Collier E, Mölg T (2020)
Publication Type: Journal article
Publication year: 2020
Book Volume: 12
Pages Range: 3097-3112
Article Number: 3097-2020
Journal Issue: 4
DOI: 10.5194/essd-12-3097-2020
Climate impact assessments require information about climate change at regional and ideally also local scales. In dendroecological studies, this information has traditionally been obtained using statistical methods, which preclude the linkage of local climate changes to large-scale drivers in a process-based way. As part of recent efforts to investigate the impact of climate change on forest ecosystems in Bavaria, Germany, we developed a high-resolution atmospheric modelling dataset, BAYWRF, for this region over the thirty-year period of September 1987 to August 2018. The atmospheric model employed in this study, the Weather Research and Forecasting (WRF) model, was configured with two nested domains of 7.5 and 1.5 km grid spacing centred over Bavaria and forced at the outer lateral boundaries by ERA5 reanalysis data. Using an extensive network of observational data, we evaluate (i) the impact of using grid analysis nudging for a single-year simulation of the period of September 2017 to August 2018 and (ii) the full BAYWRF dataset generated using nudging. The evaluation shows that the model represents variability in near-surface meteorological conditions generally well, although there are both seasonal and spatial biases in the dataset that interested users should take into account. BAYWRF provides a unique and valuable tool for investigating climate change in Bavaria with high interdisciplinary relevance. Data from the finest-resolution WRF domain are available for download at daily temporal resolution from a public repository at the Open Science Framework
APA:
Collier, E., & Mölg, T. (2020). BAYWRF: A high-resolution present-day climatological atmospheric dataset for Bavaria. Earth System Science Data, 12(4), 3097-3112. https://doi.org/10.5194/essd-12-3097-2020
MLA:
Collier, Emily, and Thomas Mölg. "BAYWRF: A high-resolution present-day climatological atmospheric dataset for Bavaria." Earth System Science Data 12.4 (2020): 3097-3112.
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