33 results on '"Cammalleri, C"'
Search Results
2. Evaluating a multi-step collocation approach for an ensemble climatological dataset of actual evapotranspiration over Italy
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Cammalleri, C., Anderson, M.C., Corbari, C., Yang, Y., Hain, C.R., Salamon, P., and Mancini, M.
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- 2024
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3. Soil moisture evaluation over the Argentine Pampas using models, satellite estimations and in-situ measurements
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Spennemann, P.C., Fernández-Long, M.E., Gattinoni, N.N., Cammalleri, C., and Naumann, G.
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- 2020
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4. Harmonization of GEOV2 fAPAR time series through MODIS data for global drought monitoring
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Cammalleri, C., Verger, A., Lacaze, R., and Vogt, J.V.
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- 2019
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5. An Analysis of the Lagged Relationship between Anomalies of Precipitation and Soil Moisture and Its Potential Role in Agricultural Drought Early Warning.
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Cammalleri, C., McCormick, N., Spinoni, J., and Nielsen-Gammon, J. W.
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PRECIPITATION anomalies , *SOIL moisture , *DROUGHTS , *AGRICULTURE , *EMERGENCY management , *GRID cells - Abstract
The standardized precipitation index (SPI) is the most commonly used index for detecting and characterizing meteorological droughts, and it is also extensively used as a proxy variable for soil moisture anomalies (SMA) for the purpose of monitoring agricultural drought in absence of long-term soil moisture observations. However, the potential capability of SPI to warn of the time-lagged soil water deficit—following the well-known "drought cascade" effect—is often overlooked in agricultural drought studies. In this research, a time-lagged correlation analysis is used to evaluate the relationship between the SMA dataset, generated as part of the Global Drought Observatory of the European Union's Copernicus Emergency Management Service, and a set of SPIs derived from the ERA5 reanalysis produced by the European Centre for Medium-Range Weather Forecasts. The possibility to achieve an optimal agreement between SPI and SMA that also preserves the early warning skills of SPI is evaluated. The results suggest that if only the correlation between SPI and SMA is considered, the maximum agreement is usually obtained with a zero lead time (almost 80% of the cases), with SPI-3 representing the best option in about 40% of the grid cells at global scale. By also accounting for the benefits of a positive lead time, short accumulation periods tend to be favored, with SPI-1 being the optimal choice in about one-half of the cases, and 10–20 days of lead time in more than 90% of the grid cells is achieved without any significant reduction in either correlation or skill in drought extreme detection. [ABSTRACT FROM AUTHOR]
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- 2024
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6. On the value of combining different modelled soil moisture products for European drought monitoring
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Cammalleri, C., Micale, F., and Vogt, J.
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- 2015
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7. Mapping daily evapotranspiration at field scales over rainfed and irrigated agricultural areas using remote sensing data fusion
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Cammalleri, C., Anderson, M.C., Gao, F., Hain, C.R., and Kustas, W.P.
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- 2014
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8. Modelling the occurrence of rainy days under a typical Mediterranean climate
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Agnese, C., Baiamonte, G., and Cammalleri, C.
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- 2014
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9. A simple method to directly retrieve reference evapotranspiration from geostationary satellite images
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Cammalleri, C. and Ciraolo, G.
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- 2013
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10. 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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Cammalleri, C., Anderson, M.C., Ciraolo, G., D'Urso, G., Kustas, W.P., La Loggia, G., and Minacapilli, M.
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- 2012
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11. 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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Cammalleri, C., Ciraolo, G., La Loggia, G., and Maltese, A.
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- 2012
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12. State and parameter update in a coupled energy/hydrologic balance model using ensemble Kalman filtering
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Cammalleri, C. and Ciraolo, G.
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- 2012
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13. A Generalized Density-Based Algorithm for the Spatiotemporal Tracking of Drought Events.
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Cammalleri, C. and Toreti, A.
