<scp>SPHERA</scp>, a new convection‐permitting regional reanalysis over Italy: Improving the description of heavy rainfall

Giordani, Antonio; Cerenzia, Ines; Paccagnella, Tiziana; Sabatino, Silvana Di

doi:10.1002/qj.4428

Cited by 9 publications

(8 citation statements)

References 95 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Additionally, the superior performance in capturing hourly and daily extreme precipitation including return-level, frequency and intensity from CPRCMs over Alpine in Europe, has also been highlighted by Adinolfi et al (2021), Dallan et al (2023) and Giordani et al (2023).…”

Section: Introductionmentioning

confidence: 84%

Enhanced Evaluation of Sub-daily and Daily Extreme Precipitation in Norway from Convection-Permitting Models at Regional and Local Scales

Xie,

Li,

Chen

et al. 2024

Preprint

View full text Add to dashboard Cite

Abstract. Convection-permitting regional climate models (CPRCMs) have demonstrated enhanced capability in capturing extreme precipitation compared to regional climate models (RCMs) with convection-parameterization schemes. Despite this, a comprehensive understanding of their added values in daily or sub-daily extremes, especially at local scale, remains limited. In this study, we conduct a thorough comparison of daily and sub-daily extreme precipitation from HARMONIE-Climate model, cycle 38 at 3 km resolution (HCLIM3) and 12 km resolution (HCLIM12) across Norway’s diverse landscape, divided into eight regions, using both gridded and in-situ observations. Our main focus is to investigate the added value of CPRCMs (i.e., HCLIM3) compared to RCMs (i.e., HCLIM12) for extreme precipitation at daily and sub-daily scales from regional to local scales, and quantify to what extend CPRCM can reproduce the orographic effect on extreme precipitation at daily and sub-daily scale. We find that HCLIM3 better matches observations than HCLIM12 for daily and sub-daily precipitation extreme indices at regional scale in Norway. More specifically, HCLIM3 better captures the maximum 1-day precipitation (Rx1d) at most of the regions except south-western region in Norway. Notably, HCLIM12 shows underestimation in the complex orography for annual Rx1d. For the maximum 1-hour precipitation (Rx1h), the superiority from HCLIM3 have also been found on average, although with slightly higher wet-bias in the western, middle-inland and middle-coastal during summer. In addition, the reverse orography effect on seasonal Rx1h at regional scale can be better reproduced by HCLIM3 than HCLIM12 in most seasons except spring. At the local scale, HCLIM3 can better capture the temporal evolution of Rx1h than HCLIM12 when compared with observations between 1999–2018. However, we see that the benefit from HCLIM3 in capturing seasonal Rx1d within western region diminishes at local scale. Most interesting finding is that the added value from HCLIM3 is clearer in Rx1h than in Rx1d at both regional and local scale, especially in the extreme seasonality. In general, HCLIM3 performs better than HCLIM12 on Rx1d and Rx1h in Norway with the mean of bias distribution closer to zero, although it varies a bit among regions. Specifically, HCLIM3 performs slightly poorer in the south-western region. This study highlights the importance of more realistic convection-permitting regional climate simulations in providing reliable insights into the characteristics of precipitation extremes across Norway's eight regions. Such information is crucial for effective adaptation management to mitigate severe hydro-meteorological hazards, especially for the local extremes.

show abstract

Section: Introductionmentioning

confidence: 84%

Enhanced Evaluation of Sub-daily and Daily Extreme Precipitation in Norway from Convection-Permitting Models at Regional and Local Scales

Xie,

Li,

Chen

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

“…In addition to observations, the analysis uses a high-resolution convection-permitting reanalysis product, called SPHERA (High rEsolution ReAnalysis over Italy; Cerenzia et al, 2022;Giordani et al, 2023), produced by ARPAE-SIMC (Agency for Environmental Protection of the Emilia Romagna Region, Italy). Based on the non-hydrostatic 120 limited-area model COSMO (Schättler et al, 2018;Baldauf et al, 2011), SPHERA dynamically downscales the global reanalysis ERA5 (Hersbach et al, 2020) assimilating regional in situ observations to improve the quality of the simulation.…”

Section: Observational Climate Datamentioning

confidence: 99%

“…This new reanalysis product covers Italy at a horizontal resolution of 2.2 km with a temporal coverage of 26 years . SPHERA reanalysis, validated against ERA5 by Giordani et al (2023), shows added value for the description of moderate to severe local precipitation events and extreme rainfall. The performance of SPHERA 125 demonstrates that it can be a valuable resource for improving climate monitoring by providing insights into regional climate change impacts (Giordani et al, 2023).…”

Section: Observational Climate Datamentioning

confidence: 99%

Using a convection-permitting climate model to predict wine grape productivity: two case studies in Italy

Massano,

Fosser,

Gaetani

et al. 2024

Preprint

View full text Add to dashboard Cite

Abstract. Viticulture is tied to climate, it influences the suitability of an area, yield and quality of wine grapes. Therefore, traditional wine-growing regions could be threatened by a changing climate. Italy is at-risk being part of the Mediterranean climatic hotspot and judged in 2022 the second-largest exporter of wine worldwide. The article explores the potential of climate models to predict wine grape productivity at local scale. To this end, both single and multi-regression approaches are used to link productivity data provided by two Italian wine consortia with bioclimatic indices. Temperature and precipitation-based bioclimatic indices are computed by using the observational dataset E-OBS, the high-resolution climate reanalysis product SPHERA, and both the Regional and the Convection-permitting Climate Model (RCM and CPM). The potential of CPMs to represent the impact of climate variability on wine grape productivity at local scale in Italy is evaluated. The results indicate high correlations between some bioclimatic indices and productivity. Climate models appear to be a useful tool to explain productivity variance, however, the added value of CPM, became evident only when precipitation-based indices are considered. This assessment opens the path for using climate models, especially at convection-permitting scale, to investigate future climate change impact on wine production.

show abstract

“…New generations of automatic hail recorders (HARE) are in operation in some regions, for example, in parts of Switzerland (Löffler-Mang et al, 2011;Kopp et al, 2022), but unfortunately these systems are very expensive and can not be implemented over extended areas. Ground-based hailpad networks can provide homogeneous long-term records and have been deployed in several parts of the world, such as in parts of China, France, Italy, or Croatia (e.g., Changnon Jr, 1970;Giaiotti et al, 2003;Xie et al, 2008;Sánchez et al, 2009;Palencia et al, 2010;Manzato, 2012;Dessens et al, 2015). However, they cover only smaller regions and require significant resources for their maintenance.…”

mentioning

confidence: 99%

“…Particularly, CP models have provided added value for the representation of tornadic or large-hail environments (Clark et al, 2013;Adams-Selin and Ziegler, 2016;Labriola et al, 2019;Gagne II et al, 2019;Manzato et al, 2020;Malečić et al, 2022). The need for an enhanced description of high-impact, rapidly-evolving and sharply-localized atmospheric phenomena prompted the development of a new CP regional reanalysis over south-central Europe: SPHERA (High rEsolution ReAnalysis over Italy - Cerenzia et al, 2022;Giordani et al, 2023). Based on dynamical downscaling of ERA5 and driven by a non-hydrostatic model COSMO (Schättler et al, 2018) at 0.02°grid spacing, SPHERA has shown to enhance the description of weather extremes such as severe precipitation over Italy and neighboring countries (Giordani et al, 2023).…”

mentioning

confidence: 99%

Characterizing hail-prone environments using convection-permitting reanalysis and overshooting top detections over south-central Europe

Giordani,

Kunz,

Bedka

et al. 2023

Preprint

View full text Add to dashboard Cite

Abstract. The challenges associated with reliably observing and simulating hazardous hailstorms call for new approaches that combine information from different available sources, such as remote sensing instruments, observations, or numerical modeling, to improve understanding of where and when severe hail most often occurs. In this work, a proxy for hail frequency is developed by combining overshooting cloud top (OT) detections from the Meteosat Second Generation (MSG) weather satellite with convection-permitting SPHERA reanalysis predictors describing hail-favorable environmental conditions. Atmospheric properties associated with ground-based reports from the European Severe Weather Database (ESWD) are considered to define specific criteria for data filtering. Five convection-related parameters from reanalysis data quantifying key ingredients for hailstorm occurrence enter the filter, namely: most unstable convective available potential energy (CAPE), K index, surface lifted index, deep-layer shear, and freezing level height. A hail frequency estimate over the extended summer season (April–October) in south-central Europe is presented for a test period of 5 years (2016–2020). OT-derived hail frequency peaks at around 15 UTC in June–July over the pre-Alpine regions and the northern Adriatic sea. The hail proxy statistically matches with ∼62 % of confirmed ESWD reports, which is roughly 22 % more than the previous estimate over Europe coupling deterministic satellite detections with coarser global reanalysis ambient conditions. The separation of hail events according to their severity highlights enhanced appropriateness of the method for large-hail-producing hailstorms (with hailstones diameters ≥ 3 cm). Further, signatures for small-hail missed occurrences are identified, which are characterized by lower instability and organization, and warmer cloud-top temperatures.

show abstract

SPHERA, a new convection‐permitting regional reanalysis over Italy: Improving the description of heavy rainfall

Cited by 9 publications

References 95 publications

Enhanced Evaluation of Sub-daily and Daily Extreme Precipitation in Norway from Convection-Permitting Models at Regional and Local Scales

Enhanced Evaluation of Sub-daily and Daily Extreme Precipitation in Norway from Convection-Permitting Models at Regional and Local Scales

Using a convection-permitting climate model to predict wine grape productivity: two case studies in Italy

Characterizing hail-prone environments using convection-permitting reanalysis and overshooting top detections over south-central Europe

Contact Info

Product

Resources

About