High-resolution Climate Data for a High-altitude Region in Southern Spain (Sierra Nevada): Pseudo-global warming (Version 2)

García-Valdecasas Ojeda, Matilde; Solano-Farias, Feliciano; Donaire-Montaño, David; Castro-Díez, Yolanda; Gamiz-Fortis, Sonia Raquel; Esteban-Parra, María Jesús

High-resolution Climate Data for a High-altitude Region in Southern Spain (Sierra Nevada): Pseudo-global warming (Version 2)

doi:10.26050/WDCC/HighResClimNevada_warm_v2

García-Valdecasas Ojeda, Matilde et al.

ExperimentDOI

convection-permitting high mountain climate LifeWatch Sierra Nevada

Summary: This database offers highly valuable climate information for the Sierra Nevada (SN) mountain range, identified as a double climate-change hotspot since it constitutes a semi-arid mountain system within the Mediterranean, a region especially vulnerable to climate change. Moreover, SN is an area where high-quality climate data are particularly scarce, largely due to its difficult accessibility.

Pseudo-projected climate data (1991-2020 + climate change signal of a set of 24 CMIP6 GCMs for the period 2070-2099 under the SSP5-8.5) at very-high spatial resolution (1 km) for Sierra Nevada, the highest mountain region in the Iberian Peninsula (IP) located in southeastern Andalusia (Spain). Data obtained using the Weather Research & Forecasting (WRF) model v4.3.3 (Skamarock et al., 2021) driven by the ERA5 reanalysis (Hersbach et al., 2018) + climate change signal of a set of 24 CMIP6 GCMs for the period 2070-2099 under the SSP5-8.5. The planetary boundary layer (PBL) scheme used was the Asymmetric Convective Model version 2 (ACM2; Pleim, 2007). Both longwave and shortwave radiation were parameterized using the Community Atmosphere Model version 3.0 (CAM3.0; Collins et al., 2004). The microphysics scheme applied was the WRF Single-Moment 7-class scheme (WSM7; Bae et al., 2019), and the land surface model used was NOAH-MP (Niu et al., 2011). Convection was explicitly resolved (i.e., no cumulus parameterization was used).

The dataset is organized into four categories:

Primary Climate Variables (68 files): Daily values of relative humidity, net radiation, accumulated precipitation, surface pressure, maximum temperature, minimum temperature, mean temperature, and wind speed; and hourly values of accumulated precipitation and mean temperature for the entire period.

Hourly Precipitation Extremes (3 files): Frequency and intensity (Fwet and Iwet respectively) of wet hours (precipitation > 0.1 mm/hour) and the maximum hourly precipitation during the wettest month.

ETCCDI Extreme Indices (12 files): Annual values of selected indices from the Expert Team on Climate Change Detection and Indices (ETCCDI), including: Consecutive Dry Days (CDD), Daily Temperature Range (DTR), Growing Season Length (GSL), Icing Days (ID), Number of Wet Days (R1mm), Heavy Precipitation Days (R10mm), Very Heavy Precipitation Days (R20mm), Wettest Pentad (Rx5day), Simple Daily Intensity Index (SDII), Frost Days (TNltm2), Coldest Night (TNn), and Warmest Day (TXx).

Bioclimatic Variables (18 files): Annual and seasonal mean temperature (BIO1 and BIO1*), annual mean maximum temperature (BIOmax and BIO1max*), annual mean minimum temperature (BIOmin and BIO1min*), isothermality (BIO3), temperature seasonality (BIO4), maximum temperature of the warmest month (BIO5), minimum temperature of the coldest month (BIO6), annual temperature range (BIO7), mean temperature of the wettest quarter (BIO8), mean temperature of the driest quarter (BIO9), annual precipitation (BIO12), seasonal mean precipitation (BIO12*), precipitation of the wettest month (BIO13), precipitation seasonality (BIO15), and precipitation of the coldest quarter (BIO19).

