Your search keyword '"Kazimirovic, M."' showing total 4 results

1. Jet stream position explains regional anomalies in European beech forest productivity and tree growth

Author

Dorado Liñán, Isabel, Ayarzagüena, B., Babst, Flurin, Xu, G., Gil, L., Battipaglia, G., Buras, A., Čada, V., Camarero, J.J., Cavin, L., Claessens, H., Drobyshev, I., Garamszegi, B., Grabner, M., Hacket Pain, A., Hartl, C., Hevia, A., Janda, P., Jump, A.S., Kazimirovic, M., Keren, S., Kreyling, J., Land, A., Latte, N., Levanič, T., van der Maaten, E., van der Maaten Theunissen, M., Martínez Sancho, E., Menzel, A., Mikoláš, M., Motta, R., Muffler, L., Nola, P., Panayotov, M., Petritan, A.M., Petritan, I.C., Popa, I., Prislan, P., Roibu, C.-C., Rydval, M., Sánchez Salguero, R., Scharnweber, T., Stajić, B., Svoboda, M., Tegel, W., Teodosiu, M., Toromani, E., Trotsiuk, V., Turcu, D.-O., Weigel, R., Wilmking, M., Zang, C., Zlatanov, T., Trouet, V., Dorado Liñán, Isabel, Ayarzagüena, B., Babst, Flurin, Xu, G., Gil, L., Battipaglia, G., Buras, A., Čada, V., Camarero, J.J., Cavin, L., Claessens, H., Drobyshev, I., Garamszegi, B., Grabner, M., Hacket Pain, A., Hartl, C., Hevia, A., Janda, P., Jump, A.S., Kazimirovic, M., Keren, S., Kreyling, J., Land, A., Latte, N., Levanič, T., van der Maaten, E., van der Maaten Theunissen, M., Martínez Sancho, E., Menzel, A., Mikoláš, M., Motta, R., Muffler, L., Nola, P., Panayotov, M., Petritan, A.M., Petritan, I.C., Popa, I., Prislan, P., Roibu, C.-C., Rydval, M., Sánchez Salguero, R., Scharnweber, T., Stajić, B., Svoboda, M., Tegel, W., Teodosiu, M., Toromani, E., Trotsiuk, V., Turcu, D.-O., Weigel, R., Wilmking, M., Zang, C., Zlatanov, T., and Trouet, V.

Abstract

The mechanistic pathways connecting ocean-atmosphere variability and terrestrial productivity are well-established theoretically, but remain challenging to quantify empirically. Such quantification will greatly improve the assessment and prediction of changes in terrestrial carbon sequestration in response to dynamically induced climatic extremes. The jet stream latitude (JSL) over the North Atlantic-European domain provides a synthetic and robust physical framework that integrates climate variability not accounted for by atmospheric circulation patterns alone. Surface climate impacts of north-south summer JSL displacements are not uniform across Europe, but rather create a northwestern-southeastern dipole in forest productivity and radial-growth anomalies. Summer JSL variability over the eastern North Atlantic-European domain (5-40E) exerts the strongest impact on European beech, inducing anomalies of up to 30 in modelled gross primary productivity and 50 in radial tree growth. The net effects of JSL movements on terrestrial carbon fluxes depend on forest density, carbon stocks, and productivity imbalances across biogeographic regions.

Published

2022

2. Jet stream position explains regional anomalies in European beech forest productivity and tree growth

Author

Dorado-Liñán, Isabel, Ayarzagüena, Blanca, Babst, Flurin, Xu, Guobao, Gil, Luis, Battipaglia, Giovanna, Buras, Allan, Čada, Vojtěch, Camarero, J Julio, Cavin, Liam, Claessens, Hugues, Drobyshev, Igor, Garamszegi, Balázs, Grabner, Michael, Hacket-Pain, Andrew, Hartl, Claudia, Hevia, Andrea, Janda, Pavel, Jump, Alistair S, Kazimirovic, Marko, Keren, Srdjan, Kreyling, Juergen, Land, Alexander, Latte, Nicolas, Levanič, Tom, van der Maaten, Ernst, van der Maaten-Theunissen, Marieke, Martínez-Sancho, Elisabet, Menzel, Annette, Mikoláš, Martin, Motta, Renzo, Muffler, Lena, Nola, Paola, Panayotov, Momchil, Petritan, Any Mary, Petritan, Ion Catalin, Popa, Ionel, Prislan, Peter, Roibu, Catalin-Constantin, Rydval, Miloš, Sánchez-Salguero, Raul, Scharnweber, Tobias, Stajić, Branko, Svoboda, Miroslav, Tegel, Willy, Teodosiu, Marius, Toromani, Elvin, Trotsiuk, Volodymyr, Turcu, Daniel-Ond, Weigel, Robert, Wilmking, Martin, Zang, Christian, Zlatanov, Tzvetan, Trouet, Valerie, Dorado-Linan, I., Ayarzaguena, B., Babst, F., Xu, G., Gil, L., Battipaglia, G., Buras, A., Cada, V., Camarero, J. J., Cavin, L., Claessens, H., Drobyshev, I., Garamszegi, B., Grabner, M., Hacket-Pain, A., Hartl, C., Hevia, A., Janda, P., Jump, A. S., Kazimirovic, M., Keren, S., Kreyling, J., Land, A., Latte, N., Levanic, T., van der Maaten, E., van der Maaten-Theunissen, M., Martinez-Sancho, E., Menzel, A., Mikolas, M., Motta, R., Muffler, L., Nola, P., Panayotov, M., Petritan, A. M., Petritan, I. C., Popa, I., Prislan, P., Roibu, C. -C., Rydval, M., Sanchez-Salguero, R., Scharnweber, T., Stajic, B., Svoboda, M., Tegel, W., Teodosiu, M., Toromani, E., Trotsiuk, V., Turcu, D. -O., Weigel, R., Wilmking, M., Zang, C., Zlatanov, T., and Trouet, V.