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DROUGHT management , *TRACKING algorithms , *DROUGHTS - Abstract
Drought events evolve simultaneously in space and time; hence, a proper characterization of an event requires the tracking of its full spatiotemporal evolution. Here we present a generalized algorithm for the tracking of drought events based on a three-dimensional application of the DBSCAN (density-based spatial clustering of applications with noise) clustering approach. The need for a generalized and flexible algorithm is dictated by the absence of a unanimous consensus on the definition of a drought event, which often depends on the target of the study. The proposed methodology introduces a set of six parameters that control both the spatial and the temporal connectivity between cells under drought conditions, also accounting for the local intensity of the drought itself. The capability of the algorithm to adapt to different drought definitions is tested successfully over a study case in Australia in the period 2017–20 using a set of standardized precipitation index (SPI) data derived from the ERA5 precipitation reanalysis. Insights on the possible range of variability of the model parameters, as well as on their effects on the delineation of drought events, are provided for the case of meteorological droughts in order to incentivize further applications of the methodology. [ABSTRACT FROM AUTHOR]
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- 2023
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14. 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
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Cammalleri, C., Agnese, C., Ciraolo, G., Minacapilli, M., Provenzano, G., and Rallo, G.
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- 2010
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15. Long‐term forest monitoring reveals constant mortality rise in European forests.
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George, J.‐P., Bürkner, P.‐C., Sanders, T. G. M., Neumann, M., Cammalleri, C., Vogt, J. V., Lang, M., and Rühr, N. K.
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FOREST monitoring ,TREE mortality ,FOREST dynamics ,MORTALITY ,DEATH rate - Abstract
European forests are an important source for timber production, human welfare, income, protection and biodiversity. During the last two decades, Europe has experienced a number of droughts which have been exceptional within the last 500 years, both in terms of duration and intensity. These droughts seem to leave remarkable imprints on the mortality dynamics of European forests. However, systematic observations on tree decline, with emphasis on a single species, has been scarce so far so that our understanding of mortality dynamics and drought occurrence is still limited at a continental scale.Here, we make use of the ICP Forest crown defoliation dataset, permitting us to retrospectively monitor tree mortality for all major conifers, major broadleaves, as well as a pooled dataset of minor tree species in Europe. In total, we analysed more than three million observations gathered during the last 25 years and employed a high‐resolution drought index which can assess soil moisture anomaly based on a hydrological water‐balance and runoff model.We found overall and species‐specific increasing trends in mortality rates, accompanied by decreasing soil moisture. A generalized linear mixed model identified a previous‐year soil moisture anomaly as the most important driver of mortality patterns in conifers, but the response was not uniform across the numerous analysed plots.We conclude that mortality patterns in European forests are currently reaching a concerning upward trend which could be further accelerated by global change‐type droughts in the near future. [ABSTRACT FROM AUTHOR]
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- 2022
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16. Evapotranspiration from an Olive Orchard using Remote Sensing-Based Dual Crop Coefficient Approach
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Cammalleri, C., Ciraolo, G., Minacapilli, M., and Rallo, G.
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- 2013
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17. Evaluating simulated daily discharge for operational hydrological drought monitoring in the Global Drought Observatory (GDO).
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Cammalleri, C., Barbosa, P., and Vogt, J. V.
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DROUGHT management , *DROUGHTS , *DATA libraries , *DROUGHT forecasting , *OBSERVATORIES - Abstract
Hydrological drought is currently underrepresented in global monitoring systems, mainly due the shortage of near real-time estimates of river discharge at the global scale. In this study, the outputs of the Lisflood model are used to define a low-flow drought index, which shows a good correspondence with long-term records of the Global Runoff Data Centre in the period 1980–2014, as well as with verified information from the literature on six major drought events (covering different regions and watershed sizes). In contrast, the near real-time simulation (from 2015 onward) provides temporally inconsistent estimates over about 20% of the modelled cells (mostly over South America and Central Africa), even if reasonable results are obtained over other regions, as confirmed by intercomparison with the operational outcomes of the European Drought Observatory for the 2018 drought. In spite of the highlighted limitations, valuable information for operational drought monitoring can be retrieved from these simulations. [ABSTRACT FROM AUTHOR]
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- 2020
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18. Recent temporal trend in modelled soil water deficit over Europe driven by meteorological observations.
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Cammalleri, C., Micale, F., and Vogt, J.
