Global patterns of tree density are contingent upon local determinants in the world's natural forests
2023
Madrigal González, Jaime | Calatayud Ortega, Joaquín Manuel | Ballesteros Cánovas, Juan Antonio | Escudero, Adrián | Cayuela Delgado, Luis | Marqués López, Laura | Ruiz Benito, Paloma | Rueda García, Marta | Herrero Méndez, Asier | Aponte, Cristina | Sagardia, Rodrigo | Plumptre, Andrew J. | Dupire, Sylvain | Espinosa, Carlos I. | Tutubalina, Olga V. | Myint, Moe | Pataro, Luciano | López Sáez, Jerome | Macía, Manuel J. | Zavala Gironés, Miguel Ángel de | Abegg, Meinrad | Quesada Román, Adolfo | