Investigating the trends of reference evapotranspiration (ETo) is fundamental importance for water resource management in agriculture, climate variability analysis, and other hydroclimate-related projects. Moreover, it would be useful for understanding the sensitivity of such trends to basic meteorological variables, as the modifications of these variables due to climate change are more easily predictable. This study aims to analyze ETo trends and sensitivity in relation to different explanatory meteorological factors. The study used a 17 year-long dataset of meteorological variables from a station located in Piazza Armerina, Sicily, a region characterized by a Mediterranean climate. First, the FAO-Penman-Monteith method was applied for estimation of ETo. Next, the Mann-Kendall test with serial autocorrelation removal by Trend-free pre-whitening (TFPW) was applied to analyze ETo trends and the basic meteorological variables on which they depend. Sen’s slope was also used to examine the magnitude of the trend of monthly ETo and its related meteorological variables. According to the obtained results, ETo only showed a downward trend of 0.790 mm per year in November, while no trend is shown in other months or on seasonal and annual time scales. Solar radiation (November and Autumn) and rainfall (Autumn) showed a downward trend. The other meteorological variables (minimum temperature, maximum temperature, mean temperature, wind speed, and relative humidity) showed an upward trend both at monthly and seasonally scale in the study area. The highest and lowest sensitivity coefficients of ETo in the study area are obtained for specific humidity and wind speed, respectively. Specific humidity and wind speed give the highest (44.59%) and lowest (0.9%) contribution to ETo trends in the study area. These results contribute to understanding the potential and possible future footprint of climate change on evapotranspiration in the study area.
Large-scale photovoltaic (PV) power plants may affect the hydrological cycle in all its components. Among the various components, evapotranspiration is one of the most important. As a preliminary step for assessing the impacts of PV plants on evapotranspiration, in this study, we performed an evaluation study of methods for estimating reference evapotranspiration (ETo). FAO and ASCE recommend the Penman–Monteith (PM) method for the estimation of ETo when the data for all involved variables are available. However, this is often not the case, and different empirical methods to estimate ETo, requiring mainly temperature data, need to be used. This study aimed at assessing the performance of different temperature- and radiation-based empirical ETo estimation methods against the standardized PM ETo method in an experimental photovoltaic power plant in Piazza Armerina, Sicily, Italy, where a meteorological station and a set of sensors for soil moisture were installed. The meteorological data were obtained from the Lab from July 2019 to end of January 2022. By taking the ETo estimations from the PM method as a benchmark, the study assessed the performance of various empirical methods. In particular, the following methods were considered: Hargreaves and Samani (HS), Baier and Robertson (BR), Priestley and Taylor (PT), Makkink (MKK), Turc (TUR), Thornthwaite (THN), Blaney and Criddle (BG), Ritchie (RT), and Jensen and Haise (JH) methods, using several performance metrics. The result showed that the PT is the best method, with a Nash–Sutcliffe efficiency (NSE) of 0.91. The second method in order of performance is HS, which, however, performs significantly worse than PT (NSE = 0.51); nevertheless, this is the best among methods using only temperature data. BG, TUR, and THN underestimate ETo, while MKK, BG, RT, and JH showed overestimation of ETo against the PM ETo estimation method. The PT and HS methods are thus the most reliable in the studied site.
<p>Flash droughts develop and intensify rapidly under the influence of abnormally high temperatures, wind speed, radiation and declining of the normal precipitation rate. The changing of Potential evapotranspiration (PET) and soil moisture is considered as key early warning and development of flash drought indicators.</p> <p>In this study, we first analyse spatio-temporal trends of the PET at monthly, seasonal, and annual temporal scales in Sicily. &#160;PET is estimated by the Penman-Monteith method based on a network of 46 meteorological stations, at daily metrological data. The Mann Kendall test and Sen&#8217;s slope analysis are applied to identify the significance of PET trends in the region. Result showed increasing trends for most of the months and the region. For instance, August had the highest increasing PET monthly trend, with a maximum of 1.73 mm per year and the highest increasing annual trend was 10.68 mm per year. Findings of this analysis provide preliminary insights on how climate change can influence PET.</p> <p>Then, we carry out a preliminary investigation of flash droughts based on a joint analysis of potential evapotranspiration and soil moisture. In particular, based both on the network of meteorological stations and reanalysis data&#160; of soil moisture at hourly resolution, daily&#160; potential evapotranspiration (PET) and soil estimations at different soil depths are analysed with the method of runs. Considering different thresholds, the runs of PET and soil moisture are compared to characterize flash drought periods and to understand the relation between the two variables. Results indicate a significant link between the variables, and thus a potential for developing flash drought monitoring tools.</p> <p>&#160;</p> <p>&#160;</p> <p><strong>Keywords: Flash drought, Potential evapotranspiration (PET), Spatiotemporal, Trend, Sicily</strong></p> <p>&#160;</p>
The current Italian photovoltaic park begins to show significant underperformance in efficiency mainly due to degradation of the modules, component defects, incorrect design, construction and maintenance of the systems. Such criticisms have the highest occurrences for the older installations which have had to meet feed-in tariff deadlines. According to GSE data, in Italy at the end of 2013 about 11,000 photovoltaic systems of between 200 kW and 5000 MW were installed, for a total power of about 11.0 GW, the prospective of upgrading and improving these older plants becomes progressively significant to both producers and PV plant owners. To meet these new needs, the Italian Energy Service System Operator (GSE) has recently issued new directives for repowering that allow producers of photovoltaic energy to maintain and modernize their plants without losing incentives. To evaluate the opportunities deriving from the possibility of revamping existing plants, a case study on a PV plant built in Sicily for which significant production losses were found is presented. The total investment costs, estimated in approximately € 444,000, is based on a market survey and the advice of industry experts. Considering the residual incentive period still recognized equal to 13, the economic return on investment is expected 8th year of post-revamping. The possibility of making this type of operation compatible with the maintenance of incentives is, therefore, an opportunity to increase the efficiency and enhancement of the national photovoltaic park and at the same time a potentially advantageous investment for producers.
<p>Climate change has potential impacts on the hydrological cycle components, especially those strongly related to temperature, such as evapotranspiration. Assessing trends of the reference evapotranspiration (ETo) and of the related climatic factors is essential for improving water resource management especially with reference to watershed&#160; hydrology and agricultural uses. In this research, we aim to analyze the trend of ETo and of its influencing climatic factors. &#160;More specifically, we examine the sensitivity of ETo for different climatic factors and the contribution of climatic factors for the trend of ETo in the study area.&#160; The study considered decadal observations of climatic data from meteorological stations in Sicily, and reference evapotranspiration was estimated through the FAO Penman-Monteith method. &#160;The Mann-Kendall test, with verification of the Trend-free prewhitening (TFPW) method, has been applied for the trend and sensitivity analyses. The Sen&#8217;s slope has also been used to examine the magnitude of the trend. Results, relative to a pilot gauging station in Piazza Armerina, indicate that the ETo has decreasing trend only in November with a decrease of 0.790 mm per year. The solar radiation (November and Autumn) and rainfall (Autumn) showed decreasing trends. While other climatic factors (minimum temperature, maximum temperature, mean temperature, wind speed and relative humidity) showed increasing trend both monthly and seasonally in the study area. Furthermore, the sensitive analysis shows that ETo is mostly sensitive to relative humidity and least sensitive to wind speed in the study area. Similarly relative humidity contributes the most to the trend of ETo (44.59% decreasing contribution), while wind speed has the least contribution (0.9% increasing contribution) in the study area.&#160; These results can find application for irrigation scheduling and water related development project in the study area.</p>
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