is inversely linearly related with water potential. These results suggest the possibility to use remote sensing-based ET as support for irrigation management at plot scale.
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- 2011
29. Surface soil humidity retrieval using remote sensing techniques: a triangle method validation
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Antonino Maltese, Carmelo Cammalleri, Goffredo La Loggia, Fulvio Capodici, Giuseppe Ciraolo, Maltese, A, Cammalleri, C, Capodici, F, Ciraolo, G, and La Loggia, G
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Earth observation ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Longwave ,soil moisture, airborne remote sensing, triangle method ,Humidity ,Spatial distribution ,triangle method ,airborne remote sensing ,Soil water ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Environmental science ,soil moisture ,Image resolution ,Shortwave ,Water content ,Remote sensing - Abstract
Soil humidity plays a key-role in hydrological and agricultural processes. In the rainfall-runoff processes the knowledge of its spatial distribution is fundamental to accurately model these phenomena. Furthermore in agronomy and agricultural sciences, assessing the water content of the root zone is required in order to optimize the plant productivity and to improve the irrigation systems management. Despite the importance of this variable the in situ measurements techniques based on Time Domain Reflectometry (TDR) or on the standard thermo-gravimetric methods, are neither cost-effective nor representative of its spatial and temporal variability. Indirect estimations via Earth Observation (EO) images include the triangle method, which shows that Land Surface Temperature (LST) is prevalently controlled by surface and root zone humidity in bare and vegetated soils respectively. The effects of pre-processing techniques correcting for altimetry and seasonality are analyzed by means of shortwave and longwave airborne images acquired on a vineyard during a whole phenological period. The paper also discusses the advantages induced by replacing the absolute temperatures with relative values, that were obtained subtracting the temperatures measured by micrometeorological station or the surface temperature of high thermal inertia surfaces (as small irrigation reservoir) chosen as reference values. The validation with in situ data also highlights that a higher spatial resolution not necessarily imply a higher accuracy.
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- 2010
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30. A thermal inertia model for soil water content retrieval using thermal and multispectral images
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Mario Minacapilli, Carmelo Cammalleri, Giuseppe Ciraolo, Francesco D'Asaro, Antonino Maltese, MALTESE, A, MINACAPILLI, M, CAMMALLERI, C, CIRAOLO, G, and D'ASARO, F
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Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Multispectral image ,remote sensing, termal inertial ,soil humidity ,Soil science ,Context (language use) ,Spectral bands ,thermal inertia ,Soil thermal properties ,soil thermal properties ,Soil water ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Environmental science ,Pedology ,Spatial variability ,Water content ,Remote sensing - Abstract
Soil moisture is difficult to quantify because of its high spatial variability. Consequently, great efforts have been undertaken by the research community to develop practical remote sensing approaches to estimate the spatial distribution of surface soil moisture over large areas and with high spatial detail. Many methodologies have been developed using remote sensing data acquiring information in different parts of the electromagnetic spectrum. Conventional field measurement techniques (including gravimetric and time-domain reflectometry) are point-based, involve on-site operators, are time expensive and, in any case, do not provide exhaustive information on the spatial distribution of soil moisture because it strongly depends on pedology, soil roughness and vegetation cover. The technological development of imaging sensors acquiring in the visible (VIS), near infrared (NIR) and thermal infrared (TIR), renewed the research interest in setting up remote sensed based techniques aimed to retrieve soil water content variability in the soil-plant-atmosphere system (SPA). In this context different approaches have been widely applied at regional scale throughout synthetic indexes based on VIS, NIR and TIR spectral bands. A laboratory experiment has been carried out to verify a physically based model based on the remote estimation of the soil thermal inertia, P, to indirectly retrieve the soil surface water content, θ. The paper shows laboratory retrievals using simultaneously a FLIR A320G thermal camera, a six bands customized TETRACAM MCA II (Multiple Camera Array) multispectral camera working in the VIS/NIR part of the spectrum. Using these two type of sensors a set of VIS/NIR and TIR images were acquired as the main input dataset to retrieve the spatial variability of the thermal inertia values. Moreover, given that the accuracy of the proposed approach strongly depends on the accurate estimation of the soil thermal conductivity, a Decagon Device KD2 PRO thermal analyzer was used to verify the remotely estimate of thermal conductivity. Remotely estimated water contents were validated using the gravimetric method. The considered thermal inertia approach allowed prediction of the spatial distribution of the soil water with a satisfactory level of accuracy.