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SOIL moisture , *METEOROLOGICAL observations , *RUNOFF , *TREND analysis - Abstract
ABSTRACT The Lisflood rainfall-runoff model was forced by the E- OBS () gridded meteorological dataset in order to produce 5-km resolution maps of root zone soil moisture for the period 1951-2013, which were used to evaluate the presence of significant trends in soil water deficit over Europe. The results of the trend analysis highlighted a clear subdivision of the European domain into two sub-regions: a southwest portion with mostly positive trends (drying of the soil) and a northeast part with decreasing soil water deficit. Overall, about 19% of the domain was affected by a significant linear trend according to the Mann-Kendall test and the false discovery rate ( FDR) procedure ( p = 0.05), with about 11.6% having a negative (wetting) and 7.6% a positive (drying) slope. A spatial cluster analysis identified 11 major areas (with extension > 10 000 km2) affected by significant trends, including the Ebro and Garonne basins (for positive slopes) and the Dniester watershed (for negative trends). A final analysis at national and sub-national levels highlights that most of the observed trends are also significant when aggregated at a regional ( NUTS-1) spatial scale, detecting the administrative areas where water management planes are most likely affected. As drying and wetting processes are occurring mainly in the already driest and wettest sub-areas of the modelling domain, respectively, the obtained results suggest a further polarization of the water deficit in Europe. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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19. Using scintillometry to assess reference evapotranspiration methods and their impact on the water balance of olive groves.
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Minacapilli, M., Cammalleri, C., Ciraolo, G., Rallo, G., and Provenzano, G.
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EVAPOTRANSPIRATION , *WATER balance (Hydrology) , *WATER quality management , *SUSTAINABLE agriculture , *SCINTILLATION counters - 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. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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20. Daytime sensible heat flux estimation over heterogeneous surfaces using multitemporal land-surface temperature observations.
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Castellví, F., Cammalleri, C., Ciraolo, G., Maltese, A., and Rossi, F.
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HEAT flux ,ATMOSPHERIC temperature ,LAND surface temperature ,WIND shear ,AERODYNAMICS - 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 ( H
SR-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. [ABSTRACT FROM AUTHOR]- Published
- 2016
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21. Upscaling of evapotranspiration fluxes from instantaneous to daytime scales for thermal remote sensing applications.
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Cammalleri, C., Anderson, M. C., and Kustas, W. P.
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EVAPOTRANSPIRATION ,REMOTE sensing ,SELF-preservation ,EDDY flux ,ANALYSIS of covariance ,SOLAR radiation ,ATMOSPHERIC radiation - Abstract
Four upscaling methods for estimating daytime actual evapotranspiration (ET) from single time-of-day snapshots, as commonly retrieved using remote sensing, were compared. These methods assume self-preservation of the ratio between ET and a given reference variable over the daytime hours. The analysis was performed using eddy covariance data collected at 12 AmeriFlux towers, sampling a fairly wide range in climatic and land cover conditions. The choice of energy budget closure method significantly impacted performance using different scaling methodologies. Therefore, a statistical evaluation approach was adopted to better account for the inherent uncertainty in ET fluxes using eddy covariance technique. Overall, this approach suggested that at-surface solar radiation was the most robust reference variable amongst those tested, due to high accuracy of upscaled fluxes and absence of systematic biases. Top-of-atmosphere irradiance was also tested and proved to be reliable under near clear-sky conditions, but tended to overestimate the observed daytime ET during cloudy days. Use of reference ET as a scaling flux yielded higher bias than the solar radiation method, although resulting errors showed similar lack of seasonal dependence. Finally, the commonly used evaporative fraction method yielded satisfactory results only in summer months, July and August, and tended to underestimate the observations in the fall/winter seasons from November to January at the flux sites studied. In general, the proposed methodology clearly showed the added value of an intercomparison of different upscaling methods under scenarios that account for the uncertainty in eddy covariance flux measurements due to closure errors. [ABSTRACT FROM AUTHOR]
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- 2014
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22. A data fusion approach for mapping daily evapotranspiration at field scale.
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Cammalleri, C., Anderson, M. C., Gao, F., Hain, C. R., and Kustas, W. P.
