Your search keyword '"Cerlini, Paolina Bongioannini"' showing total 5 results

1. Performance of three reanalyses in simulating the water table elevation in different shallow unconfined aquifers in Central Italy.

Author

Cerlini, Paolina Bongioannini, Silvestri, Lorenzo, Meniconi, Silvia, and Brunone, Bruno

Subjects

*AQUIFERS, *GROUNDWATER management, *GROUNDWATER recharge, *WATER table, *HYDRAULIC conductivity, *SOIL depth, *SOIL moisture

Abstract

Water table elevation is a key feature for identifying the groundwater behaviour. Accordingly, appropriate measurements—in terms of both frequency and spatial distribution—play a crucial role for capturing the aquifer response to recharge and withdrawals. However, numerical models simulating the main features of the behaviour of the water table elevation may help groundwater management, as an additional tool. In this article, soil moisture data from three well‐established global reanalyses (ERA5, CFS, and JRA‐55) are used for evaluating the flux in the vadose zone towards shallow unconfined aquifers, Fg$$ {F}_g $$, in the Umbria region (central Italy). Then, according to the methodology proposed in Bongioannini Cerlini et al. (2021), where for the considered aquifers most of the recharge derives from the unsaturated zone, Fg$$ {F}_g $$ is used for simulating the water table evolution in time. With the aim of assessing which reanalysis is the most appropriate in simulating the evolution of groundwater levels, the properties of the correspondent land surface models (LSM) are examined, as they provide Fg$$ {F}_g $$. For the considered aquifers, the analysis of the performance of the selected reanalyses confirms the validity of the proposed approach. Moreover, it points out the crucial role of the spreading of the water table elevation with respect to its mean value, as a significant parameter for selecting the most adequate reanalysis to use. In addition, the role in the LSM of the explored soil depth, hydraulic conductivity curve, and spatial resolution is highlighted. These results, in line with recent literature on the performance of the reanalyses, suggest to extend future work to other regions of the world. [ABSTRACT FROM AUTHOR]

Published

2023

2. Simulation of the Water Table Elevation in Shallow Unconfined Aquifers by means of the ERA5 Soil Moisture Dataset: The Umbria Region Case Study.

Author

CERLINI, PAOLINA BONGIOANNINI, SILVESTRI, LORENZO, MENICONI, SILVIA, and BRUNONE, BRUNO

Subjects

*ALTITUDES, *SOIL moisture, *GENERAL circulation model, *WATER table, *SOIL moisture measurement, *AQUIFERS, *GROUNDWATER management, *GROUNDWATER recharge

Abstract

This paper concerns the simulation of the water table elevation in shallow unconfined aquifers where infiltration is assumed as the main mechanism of recharge. The main aim is to provide a reliable tool for groundwater management that satisfies water supply managers. Such a tool is a candidate as a physically based alternative to the use of empirical methods or general circulation models. It is based on the use of two widely available sets of data: the water table elevation measurements and soil moisture time series. In fact, the former are usually provided by government agencies on public websites whereas the latter are included in the atmospheric global datasets (reanalysis). It is notable that data from reanalysis are accessible to any citizen and organization around the world on an open-access basis (e.g., Copernicus). In the proposed method, the measured water table elevations are correlated quantitatively with the water fluxes toward the aquifer evaluated using the soil moisture data from ERA5 reanalysis (provided by ECMWF) within a Richards equation-based approach. The analysis is executed using data from the Umbria region (Italy) on both a daily and monthly scale. In fact, these are the time intervals of interest for a proper management of groundwater resources. The proposed relationships include both a logarithmic and linear term and point out the possible different regimes of the shallow aquifers with regard to the recharge due to infiltration. These different mechanisms reflect in the different role played by the water fluxes toward the aquifer in terms of water table elevation changes according to the considered time scale. [ABSTRACT FROM AUTHOR]

Published

2021

3. Simulation of the Water Table Elevation in Shallow Unconfined Aquifers by means of the ERA5 Soil Moisture Dataset: The Umbria Region Case Study.