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- 2010
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31. Mapping daily evapotranspiration at field to global scales using geostationary and polar orbiting satellite imagery
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ANDERSON, MC, KUSTAS, WP, NORMAN, JM, HAIN, CR, MECIKALSKI, JR, SCHULTZ, L, GONZÁLEZ DUGO, MP, D’URSO, G, PIMSTEIN, A, GAO, F., CAMMALLERI, Carmelo, ANDERSON, MC, KUSTAS, WP, NORMAN, JM, HAIN, CR, MECIKALSKI, JR, SCHULTZ, L, GONZÁLEZ-DUGO, MP, CAMMALLERI, C, D’URSO, G, PIMSTEIN, A, and GAO, F
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daily evapotranspiration ,global scale ,geostationary satellite ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali - Abstract
Thermal infrared (TIR) remote sensing of land-surface temperature (LST) provides valuable information about the sub-surface moisture status required for estimating evapotranspiration (ET) and detecting the onset and severity of drought. While empirical indices measuring anomalies in LST and vegetation amount (e.g., as quantified by the Normalized Difference Vegetation Index; NDVI) have demonstrated utility in monitoring ET and drought conditions over large areas, they may provide ambiguous results when other factors (soil moisture, advection, air temperature) are affecting plant stress. A more physically based interpretation of LST and NDVI and their relationship to sub-surface moisture conditions can be obtained with a surface energy balance model driven by TIR remote sensing. The Atmosphere-Land Exchange Inverse (ALEXI) model is a multi-sensor TIR approach to ET mapping, coupling a two-source (soil+canopy) land-surface model with an atmospheric boundary layer model in time-differencing mode to routinely and robustly map daily fluxes at continental scales and 5–10 km resolution using thermal band imagery and insolation estimates from geostationary satellites. A related algorithm (DisALEXI), spatially disaggregates ALEXI fluxes down to finer spatial scales using moderate resolution TIR imagery from polar orbiting satellites. An overview of this modeling approach is presented, along with strategies for fusing information from multiple satellite platforms and wavebands to map daily ET down to resolutions of 30 m. The ALEXI/DisALEXI model has potential for global applications by integrating data from multiple geostationary meteorological satellite systems, such as the US Geostationary Operational Environmental Satellites, the European Meteosat satellites, the Chinese Fen-yung 2B series, and the Japanese Geostationary Meteorological Satellites. Work is underway to further evaluate multi-scale ALEXI implementations over the US, Europe and, Africa and other continents with geostationary satellite coverage.
- Published
- 2010
- Full Text
- View/download PDF
32. A critical analysis of three remote sensing-based actual evapotranspiration assessment methods over sparse crops agricultural areas
- Author
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Mario Minacapilli, Carmelo Cammalleri, Giuseppe Ciraolo, Goffredo La Loggia, Cammalleri, C, Ciraolo, G, La Loggia, G, and Minacapilli, M
- Subjects
Mediterranean climate ,Irrigation ,SEBAL ,residual surface energy balance models ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,actual evapotranspiration, residual surface energy balance models, airborne images ,Sensible heat ,Spatial distribution ,Vineyard ,Heat flux ,Evapotranspiration ,Environmental science ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,actual evapotranspiration ,airborne images ,Remote sensing - Abstract
During last two decades the increasing availability of remotely sensed acquisitions in the thermal infrared part of the spectrum has encouraged hydrologist community to develop models and methodologies based on these kind of data. The aim of this paper is to compare three methods developed to assess the actual evapotranspiration spatial distribution by means of remote sensing data. The comparison was focused on the differences between the "single" (SEBAL) and "two" source (TSEB) surface energy balance approaches and the S-SEBI semi-empirical method. The first assumes a semiempirical internal calibration for the sensible heat flux assessment; the second uses a physically based approach in order to assess separately the soil and vegetation fluxes. Finally, the last one is based on the correlation between albedo and surface temperature for evaporative fraction estimations. The models were applied using 7 high resolution images, collected by an airborne platform between June and October 2008, approximately every 3 weeks. The acquired data include multi-spectral images (red, green and near infrared) and thermal infrared images for surface temperature estimation. The study area, located in the south-west cost of Sicily (Italy), is characterised by the presence of typical Mediterranean cultivations: olive, vineyard and citrus. Due to irrigation supplies and rainfall events, the water availability for the crops varies in time and this allowed to perform the comparison in a wide range of the modelled variables. Additionally, the availability of high spatial resolution images allowed the testing of the models performances at field scale despite the high vegetation fragmentation of the study area. The comparison of models performance highlights a good agreements of model estimations, analyzed by means of MAD (Mean Absolute Differences) and MAPD (Mean Absolute Percent Differences) indices, especially in terms of study area averaged fluxes. The analysis in correspondence of various crop fields highlights higher differences for low vegetation coverage and for scarce water availability.