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EVAPOTRANSPIRATION ,LAND surface temperature ,SOIL moisture ,MODIS (Spectroradiometer) ,LANDSAT satellites ,WATER supply management - Abstract
Thermal remote sensing methods for mapping evapotranspiration (ET) exploit the physical interconnection that exists between land-surface temperature (LST) and evaporative cooling, employing principles of surface energy balance (SEB). Unfortunately, while many applications in water resource management require ET information at daily and field spatial scales, current satellite-based thermal sensors are characterized by either low spatial resolution and high repeatability or by moderate/high spatial resolution and low frequency. Here we introduce a novel approach to ET mapping that fuses characteristics of both classes of sensors to provide optimal spatiotemporal coverage. In this approach, coarse resolution daily ET maps generated with a SEB model using geostationary satellite data are spatially disaggregated using daily MODIS (MODerate resolution Imaging Spectroradiometer) 1 km and biweekly Landsat LST imagery sharpened to 30 m. These ET fields are then fused to obtain daily ET maps at 30 m spatial resolution. The accuracy of the fused Landsat-MODIS daily ET maps was evaluated over Iowa using observations collected at eight flux towers sited in corn and soybean fields during the Soil Moisture Experiment of 2002, as well as in comparison with a Landsat-only retrieval. A significant improvement in ET accuracy (reducing errors from 0.75 to 0.58 mm d
−1 on average) was obtained by fusing MODIS and Landsat data in comparison with the Landsat-only case, with most notable improvements when a rainfall event occurred between two successive Landsat acquisitions. The improvements are further evident at the seasonal timescale, where a 3% error is obtained using Landsat-MODIS fusion versus a 9% Landsat-only systematic underestimation. [ABSTRACT FROM AUTHOR]- Published
- 2013
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23. 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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Cammalleri, C., Rallo, G., Agnese, C., Ciraolo, G., Minacapilli, M., and Provenzano, G.
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OLIVE , *EDDY flux , *AGROHYDROLOGY , *TRANSPIRATION (Physics) , *ESTIMATION theory , *IRRIGATION , *EVAPOTRANSPIRATION , *SOIL moisture - Abstract
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. [Copyright &y& Elsevier]
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- 2013
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24. Thermal Inertia Modeling for Soil Surface Water Content Estimation: A Laboratory Experiment.
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Minacapilli, M., Cammalleri, C., Ciraolo, G., D'Asaro, F., Iovino, M., and Maltese, A.
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SOIL testing , *THERMAL analysis , *SOIL moisture , *THERMAL conductivity , *SOIL infiltration measurement - Abstract
We are proposing a new method for estimating soil surface water content from thermal inertia distributions retrieved from visible-near infrared (VIS-NIR) and thermal infrared (TIR) images. A drying experiment was conducted on three fine-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 modified 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. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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25. Statistical analysis of inter-arrival times of rainfall events for Italian Sub-Alpine and Mediterranean areas.
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Agnese, C., Baiamonte, G., Cammalleri, C., Cat Berro, D., Ferraris, S., and Mercalli, L.
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RAINFALL periodicity ,QUANTITATIVE research ,DISCRETE probability theory ,QUALITATIVE research ,HOT weather conditions - Abstract
The article presents a study which examines the statistical analysis of inter-arrival time series of rainfall events for Mediterranean and Italian Sub-Alpine areas. The study uses the discrete probability polylog-series distribution as well as applied a simple qualitative trend analysis to some quantiles of inter-arrival times and to the average extent of rain clusters. The study reveals that the duration of dry periods for both environments increased.
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- 2012
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26. Mapping daily evapotranspiration at field to continental scales using geostationary and polar orbiting satellite imagery.
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Anderson, M. C., Kustas, W. P., Norman, J. M., Hain, C. R., Mecikalski, J. R., Schultz, L., González-Dugo, M. P., Cammalleri, C., d'Urso, G., Pimstein, A., and Gao, F.
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EVAPOTRANSPIRATION ,GEOSTATIONARY satellites ,PROJECT POSSUM ,ALGORITHMS ,INFRARED radiation ,REMOTE sensing ,TEMPERATURE ,DROUGHTS - Abstract
Thermal infrared (TIR) remote sensing of landsurface 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 10m. 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. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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27. Estimation of actual evapotranspiration of Mediterranean perennial crops by means of remote-sensing based surface energy balance models.