Subjects

Air Movements, Climate Research, Multidisciplinary, atmosferska dinamika, Forest Science, Climate Change, climate-change impacts, Air Movement, General Physics and Astronomy, General Chemistry, Geofísica, Forests, okoljski vpliv, environmental impact, General Biochemistry, Genetics and Molecular Biology, Carbon, ekologija podnebnih sprememb, vpliv podnebnih sprememb, Meteorology and Atmospheric Sciences, Fagus, Forest, atmospheric dynamics, udc:630*111, climate-change ecology

Abstract

The mechanistic pathways connecting ocean-atmosphere variability and terrestrial productivity are well-established theoretically, but remain challenging to quantify empirically. Such quantification will greatly improve the assessment and prediction of changes in terrestrial carbon sequestration in response to dynamically induced climatic extremes. The jet stream latitude (JSL) over the North Atlantic-European domain provides a synthetic and robust physical framework that integrates climate variability not accounted for by atmospheric circulation patterns alone. Surface climate impacts of north-south summer JSL displacements are not uniform across Europe, but rather create a northwestern-southeastern dipole in forest productivity and radial-growth anomalies. Summer JSL variability over the eastern North Atlantic-European domain (5-40E) exerts the strongest impact on European beech, inducing anomalies of up to 30% in modelled gross primary productivity and 50% in radial tree growth. The net effects of JSL movements on terrestrial carbon fluxes depend on forest density, carbon stocks, and productivity imbalances across biogeographic regions. Here the authors show that extremes in the summer jet stream position over Europe create a beech forest productivity dipole between northwestern and southeastern Europe and can result in regional anomalies in forest carbon uptake and growth., This work was supported by Fundacio La Caixa through the Junior Leader Program (LCF/BQ/LR18/11640004) and the Universidad Politécnica de Madrid through the Programa Propio (PINV-18-SBSYN2-105-F1TXYR). The following authors acknowledge funding support. I.D.L.: Agnese N. Haury Visiting Scholar & Trainee Fellowship (Laboratory of Tree-Ring Research, University of Arizona), the Mobility Award Jose Castillejo, Ministry of Education, Spanish Government (CAS19/00331) and the Programa de Ayudas Beatriz Galindo, Secretaría de Estado de Universidades, Investigación, Desarrollo e Innovación (#BG20/00065). V.T.: National Science Foundation CAREER grant (AGS-1349942). B.A.: Spanish Ministry of Science and Innovation through the JeDiS project (RTI-2018-096402-B-I00). F.B.: project "Inside out" (#POIR.04.04.00-00-5F85/18-00) funded by the HOMING program of the Foundation for Polish Science co-financed by the European Union under the European Regional Development Fund. AB, AM, CSZ: Bavarian Ministry of Science and the Arts in the context of the Bavarian Climate Research Network (BayKliF). A.H.: PinCaR project (UHU-1266324) by ERD Funds, Andalucía Regional Government, Consejería de Economía, Conocimiento, Empresas y Universidad 2014-2020. EM-S: Swiss National Science Foundation project TRoxy (No. 200021_175888). A.S.J.: Natural Environment Research Council grants NE/V00929X/1 and NE/S010041/1. J.K., L.M., M.M.T., R.W., M.W.: research training group RESPONSE funded by the German Research Council (DFG Fi 846/8-1, DFG GRK2010). AMP: Romanian Ministry of Research, Innovation, and Digitization, Project-PN-19070506/Ctr. no. 12N/2019. I.C.P.: grant of the Romanian Ministry of Education and Research, CNCS-UEFISCDI within PNCDI III (PN-III-P4-ID-PCE-2020-2696). R.S.S.: DendrOlavide I (EQC2018-005303-P), Ministry of Science, Innovation and Universities, Spain; DendrOlavide II (IE19_074 UPO), VURECLIM (P20_00813) and VULBOS (UPO-1263216). T.L.: Slovenian Research Agency-research core funding no. P4-0107 Program research group "Forest Biology, Ecology and Technology". We thank Virgilio Gómez-Rubio for assistance and advice on the LMM development. We thank Christoph Dittmar, Wolfram Elling, and numerous students of the University of Applied Sciences Weihenstephan-Triesdorf for providing European beech tree-ring chronologies.