Author

Cerlini, Paolina Bongioannini, Silvestri, Lorenzo, Meniconi, Silvia, and Brunone, Bruno

Subjects

*WATER table, *SOIL moisture, *GENERAL circulation model, *AQUIFERS, *SOIL moisture measurement, *GROUNDWATER management, *ALTITUDES, *GROUNDWATER recharge

Abstract

This paper concerns the simulation of the water table elevation in shallow unconfined aquifers where infiltration is assumed as the main mechanism of recharge. The main aim is to provide a reliable tool for groundwater management that satisfies water supply managers. Such a tool is a candidate as a physically based alternative to the use of empirical methods or general circulation models. It is based on the use of two widely available sets of data: the water table elevation measurements and soil moisture time series. In fact, the former are usually provided by government agencies on public websites whereas the latter are included in the atmospheric global datasets (reanalysis). It is notable that data from reanalysis are accessible to any citizen and organization around the world on an open-access basis (e.g., Copernicus). In the proposed method, the measured water table elevations are correlated quantitatively with the water fluxes toward the aquifer evaluated using the soil moisture data from ERA5 reanalysis (provided by ECMWF) within a Richards equation–based approach. The analysis is executed using data from the Umbria region (Italy) on both a daily and monthly scale. In fact, these are the time intervals of interest for a proper management of groundwater resources. The proposed relationships include both a logarithmic and linear term and point out the possible different regimes of the shallow aquifers with regard to the recharge due to infiltration. These different mechanisms reflect in the different role played by the water fluxes toward the aquifer in terms of water table elevation changes according to the considered time scale. [ABSTRACT FROM AUTHOR]

Published

2021

4. The correlation of long‐range Saharan dust advections with the precipitation and radiative budget in the Central Mediterranean.

Author

Silvestri, Lorenzo, Petroselli, Chiara, Saraceni, Miriam, Crocchianti, Stefano, Cappelletti, David, and Cerlini, Paolina Bongioannini

Subjects

*WATER vapor transport, *MINERAL dusts, *OCEAN temperature, *AIR masses, *DUST measurement

Abstract

This work analyses 10 years (from 2009 to 2018) of long‐range Saharan dust advections (SDAs) and their correlation with the precipitation and radiative budget over the Central Mediterranean region. The identification of the SDAs is based on back‐trajectories (BTs) of air mass and complementary measurements of the dust deposited at the site of Monte Martano in Central Italy. The associated synoptic circulation weather types (CWT), precipitation and radiation variables have been estimated by using ERA5 and CAMS reanalysis, satellite data and raingauge observations. It is found that the 50% of all SDAs occur under a CWT characterized by an upper level trough over the Western Mediterranean and a high‐pressure system over the Eastern Mediterranean. Strong southerly winds, large vertical integral of water vapour transport and a positive anomaly of 2 m temperature are associated with dust uplift and transport. The effect of dust on rainfall intensity puts forward the important modulation of the aerosol effects on the radiative budget with a latitudinal dependence. On dusty days, intense rainfall increases over the northern Central Mediterranean and light rainfall is suppressed in the southern Central Mediterranean, pointing out a relevant correlation between dust and the intensification of extreme events. Other than affecting rainfall intensity, the stronger surface heating over the southern Central Mediterranean, which is correlated to a higher dust optical depth, causes a local maximum of sea surface temperature (SST) and near‐surface temperature anomaly. [ABSTRACT FROM AUTHOR]

Published

2024

5. Validation of a regional agrometeorological network in Central Italy using ECMWF ERA5 reanalysis.

Author

Cerlini, Paolina Bongioannini, Silvestri, Lorenzo, Onofri, Andrea, and Farneselli, Michela

Subjects

*AUTOMATIC meteorological stations, *CLIMATIC zones, *RURAL geography, *EFFECT of environment on plants, *PLANT diseases, *RURAL development, *SCIENTISTS

Abstract

During the analysis - funded by The European Agricultural Fund for Rural Development (EAFRD) that has financed the EU's contribution to rural development program in Umbria (Italy) – of meteorological data from automatic weather stations following the WMO requirements [1], it has become evident the need of using the newest global climatic data (ERA5, ECMWF [2]) to compute indices to perform an extended quality control over data and to give climate information to the end users. The peculiar regional environment with strong orographic modulation of the Umbria region and the consequent impact over the precipitation field together with the signal of a seasonal and intra-seasonal change of the temperature distribution, show a complex impact of the climate change over the Umbria region and broadly over Central Italy. This work is trying to show how to account for the impact of the climate change over the phenology of vineyards using different indices as SPI, SPEI, and Winkler starting from the new reanalysis dataset with enhanced resolution in time and space. Moreover within this project agronomists and plant pathologists are cooperating with meteorological scientists to analyze and relate weather epidemic development in order to reduce the economic impact and environmental effects of airborne plant disease epidemics and ultimately to make the end-users timely decisions about the effective and economical application of fungicides and about other tactics to manage plant diseases.[1] WMO. Guide to agricultural meteorological practices (wmo-no. 134). World Meteorological Organization: Geneva, Switzerland, 2010.[2] https://www.ecmwf.int/en/forecasts/datasets/archive-datasets/reanalysis-datasets/era5 [ABSTRACT FROM AUTHOR]

Published

2019