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Jevšenak, Jernej; Klisz, Marcin; Mašek, Jiří; Čada, Vojtěch; Svoboda, Miroslav; Treml, Vaclav; van der Maaten, Ernst; Popa, Andrei; Popa, Ionel; van der Maaten-Theunissen, Marieke; Zlatanov, Tzvetan; Scharnweber, Tobias; Ahlgrimm, Svenja; Stolz, Juliane; Sochová, Irena; Roibu, Cătălin-Constantin; Pretzsch, Hans; Kaczka, Ryszard; Wrzesiński, Piotr; Šenfeldr, Martin; Jakubowski, Marcin; Tumajer, Jan; Wilmking, Martin; Obojes, Nikolaus; Rybníček, Michal; Lévesque, Mathieu; Potapov, Aleksei; Basu, Soham; Stojanović, Marko; Stjepanović, Stefan; Vitas, Adomas; Metslaid, Sandra; Neycken, Anna; Prislan, Peter; Hartl, Claudia; Ziche, Daniel; Horáček, Petr; Krejza, Jan; Mikhailov, Sergei; Světlík, Jan; Kalisty, Aleksandra; Kolář, Tomáš; Lavnyy, Vasyl; Hordo, Maris; Oberhuber, Walter; Levanič, Tom; Mészáros, Ilona; Lehejček, Jiří; Shetti, Rohan; Bošeľa, Michal; Copini, Paul; Koprowski, Marcin; Sass-Klaassen, Ute; Izmir, Şule Ceyda; Bakys, Remigijus; Entner, Hannes; Esper, Jan; Janecka, Karolina; Martinez del Castillo, Edurne; Verbylaite, Rita; Árvai, Mátyás; de Sauvage, Justine Charlet; Čufar, Katarina; Kern, Zoltán; Novak, Klemen; Ponjarac, Radenko; Puchałka, Radosław; Škrk Dolar, Nina; Tanovski, Vladimir; Zang, Christian; Kuithan, Cornell; Thurm, Eric; Hafner, Polona; Krajnc, Luka; Bernabei, Mauro; Bojić, Stefan; Brus, Robert; Burger, Andreas; Đorem, Todor; Gławęda, Mariusz; Gričar, Jožica; Gutalj, Marko; Horváth, Emil; Kostić, Saša; Matović, Bratislav; Merela, Maks; Morgós, András; Paluch, Rafał; Pilch, Kamil; Rezaie, Negar; Rieder, Julia; Schwab, Niels; Sewerniak, Piotr; Stojanović, Dejan; Ullmann, Tobias; Waszak, Nella; Zin, Ewa; Skudnik, Mitja; Oštir, Krištof; Rammig, Anja
The Science of the total environment, 02/2024, Letnik: 913Journal Article
To enhance our understanding of forest carbon sequestration, climate change mitigation and drought impact on forest ecosystems, the availability of high-resolution annual forest growth maps based on tree-ring width (TRW) would provide a significant advancement to the field. Site-specific characteristics, which can be approximated by high-resolution Earth observation by satellites (EOS), emerge as crucial drivers of forest growth, influencing how climate translates into tree growth. EOS provides information on surface reflectance related to forest characteristics and thus can potentially improve the accuracy of forest growth models based on TRW. Through the modelling of TRW using EOS, climate and topography data, we showed that species-specific models can explain up to 52 % of model variance (Quercus petraea), while combining different species results in relatively poor model performance (R2 = 13 %). The integration of EOS into models based solely on climate and elevation data improved the explained variance by 6 % on average. Leveraging these insights, we successfully generated a map of annual TRW for the year 2021. We employed the area of applicability (AOA) approach to delineate the range in which our models are deemed valid. The calculated AOA for the established forest-type models was 73 % of the study region, indicating robust spatial applicability. Notably, unreliable predictions predominantly occurred in the climate margins of our dataset. In conclusion, our large-scale assessment underscores the efficacy of combining climate, EOS and topographic data to develop robust models for mapping annual TRW. This research not only fills a critical void in the current understanding of forest growth dynamics but also highlights the potential of integrated data sources for comprehensive ecosystem assessments. Display omitted •We combined remote sensing, climate and elevation to model tree-ring width (TRW).•Models' explained variance ranged up to 52 % and was higher for species-specific models.•Including remote sensing data improved the prediction accuracy by 6 % on average.•Satellite-derived vegetation indices yielded strong positive relationships with TRW.•The developed forest-type models were successfully applied to generate a map of TRW.
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in: SICRIS
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