Rates of tree mortality are increasing globally, with implications for forests and climate. Yet, how and why these trends vary globally remain unknown. Developing a comprehensive assessment of global tree mortality will require systematically integrating data from ground-based long-term forest monitoring with large-scale remote sensing. We surveyed the metadata from 466 865 forest monitoring plots across 89 countries and five continents using questionnaires and discuss the potential to use these to estimate tree mortality trends globally. Our survey shows that the area monitored has increased steadily since 1960, but we also identify many regions with limited ground-based information on tree mortality. The integration of existing ground-based forest inventories with remote sensing and modelling can potentially fill those gaps, but this requires development of technical solutions and agreements that enable seamless flows of information from the field to global assessments of tree mortality. A truly global monitoring effort should promote fair and equitable collaborations, transferring funding to and empowering scientists from less wealthy regions. Increasing interest in forests as a natural climate solution, the advancement of new technologies and world-wide connectivity means that now a global monitoring system of tree mortality is not just urgently needed but also possible
Senf, C.; Esquivel-Muelbert, A.; Pugh, T.A.M.; Anderegg, W.R.L.; Anderson-Teixeira, K.J.; Arellano, G.; Beloiu Schwenke, M.; Bentz, B.J.; Juergen Boehmer, H.; Bond-Lamberty, B.; Maiara Bordin, K.; Brearley, F.Q.; Bussotti, F.; Cailleret, M.; Camarero, J.J.; Chirici, G.; Costa Ricardo Dalagnol, F.R.C.; Davi, H.; Davies, S.J.; Delzon, S.; Prasad Dhakal, B.; Ferreira de Lima, R.A.; Ferretti, M.; Fontaine, J.B.; Garbarino, M.; de Gasper, A.L.; Gessler, A.; Gilbert, G.S.; Godlee, J.L.; Maiato Pedro Gonçalves, F.; Govaere, L.; Gutiérrez, A.G.; Gómez Cardozo, E.; Hammond, W.M.; Hartmann, H.; Hobi, M.L.; Holz, A.; Homeier, J.; Hovenden, M.J.; Huang, C.; Hérault, B.; Jackson, T.; Jucker, T.; Jump, A.S.; Junttila, S.; Kattenborn, T.; Klipel, J.; Kotowska, M.M.; Král, K.; La Porta, N.; Lopez-Toledo, L.; López-Camacho, R.; Eiji Maeda, E.; Mallol Díaz, J.; Martin, E.H.; Martínez-Vilalta, J.; Mcdowell, N.; Moonlight, P.W.; Mori, A.S.; Afzanizam Muda, M.; Mund, J.P.; Muscarella, R.; Méndez-Toribio, M.; Müller, S.C.; Nagel, T.A.; Neagu, S.; Nock, C.A.; Nsanyi Sainge, M.; O'Brien, M.J.; Peñuelas, J.; Perry, G.L.W.; Phillips, O.L.; Posada, J.M.; Ribeiro Rodrigues, R.; Roman, A.; Rousseau, G.X.; Ruehr, N.K.; Ruiz-Benito, P.; Ruthrof, K.X.; Salas-Eljatib, C.; Sanders, T.; Scarton Bergamin, R.; Scharnweber, T.; Schelhaas, M.J.; Schuldt, B.; Schwarz, S.; Seidl, R.; Shorohova, E.; Silva, A.C.; Sioen, G.; Socha, J.; Stereńczak, K.; Stillhard, J.; Stojanović, D.B.; Suvanto, S.; Svoboda, M.; Sánchez-Pinillos, M.; Tanentzap, A.J.; Taylor, A.R.; Turini Farah, F.; Vacchiano, G.; Vibrans, A.C.; Vilagrosa, A.; Vilanova, E.; Waser, L.T.; Wiser, S.K.; Yu, K.; Zavala, M.A.; Zimermann, L.; Zuleta Oliveira, D.; Boson de Castro-Faria, A.; van der Maaten, E.; van der Maaten-Theunissen, M. (2025). Towards a global understanding of tree mortality. NEW PHYTOLOGIST, 245 (6): 2377-2392. doi: 10.1111/nph.20407 handle: https://hdl.handle.net/10449/88756
Towards a global understanding of tree mortality
La Porta, N.;
2025-01-01
Abstract
Rates of tree mortality are increasing globally, with implications for forests and climate. Yet, how and why these trends vary globally remain unknown. Developing a comprehensive assessment of global tree mortality will require systematically integrating data from ground-based long-term forest monitoring with large-scale remote sensing. We surveyed the metadata from 466 865 forest monitoring plots across 89 countries and five continents using questionnaires and discuss the potential to use these to estimate tree mortality trends globally. Our survey shows that the area monitored has increased steadily since 1960, but we also identify many regions with limited ground-based information on tree mortality. The integration of existing ground-based forest inventories with remote sensing and modelling can potentially fill those gaps, but this requires development of technical solutions and agreements that enable seamless flows of information from the field to global assessments of tree mortality. A truly global monitoring effort should promote fair and equitable collaborations, transferring funding to and empowering scientists from less wealthy regions. Increasing interest in forests as a natural climate solution, the advancement of new technologies and world-wide connectivity means that now a global monitoring system of tree mortality is not just urgently needed but also possible
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