- Published
- 2010
33. Un modello di inerzia termica per la stima del contenuto idrico del suolo da immagini termiche e multispettrali
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MINACAPILLI, Mario, CAMMALLERI, Carmelo, CIRAOLO, Giuseppe, D'ASARO, Francesco, MALTESE, Antonino, MINACAPILLI, M, CAMMALLERI, C, CIRAOLO, G, D'ASARO, F, and MALTESE, A
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Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,umidità del suolo ,inerzia termica - Published
- 2010
34. Actual evapotranspiration assessment in a sparse tall Mediterranean crops
- Author
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CAMMALLERI, Carmelo, CIRAOLO, Giuseppe, LA LOGGIA, Goffredo, MINACAPILLI, Mario, Anderson, MC, D’Urso, G, Kustas, WP, Cammalleri, C, Anderson, MC, Ciraolo, G, D’Urso, G, Kustas, WP, La Loggia, G, and Minacapilli, M
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Actual evapotranspiration ,High spatial resolution ,Semi-arid area ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Two-source energy balance ,Sparse canopy - Published
- 2010
35. Un confronto tra stime di evapotraspirazione effettiva basate su dati telerilevati in sistemi agricoli e condizioni di stress idrico
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CAMMALLERI, Carmelo, CAPODICI, Fulvio, CIRAOLO, Giuseppe, LA LOGGIA, Goffredo, MALTESE, Antonino, MINACAPILLI, Mario, CAMMALLERI, C, CAPODICI, F, CIRAOLO, G, LA LOGGIA, G, MALTESE, A, and MINACAPILLI, M
- Subjects
bilancio energetico superficiale ,telerilevamento da aereo ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,evapotraspirazione effettiva - Published
- 2010
36. Determinazione dell’umidità del sistema suolo-vegetazione mediante tecniche di remote sensing: una verifica del metodo triangolare
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CAMMALLERI, Carmelo, CAPODICI, Fulvio, CIRAOLO, Giuseppe, LA LOGGIA, Goffredo, MALTESE, Antonino, CAMMALLERI, C, CAPODICI, F, CIRAOLO, G, LA LOGGIA, G, and MALTESE, A
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Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,umidità del suolo, metodo triangolare, telerilevamento - Published
- 2010
37. Caratterizzazione della rugosità e dell’umidità del suolo tramite dati radar multifrequenza e multipolarizzazione
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CAMMALLERI, Carmelo, CAPODICI, Fulvio, CIRAOLO, Giuseppe, LA LOGGIA, Goffredo, MALTESE, Antonino, D’URSO, G, CAMMALLERI, C, CAPODICI, F, CIRAOLO, G, D’URSO, G, LA LOGGIA, G, and MALTESE, A
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Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,umidità del suolo, rugosità del suolo, radar, telerilevamento - Published
- 2010
38. Spatial sharpening of land surface temperature for daily energy balance applications
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Giuseppe Ciraolo, Carmelo Cammalleri, Mario Minacapilli, CAMMALLERI C, CIRAOLO G, and MINACAPILLI M
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Actual evapotranspiration ,Meteorology ,land surface temperature, disaggregation, actual evapotranspiration, surface energy balance models ,Settore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologia ,Energy balance ,Sharpening ,Advanced Spaceborne Thermal Emission and Reflection Radiometer ,Disaggregation ,Geography ,Evapotranspiration ,Temporal resolution ,Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali ,Surface energy balance models ,Satellite ,Moderate-resolution imaging spectroradiometer ,Image resolution ,Land surface temperature ,Remote sensing - Abstract
Daily high spatial resolution assessment of actual evapotranspiration is essential for water management and crop water requirement estimation under stress conditions. The application of energy balance models usually requires satellite observations of radiometric surface temperat ure with high geometrical and temporal resolutions. By now, however, high spatial resolution (~ 100 m) is available with low time fre quency (approximately every two weeks); at the opposite daily acquisition are characterised by poor spatial resolution. The analysis of vegetation index (VI) and land surface temperature (LST) spatial relationship, shows in substance a scale invariant behaviour [1] ; this consideration allows the application of spatial sharpening algorithms of thermal data, by means of a combination of high spatial resolution data in VIS/NIR range with high temporal acquisition on TIR. In this paper, a sharpening algorithm was applied using the thermal bands of MODIS ( MOderate resolution Imaging Spectroradiometer ) and vegetation indices derived by ASTER (Advanced Spaceborne Thermal Emission and Reflection Radiometer ) sensor; the choice of this sensors is justified by the simultaneous acquisition time. The results of this sharpening process was firstly compared against LST estimation (at the same spatial resolution) by means of the ASTER simultaneous data; then the derived high spatial resolution LST distribution was used in order to investigate the effect of the disaggregation on the outputs of surface energy balance models. The above described application was performed on a Sicilian study area. Keywords: land surface temperature, disaggregation, actual ev apotranspiration, surface energy balance models.
- Published
- 2008
- Full Text
- View/download PDF
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