Cooper, Declan L. M. Lewis, Simon L. Sullivan, Martin J. P. Prado, Paulo I. ter Steege, Hans Barbier, Nicolas Slik, Ferry Sonké, Bonaventure Ewango, Corneille E. N. Adu-Bredu, Stephen
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Trees structure the Earth’s most biodiverse ecosystem, tropical forests. The vast number of tree species presents a formidable challenge to understanding these forests, including their response to environmental change, as very little is known about most tropical tree species. A focus on the common species may circumvent this challenge. Here we inve...
Yrttimaa, Tuomas Kankare, Ville Luoma, Ville Junttila, Samuli Saarinen, Ninni Calders, Kim Holopainen, Markus Hyyppä, Juha Vastaranta, Mikko
Terrestrial laser scanning (TLS) has been adopted as a feasible technique to characterize tree stems while the characterization of trees’ branching architecture has remained less explored. In general, branching architecture refers to the spatial arrangement of branches and their characteristics that are important when exploring the eco-physiologica...
Morhart, Christopher Schindler, Zoe Frey, Julian Sheppard, Jonathan P. Calders, Kim Disney, Mathias Morsdorf, Felix Raumonen, Pasi Seifert, Thomas
Quantitative structural models (QSMs) are frequently used to simplify single tree point clouds obtained by terrestrial laser scanning (TLS). QSMs use geometric primitives to derive topological and volumetric information about trees. Previous studies have shown a high agreement between TLS and QSM total volume estimates alongside field measured data...
De Pauw, Karen Depauw, Leen Calders, Kim Cousins, Sara A. O. Decocq, Guillaume De Lombaerde, Emiel Diekmann, Martin Frey, David Lenoir, Jonathan Meeussen, Camille
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Forests are highly fragmented across the globe. For urban forests in particular, fragmentation increases the exposure to local warming caused by the urban heat island (UHI) effect. We here aim to quantify edge effects on herbaceous understorey vegetation in urban forests, and test whether these effects interact with forest structural complexity. We...
Van den Broeck, Wouter Cooper, Zane Cherlet, Wout Meir, Patrick da Costa, Antonio Carlos Lola Calders, Kim
With increasing frequency and intensity of extreme drought events in Amazon forests due to climate change, understanding their impact on the ecosystem is crucial. One critical challenge lies in how drought disturbance will alter the 3D forest structure and composition locally, and how we can monitor these forest changes globally. Addressing this ch...
Verbruggen, Wim Schurgers, Guy Meunier, Félicien Verbeeck, Hans Horion, Stéphanie
Interannual variability in climatic drivers can have a strong impact on dryland ecosystem functioning globally. While interannual variations in dryland ecosystem processes are mainly driven by rainfall, other global change drivers such as CO2 fertilization and rising temperatures can play an increasingly important role for these ecosystems. Yet, th...
Chen, Shilin Verbeeck, Hans Terryn, Louise Liu, Chang Disney, Mathias Origo, Niall Calders, Kim
In the context of global climate change, understanding forest dynamics and formulating sustainable forest development strategies require accurate quantification of forest structural changes over time. However, the majority of studies have focused on exploring forest structure at one specific time point, lacking repeated observations of forest struc...
Wang, Mengxi Calders, Kim Verbeeck, Hans Verheyen, Kris Baeten, Lander Blondeel, Haben Muys, Bart Ponette, Quentin Armston, John Vancoillie, Frieke
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Forest structure spatially varies at the landscape-scale (between-plot) but also local-scale (within-plot). Both scales of structural variability have significant impacts on forest ecosystem functioning and stability. However, we still have a limited understanding of how tree species richness affects the spatial structural variability. In this stud...
De Pauw, Karen Depauw, Leen Calders, Kim Caluwaerts, Steven Cousins, Sara A.O. De Lombaerde, Emiel Diekmann, Martin Frey, David Lenoir, Jonathan Meeussen, Camille
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The urban heat island (UHI) causes strong warming of cities and their urban forests worldwide. Especially urban forest edges are strongly exposed to the UHI effect, which could impact urban forest biodiversity and functioning. However, it is not known to what extent the UHI effect alters edge-to-interior microclimatic gradients within urban forests...
dos Santos Vieira, Ines Verbeeck, Hans Meunier, Félicien Peaucelle, Marc Sibret, Thomas Lefevre, Lodewijk Cheesman, Alexander W. Brown, Flossie Sitch, Stephen Mbifo, José
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Tropospheric ozone (O3) is a secondary pollutant and a greenhouse gas with a positive radiative forcing. Many studies have documented its negative impacts on plant growth and human health. Historically, studies have focused on determining levels of exposure in mid-and high-latitude regions. In the tropics, high O3 concen-trations are expected due t...