This version has data updated to 2022 in the evaluation period and, as a new feature, adds hourly resolution climate information on temperature and precipitation, as well as new derived variables such as various ETCCDI indices or climate variables that are essential for characterizing the mountain climate in this region.
Project: HighresolClimNevada (High-resolution Climate Data for a High-altitude Region in Southern Spain: Sierra Nevada)
Contact: Dr. Matilde García-Valdecasas Ojeda (
mgvaldecasas@nullugr.es
0000-0001-9551-8328)
Prof. Dr. María Jesús Esteban-Parra (
esteban@nullugr.es
0000-0003-1350-6150)
Spatial Coverage: Longitude -3.85 to -2.4 Latitude 36.5 to 37.5 Altitude: 233 m to 3478 m
Temporal Coverage: 1991-01-01 to 2020-12-31 (gregorian)
Use constraints: Creative Commons Attribution 4.0 International (https://creativecommons.org/licenses/by/4.0/)
Data Catalog: World Data Center for Climate
Size: 35.88 GiB (38525934774 Byte)
Format: NetCDF
Status: completely archived
Creation Date: 2024-11-11
Future Review Date: 2034-11-14
Previous Version(s): doi:10.26050/WDCC/HighresolClimNevada_warm

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Cite as: García-Valdecasas Ojeda, Matilde; Solano-Farias, Feliciano; Donaire-Montaño, David; Castro-Díez, Yolanda; Gamiz-Fortis, Sonia Raquel; Esteban-Parra, María Jesús (2025). High-resolution Climate Data for a High-altitude Region in Southern Spain (Sierra Nevada): Pseudo-global warming (Version 2). World Data Center for Climate (WDCC) at DKRZ. https://doi.org/10.26050/WDCC/HighResClimNevada_warm_v2

BibTeX RIS

Funding: Andalusian Goverment
Grant/Award No: BIOD22_002 - Recopilación, organización y puesta en valor de la información, servicios de infraestructura digital y entornos virtuales de investigación (VRE)
Ministry of Science and Innovation
Grant/Award No: LifeWatch-2019-10-UGR-01 - Thematic Center on Mountain Ecosystem & Remote sensing, Deep learning-AI e-Services University of Granada-Sierra Nevada (SMART_ECOMOUNTAINS)
Ministry of Science and Innovation
Grant/Award No: PID2021-1264010b-I00 - Predicción climática decenal regionalizada en la Península Ibérica: Eventos extremos y variables orientadas a los usuarios (PRECLIMDEX)

Accuracy report

Level 0

Description: Level 0: These data are the raw data obtained with the WRF model v4.3.3 (https://github.com/wrf-model/WPS/releases/tag/v4.3, Skamarock et al., 2021).

The configuration used was based on two “one-way” domains. The first domain (d01) covers the Iberian Peninsula with a spatial resolution of 5 km. The second domain (d02) covers the Andalusia region with a spatial resolution of 1 km. For computational resource reasons, the simulation was divided into two time periods (2001-2010, 2011-2020) and performed in continuous simulations with a one-year spin-up period. This experiment (evaluation) was driven by the ERA5 reanalysis (Hersbach et al., 2018). PBL was set to the Asymmetric Convective Model version 2 (ACM2, Pleim, 2007). Both longwave and shortwave radiation were parameterized using the Community Atmosphere Model 3.0 (CAM3.0, Collins et al., 2004). WRF single-moment 7-class (WSM7, Bae et al., 2019) was used as the microphysics scheme and the NOAH MP (Niu et al., 2011) as the land surface model. Convection was disabled.
Result Date: 2025-08-20

FAIR

F-UJI result: total 69.23 %

Description: Summary:
Findable: 6 of 7 level;
Accessible: 3 of 7 level;
Interoperable: 4 of 6 level;
Reusable: 5 of 6 level
Method: F-UJI WDCC service v3.5.0 metrics_v0.8
Method Description: Checks performed by WDCC. Metrics documentation: https://doi.org/10.5281/zenodo.15045911 Metric Version: metrics_v0.8
Method Url: https://www.f-uji.net
Result Date: 2025-09-09

Scientific Quality Assurance (SQA)

SQA - Scientific Quality Assurance 'approved by author'

Result Date: 2025-08-22

Technical Quality Assurance (TQA)

TQA - Technical Quality Assurance 'approved by WDCC'

Description: 1. Number of data sets is correct and > 0: passed;
2. Size of every data set is > 0: passed;
3. The data sets and corresponding metadata are accessible: passed;
4. The data sizes are controlled and correct: passed;
5. The spatial-temporal coverage description (metadata) is consistent to the data: passed;
6. The format is correct: passed;
7. Variable description and data are consistent: passed
Method: WDCC-TQA checklist
Method Description: Checks performed by WDCC. The list of TQA metrics are documented in the 'WDCC User Guide for Data Publication' Chapter 8.1.1
Method Url: https://www.wdc-climate.de/docs/WDCC_User_Guide_Data_v1.pdf
Result Date: 2025-09-01