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Minacapilli, M., Agnese, C., Blanda, F., Cammalleri, C., Ciraolo, G., D'Urso, G., Iovino, M., Pumo, D., Provenzano, G., and Rallo, G.
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EVAPOTRANSPIRATION ,PERMACULTURE ,SURFACE energy ,SOIL moisture ,WATER in agriculture ,VEGETATION & climate ,HYDROLOGY - Abstract
Actual evapotranspiration from typical Mediterranean crops has been assessed in a Sicilian study area by using surface energy balance (SEB) and soil-water balance models. Both modelling approaches use remotely sensed data to estimate evapotranspiration fluxes in a spatially distributed way. The first approach exploits visible (VIS), near-infrared (NIR) and thermal (TIR) observations to solve the surface energy balance equation whereas the soil-water balance model uses only VIS-NIR data to detect the spatial variability of crop parameters. Considering that the study area is characterized by typical spatially sparse Mediterranean vegetation, i.e. olive, citrus and vineyards, alternating bare soil and canopy, we focused the attention on the main conceptual differences between one-source and two-sources energy balance models. Two different models have been tested: the widely used one-source SEBAL model, where soil and vegetation are considered as the sole source (mostly appropriate in the case of uniform vegetation coverage) and the two-sources TSEB model, where soil and vegetation components of the surface energy balance are treated separately. Actual evapotranspiration estimates by means of the two surface energy balance models have been compared vs. the outputs of the agro-hydrological SWAP model, which was applied in a spatially distributed way to simulate one-dimensional water flow in the soil-plant-atmosphere continuum. Remote sensing data in the VIS and NIR spectral ranges have been used to infer spatially distributed vegetation parameters needed to set up the upper boundary condition of SWAP. Actual evapotranspiration values obtained from the application of the soil water balance model SWAP have been considered as the reference to be used for energy balance models accuracy assessment. Airborne hyperspectral data acquired during a NERC (Natural Environment Research Council, UK) campaign in 2005 have been used. The results of this investigation seem to prove a slightly better agreement between SWAP and TSEB for some fields of the study area. Further investigations are programmed in order to confirm these indications. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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28. Estimation of Mediterranean crops evapotranspiration by means of remote-sensing based models.
- Author
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Minacapilli, M., Agnese, C., Blanda, F., Cammalleri, C., Ciraolo, G., D'Urso, G., Iovino, M., Pumo, D., Provenzano, G., and Rallo, G.
- Abstract
Actual evapotranspiration from typical Mediterranean crops has been assessed in a Sicilian study area by using Surface Energy Balance and Agro-Hydrological models. Both modelling approaches require remotely sensed data to estimate evapotranspiration fluxes in a spatially distributed way. The first approach exploits visible (VIS), near-infrared (NIR) and thermal (TIR) observations to solve the surface energy balance equation. To this end two different schemes have been tested: the two-sources TSEB model, where soil and vegetation components of the surface energy balance are treated separately, and the widely used one-source SEBAL model, where soil and vegetation are considered as a sole source. Actual evapotranspiration estimates by means of the two surface energy balance models have been compared with the results of the Agro-Hydrological model SWAP, applied in a spatially distributed way to simulate one-dimensional water flow in the soil-plant-atmosphere continuum. In this latter model, remote sensing data in the VIS and NIR spectral ranges have been used to infer spatially distributed vegetation parameters needed to set up the upper boundary condition of SWAP. In the comparison presented here, actual evapotranspiration values obtained from the application of the soil water balance model SWAP have been considered as the reference. Considering that the study area is characterized by typical Mediterranean sparse vegetation, i.e. olive, citrus and vineyards, we focused the attention on the main conceptual differences between SEBAL and TSEB. Airborne hyperspectral data acquired during a NERC campaign in 2005 have been used. The results of the investigation evidenced that the remote sensing two-sources approach used in TSEB model describes turbulent and radiative surface fluxes in a more realistic way than the one-source approach. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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29. An event-oriented database of meteorological droughts in Europe based on spatio-temporal clustering.
