A 250-year reconstruction of average July air temperatures (1775--2024): A key climate indicator of vegetation growth in the alpine treeline ecotone of the High Tatra Mts, Slovakia

Strany: 341 - 362

Jazyk: eng

The reconstruction of historical air temperatures over the past 250 years (1775–2024) in the alpine treeline ecotone (ATE) of the High Tatra Mts, Slovakia, provides insights into long-term climate variability. As a high-elevation region sensitive to climatic fluctuations, the alpine treeline is a key indicator of environmental change. A model-based approach allows estimation of air temperature where direct measurements are lacking, offering a tool for assessing long-term climate impacts in high mountains. This study models the July monthly average air temperature (JL-Tavg) and the 10°C July isotherm, a climatic threshold for vegetation growth. The regression model is based on the environmental temperature lapse rate (ETL), assuming a systematic decrease in temperature with altitude (∼0.65°C per 100 m). Using air temperature data from European stations spanning 191–3109 m a.s.l., the model estimated ETL, which was then applied to reconstruct JL-Tavg and track the 10°C isotherm across the Skalnatá dolina ATE profile. The regression model showed a good fit between observed and predicted values, with root mean square error lower than the standard deviation of average JL-Tavg. Reconstructed data indicate that the 10°C July isotherm fluctuated markedly between 1775 and 2024. The alpine treeline, defined as the elevation with zero probability of tree growth, varied from ≈ 2000 m a.s.l. during the cooler phase (1875–1974) to ≈ 2300 m a.s.l. in the warmer phase (1775–1874). Since 1975, accelerated warming has shifted this thermal boundary upward to ≈ 2400 m a.s.l., now representing the upper cold limit for alpine tree growth in the southern High Tatra Mts. Future work should integrate field monitoring, such as mapping dwarf pine above 2000 m a.s.l., to evaluate current distributional limits under ongoing warming.

ISO 690:

Varšová, S., Lukasová, V., Onderka, M., Kopáček, J., Bilčík, D., Krempaský, J. 2025. A 250-year reconstruction of average July air temperatures (1775--2024): A key climate indicator of vegetation growth in the alpine treeline ecotone of the High Tatra Mts, Slovakia. In Contributions to Geophysics and Geodesy, vol. 55, no.3, pp. 341-362. 1338-0540. DOI: https://doi.org/10.31577/congeo.2025.55.3.4

APA:

Varšová, S., Lukasová, V., Onderka, M., Kopáček, J., Bilčík, D., Krempaský, J. (2025). A 250-year reconstruction of average July air temperatures (1775--2024): A key climate indicator of vegetation growth in the alpine treeline ecotone of the High Tatra Mts, Slovakia. Contributions to Geophysics and Geodesy, 55(3), 341-362. 1338-0540. DOI: https://doi.org/10.31577/congeo.2025.55.3.4

Vydavateľ: ESI SAS

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