Published

2022

3. Jet stream position explains regional anomalies in European beech forest productivity and tree growth.

Author

Dorado-Liñán I, Ayarzagüena B, Babst F, Xu G, Gil L, Battipaglia G, Buras A, Čada V, Camarero JJ, Cavin L, Claessens H, Drobyshev I, Garamszegi B, Grabner M, Hacket-Pain A, Hartl C, Hevia A, Janda P, Jump AS, Kazimirovic M, Keren S, Kreyling J, Land A, Latte N, Levanič T, van der Maaten E, van der Maaten-Theunissen M, Martínez-Sancho E, Menzel A, Mikoláš M, Motta R, Muffler L, Nola P, Panayotov M, Petritan AM, Petritan IC, Popa I, Prislan P, Roibu CC, Rydval M, Sánchez-Salguero R, Scharnweber T, Stajić B, Svoboda M, Tegel W, Teodosiu M, Toromani E, Trotsiuk V, Turcu DO, Weigel R, Wilmking M, Zang C, Zlatanov T, and Trouet V

Subjects

Air Movements, Carbon, Climate Change, Forests, Fagus

Abstract

The mechanistic pathways connecting ocean-atmosphere variability and terrestrial productivity are well-established theoretically, but remain challenging to quantify empirically. Such quantification will greatly improve the assessment and prediction of changes in terrestrial carbon sequestration in response to dynamically induced climatic extremes. The jet stream latitude (JSL) over the North Atlantic-European domain provides a synthetic and robust physical framework that integrates climate variability not accounted for by atmospheric circulation patterns alone. Surface climate impacts of north-south summer JSL displacements are not uniform across Europe, but rather create a northwestern-southeastern dipole in forest productivity and radial-growth anomalies. Summer JSL variability over the eastern North Atlantic-European domain (5-40E) exerts the strongest impact on European beech, inducing anomalies of up to 30% in modelled gross primary productivity and 50% in radial tree growth. The net effects of JSL movements on terrestrial carbon fluxes depend on forest density, carbon stocks, and productivity imbalances across biogeographic regions., (© 2022. The Author(s).)

Published

2022

4. Climate-change-driven growth decline of European beech forests.

Author

Martinez Del Castillo E, Zang CS, Buras A, Hacket-Pain A, Esper J, Serrano-Notivoli R, Hartl C, Weigel R, Klesse S, Resco de Dios V, Scharnweber T, Dorado-Liñán I, van der Maaten-Theunissen M, van der Maaten E, Jump A, Mikac S, Banzragch BE, Beck W, Cavin L, Claessens H, Čada V, Čufar K, Dulamsuren C, Gričar J, Gil-Pelegrín E, Janda P, Kazimirovic M, Kreyling J, Latte N, Leuschner C, Longares LA, Menzel A, Merela M, Motta R, Muffler L, Nola P, Petritan AM, Petritan IC, Prislan P, Rubio-Cuadrado Á, Rydval M, Stajić B, Svoboda M, Toromani E, Trotsiuk V, Wilmking M, Zlatanov T, and de Luis M

Subjects

Climate Change, Droughts, Forests, Trees, Fagus

Abstract

The growth of past, present, and future forests was, is and will be affected by climate variability. This multifaceted relationship has been assessed in several regional studies, but spatially resolved, large-scale analyses are largely missing so far. Here we estimate recent changes in growth of 5800 beech trees (Fagus sylvatica L.) from 324 sites, representing the full geographic and climatic range of species. Future growth trends were predicted considering state-of-the-art climate scenarios. The validated models indicate growth declines across large region of the distribution in recent decades, and project severe future growth declines ranging from -20% to more than -50% by 2090, depending on the region and climate change scenario (i.e. CMIP6 SSP1-2.6 and SSP5-8.5). Forecasted forest productivity losses are most striking towards the southern distribution limit of Fagus sylvatica, in regions where persisting atmospheric high-pressure systems are expected to increase drought severity. The projected 21 st century growth changes across Europe indicate serious ecological and economic consequences that require immediate forest adaptation., (© 2022. The Author(s).)

Published

2022