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Cammalleri C, Acosta Navarro JC, Bavera D, Diaz V, Di Ciollo C, Maetens W, Magni D, Masante D, Spinoni J, and Toreti A
- Abstract
Droughts evolve in space and time without following borders or pre-determined temporal constraints. Here, we present a new database of drought events built with a three-dimensional density-based clustering algorithm. The chosen approach is able to identify and characterize the spatio-temporal evolution of drought events, and it was tuned with a supervised approach against a set of past global droughts characterized independently by multiple drought experts. About 200 events were detected over Europein the period 1981-2020 using SPI-3 (3-month cumulated Standardized Precipitation Index) maps derived from the ECMWF (European Centre for Medium-range Weather Forecasts) 5th generation reanalysis (ERA5) precipitation. The largest European meteorological droughts during this period occurred in 1996, 2003, 2002 and 2018. A general agreement between the major events identified by the algorithm and drought impact records was found, as well as with previous datasets based on pre-defined regions., (© 2023. The Author(s).)
- Published
- 2023
- Full Text
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30. Controlled excitations of the Belousov-Zhabotinsky reaction: Experimental procedures.
- Author
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Peralta C, Frank C, Zaharakis A, Cammalleri C, Testa M, Chaterpaul S, Hilaire C, Lang D, Ravinovitch D, Sobel SG, and Hastings HM
- Subjects
- Catalysis, Computer Simulation, Ions, Kinetics, Time, Bromides chemistry, Models, Chemical, Phenanthrolines chemistry, Silver chemistry
- Abstract
The purpose of this research was to explore the unstirred, ferroin-catalyzed Belousov-Zhabotinsky (BZ) reaction as an experimental model for the response of excitable media to small perturbations (slightly larger than the threshold for excitations). Following Showalter et al. (Showalter, K.; Noyes, R. M.; Turner, H. J.Am. Chem. Soc. 1979, 101, 7463-69), we used a positively biased silver electrode to release silver ions into a BZ reaction mixture, removing bromide ions and causing an excitation if sufficient bromide was removed. We found (1) a scaling region in which the delay before activation increased linearly as the size of the perturbation decreased, qualitatively consistent with but not fully explained by the Oregonator of Field et al. (Field, R. J.; Körõs, E.; Noyes, R. M. J. Am. Chem. Soc. 1972, 94, 8649-64); (2) evidence for a 10 s oligomerization time scale; and (3) that activations were always delayed until after the end of a pulse of current, with the delay essentially constant for sufficiently long pulses, an effect not seen in simple ODE models but consistent with the anomalously large current apparently required for activation (Showalter, K.; Noyes, R. M. J. Am. Chem. Soc. 1976, 98, 3730-31) and explainable by bromide transport. Overall, the BZ system appeared to be well-suited as an experimental prototype, despite its complexity.
- Published
- 2006
- Full Text
- View/download PDF
31. Spatiotemporal clustering and temporal order in the excitable BZ reaction.
- Author
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Hastings HM, Sobel SG, Lemus A, Yuen F, Peralta C, Cammalleri C, Chabrel J, Chaterpaul S, Frank C, Hilaire C, Lang D, Ravinovitch D, and Zaharakis A
- Abstract
The prototype experimental example of "spontaneous" pattern formation in an unstirred chemical medium is the oscillatory Belousov-Zhabotinsky (BZ) reaction: target patterns of outward-moving concentric rings are readily observed when the reaction is run in a thin layer in a Petri dish. In many experimental runs, new target centers appeared to form closer to pre-existing target centers than expected in a randomized model. Here we describe a simple direct test for the presence of temporal order in the spatiotemporal dynamics of target nucleation, and apply this test to detect significant temporal order in target formation in the ferroin-catalyzed BZ reaction. We also describe how mixing heterogeneity can generate temporal order, even in the absence of heterogeneous physical nucleating centers.