Contact type	Person	ORCID	Organization
Contact	Dr. Matilde García-Valdecasas Ojeda	0000-0001-9551-8328	University of Granada
Contact	Prof. Dr. María Jesús Esteban-Parra	0000-0003-1350-6150	University of Granada
Author	Dr. Matilde García-Valdecasas Ojeda	0000-0001-9551-8328	University of Granada
Author	Feliciano Solano-Farias	0000-0002-6605-0217	University of Granada
Author	David Donaire-Montaño	0009-0007-8013-2650	University of Granada
Author	Prof. Dr. Yolanda Castro-Díez	0000-0002-2134-9119	University of Granada
Author	Prof. Sonia Raquel Gamiz-Fortis	0000-0002-6192-056X	University of Granada
Author	Prof. Dr. María Jesús Esteban-Parra	0000-0003-1350-6150	University of Granada
Investigator	Dr. Matilde García-Valdecasas Ojeda	0000-0001-9551-8328	University of Granada
Funder	-	-	Andalusian Goverment
Funder	-	-	Ministry of Science and Innovation

Is new version of

[1] DOI García-Valdecasas Ojeda, Matilde; Solano-Farias, Feliciano; Donaire-Montaño, David; Rosa-Canovas, Juan José; Castro-Díez, Yolanda; Gamiz-Fortis, Sonia Raquel; Esteban-Parra, María Jesús. (2023). High-resolution Climate Data for a High-altitude Region in Southern Spain (Sierra Nevada): Pseudo-global warming. doi:10.26050/WDCC/HighresolClimNevada_warm

Is compiled by

[1] DOI Skamarock, W. C.; Klemp, J. B.; Dudhia, J.; Gill, D. O.; Liu, Z.; Berner, J.; Wang, W.; Powers, G.; Duda, G.; Barker, D.; Huang, X. (2021). A Description of the Advanced Research WRF Model Version 4.3 (No. NCAR/TN-556+STR). doi:10.5065/1dfh-6p97

[2] DOI Pleim, Jonathan E. (2007). A Combined Local and Nonlocal Closure Model for the Atmospheric Boundary Layer. Part I: Model Description and Testing. doi:10.1175/jam2539.1

[3] DOI Collins, W. D., Rasch, P. J., Boville, B. A., Hack, J. J., McCaa, J. R., Williamson, D. L., Kiehl, J.T., Briegleb, B.P., Bitz, C., Lin, S,-J., Zhang, M., and Dai, Y. (2004). Description of the NCAR Community Atmosphere Model (CAM 3.0) (No. NCAR/TN-464+STR). doi:10.5065/D63N21CH

[4] DOI Bae, Soo Ya; Hong, Song-You; Tao, Wei-Kuo. (2018). Development of a Single-Moment Cloud Microphysics Scheme with Prognostic Hail for the Weather Research and Forecasting (WRF) Model. doi:10.1007/s13143-018-0066-3

[5] DOI Niu, Guo-Yue; Yang, Zong-Liang; Mitchell, Kenneth E.; Chen, Fei; Ek, Michael B.; Barlage, Michael; Kumar, Anil; Manning, Kevin; Niyogi, Dev; Rosero, Enrique; Tewari, Mukul; Xia, Youlong. (2011). The community Noah land surface model with multiparameterization options (Noah-MP): 1. Model description and evaluation with local-scale measurements. doi:10.1029/2010jd015139

Is derived from

[1] DOI Hersbach, H.; Bell, B.; Berrisford, P.; Biavati, G.; Horányi, A.; Muñoz Sabater, J.; Nicolas, J.; Peubey, C.; Radu, R.; Rozum, I.; Schepers, D.; Simmons, A.; Soci, C.; Dee, D.; Thépaut, J-N. (2018). ERA5 hourly data on single levels from 1940 to present. doi:10.24381/cds.adbb2d47

Is described by

[1] DOI García-Valdecasas Ojeda, Matilde; Solano-Farias, Feliciano; Donaire-Montaño, David; Romero-Jiménez, Emilio; Rosa-Cánovas, Juan José; Castro-Díez, Yolanda; Gámiz-Fortis, Sonia R.; Esteban-Parra, María Jesús. (2025). HighResClimNevada: a high-resolution climatological dataset for a high-altitude region in southern Spain (Sierra Nevada). doi:10.5194/essd-17-2809-2025

Attached Datasets ( 4 )

Parent project(s)

High-resolution Climate Data for a High-altitude Region in Southern Spain: Sierra Nevada

[Entry acronym: HighResClimNevada_warm_v2] [Entry id: 5281699]