The global spectrum of tree crown architecture

Tommaso Jucker, Fabian Fischer, Jerome Chave, David Coomes, John Caspersen, Arshad Ali, Grace Panzou, Ted Feldpausch, Daniel Falster, Vladimir Usoltsev, Toby Jackson, Stephen Adu-Bredu, Luciana Alves, Mohammad Aminpour, Ilondea Angoboy, Niels Anten, Cecile Antin, Yousef Askari, Rodrigo Munoz, Narayanan Ayyappan, Lindsay Banin, Nicolas Barbier, John Battles, Hans Beeckman, Yannick Bocko, Ben Bond-Lamberty, Frans Bongers, Samuel Bowers, Michiel Breugel, Arthur Chantrain, Rajeev Chaudhary, Jingyu Dai, Michele Dalponte, Kangbeni Dimobe, Jean-Christophe Domec, Jean-Louis Doucet, Juan Dupuy-Rada, Remko Duursma, Moises Enriquez, Karin Ewijk, William Farfan-Rios, Adeline Fayolle, Marco Ferretti, Eric Forni, David Forrester, Hammad Gilani, John Godlee, Matthias Haeni, Jefferson Hall, Jie-Kun He, Andreas Hemp, Jose Hernandez-Stefanoni, Steven Higgins, Robert Holdaway, Kiramat Hussain, Lindsay Hutley, Tomoaki Ichie, Yoshiko Iida, Hai-sheng Jiang, Puspa Joshi, Hasan Kaboli, Maryam Kazempour-Larsary, Tanaka Kenzo, Brian Kloeppel, Takashi Kohyama, Suwash Kunwar, Shem Kuyah, Jakub Kvasnica, Siliang Lin, Emily Lines, Hongyan Liu, Craig Lorimer, Jean-Joel Loumeto, Yadvinder Malhi, Peter Marshall, Eskil Mattsson, Radim Matula, Jorge Meave, Sylvanus Mensah, Xiangcheng Mi, Stephane Momo, Glenn Moncrieff, Francisco Mora, Sarath Nissanka, Zamah Nur Hajar, Kevin OHara, Steven Pearce, Raphael Pelissier, Pablo Peri, Pierre Ploton, Lourens Poorter, Mohsen Pour, Hassan Pourbabaei, Sabina Ribeiro, Casey Ryan, Anvar Sanaei, Jennifer Sanger, Michael Schlund, Giacomo Sellan, Alexander Shenkin, Bonaventure Sonke, Frank Sterck, Martin Svatek, Kentaro Takagi, Anna Trugman, Matthew Vadeboncoeur, Ahmad Valipour, Mark Vanderwel, Alejandra Vovides, Peter Waldner, Weiwei Wang, Li-Qiu Wang, Christian Wirth, Murray Woods, Wenhua Xiang, Fabiano Ximenes, Yaozhan Xu, Toshihiro Yamada, Miguel Zavala, Niklaus Zimmermann
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Abstract

Trees can differ enormously in their crown architectural traits, such as the scaling relationships that link their height and crown size to their stem diameter. Yet despite the importance of crown architecture in shaping the structure and function of woody ecosystems, we lack a complete picture of what drives this incredible diversity in crown shapes. Using data from >500,000 globally distributed trees, we explored how climate, disturbance, competition, functional traits, and evolutionary history constrain the height, crown size and shape of the world's tree species. We found that variation in height scaling relationships was primarily controlled by water availability and light competition. Conversely, crown width was predominantly shaped by exposure to wind and fire, while also covarying with other functional traits related to mechanical stability and photosynthesis. Additionally, several plant lineages had crown architectures that defy their environments, such as the exceedingly slender dipterocarps of Southeast Asia, or the extremely wide crowns of legumes in African savannas. Our study charts the global spectrum of tree crown architectural types. It provides a roadmap for integrating crown architecture with vegetation models and remote sensing observations, so that we may better understand the processes that shape the 3D structure of woody ecosystems.
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树冠结构的全球分布
树木的树冠结构特征差异巨大,例如树高和树冠大小与树干直径之间的比例关系。然而,尽管树冠结构在塑造木本生态系统的结构和功能方面非常重要,但我们对树冠形状这种令人难以置信的多样性的驱动因素却缺乏完整的了解。利用来自全球分布的 50 万棵树木的数据,我们探索了气候、干扰、竞争、功能特征和进化史是如何制约世界树种的高度、树冠大小和形状的。我们发现,高度比例关系的变化主要受水分供应和光照竞争的控制。相反,树冠宽度主要受风和火的影响,同时也与其他与机械稳定性和光合作用有关的功能特征共变。此外,一些植物品系的树冠结构与它们所处的环境格格不入,例如东南亚极为纤细的双子叶植物或非洲热带草原上豆科植物极为宽大的树冠。我们的研究描绘了全球树冠结构类型的光谱。它为树冠结构与植被模型和遥感观测数据的整合提供了路线图,从而使我们能够更好地理解塑造木本生态系统三维结构的过程。
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