- Published
- 2005
- Full Text
- View/download PDF
32. The long-term effects of anti-retroviral protease inhibitors on sugar transport in L6 cells.
- Author
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Germinario RJ, Colby-Germinario SP, Cammalleri C, and Wainberg MA
- Subjects
- Biological Transport drug effects, Blotting, Western methods, Carbamates, Cell Membrane metabolism, Cells, Cultured, Furans, Glucose Transporter Type 1, Glucose Transporter Type 3, Glucose Transporter Type 4, Humans, Indinavir pharmacology, Insulin pharmacology, Monosaccharide Transport Proteins metabolism, Myoblasts drug effects, Ritonavir pharmacology, Saquinavir pharmacology, Sulfonamides pharmacology, Deoxyglucose metabolism, HIV Protease Inhibitors pharmacology, Muscle Proteins, Myoblasts metabolism, Nerve Tissue Proteins
- Abstract
The objective of this study was to investigate the long-term effects of anti-retroviral protease inhibitors (PIs) on 2-deoxy-d -glucose (2-DG) transport in L6 cells in vitro. Exposure of L6 cells to saquinavir, ritonavir, indinavir and amprenavir resulted in significant increases in 2-DG transport using PI concentrations of 1-10 microM with continual exposure to PI. After removal of the PI for up to 48 h, 2-DG transport increases did not change and remained at pre-reversal levels. These changes in 2-DG transport were not related to stress-induced sugar transport or to apoptosis. The examination of glucose transporter (GLUT) 1, 3 or 4 translocation with subcellular fractionation indicated that insulin (i.e. 67 nM) could induce the translocation of all the GLUTs to the plasma membrane. Also, ritonavir (10 microM), which leads to a 2-fold increase in 2-DG transport, demonstrated increased GLUT (i.e. 1, 3 or 4) presence in the plasma membrane fraction, in the presence or absence of insulin. This increased 2-DG transport involved transporter presence in plasma membrane preparations and did not affect the ability of insulin to stimulate 2-DG transport with continual PI exposure. The mechanism(s) involved indicates ready reversibility of PI effects on transporters. The mechanism(s) why reversibility of PI-induced 2-DG transport was similar plus or minus PI was not apparent.
- Published
- 2003
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- View/download PDF
33. The effects of protease inhibitors on basal and insulin-stimulated lipid metabolism, insulin binding, and signaling.
- Author
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Cammalleri C and Germinario RJ
- Subjects
- Adipocytes drug effects, Adipocytes metabolism, Cell Line, Indinavir pharmacology, Insulin Receptor Substrate Proteins, Lipolysis drug effects, Phosphoproteins metabolism, Phosphorylation drug effects, Ritonavir pharmacology, Saquinavir pharmacology, Triglycerides biosynthesis, Insulin metabolism, Insulin pharmacology, Lipid Metabolism, Protease Inhibitors pharmacology, Signal Transduction drug effects
- Abstract
The objective of our research was to investigate the effects of the protease inhibitors ritonavir, saquinavir, and indinavir on triglyceride synthesis, lipolysis, insulin binding, and signaling in differentiating 3T3 L1 pre-adipocytes. Saquinavir, ritonavir, and indinavir all stimulated triglyceride (TG) synthesis. Additionally, all concentrations of protease inhibitors employed (i.e., 0.1 micro M to 10 micro M) significantly decreased insulin-stimulated TG synthesis. No effects of any of the protease inhibitors were observed either on basal lipolysis or after stimulation of lipolysis with 100 nM noradrenaline. Specific (125)I-insulin binding was observed to be decreased by exposure to all the protease inhibitors throughout the period of adipocyte phenotype development. This was mediated by indinavir through a receptor decrease and had no effect on receptor affinity. During differentiation with ritonavir (i.e., 1-11 days post addition of differentiating cocktail), insulin receptor substrate-1 (IRS-1) tyrosine phosphorylation was ascertained (day 11) and found to be decreased in the ritonavir exposed cells when compared with control cells. The results reported herein demonstrate protease inhibitor effects on basal TG synthesis while exhibiting decreased insulin-stimulated TG synthesis at physiological concentrations of protease inhibitors. These effects may be subsequent to decreased insulin binding and/or IRS-1 tyrosine phosphorylation.
- Published
- 2003
- Full Text
- View/download PDF
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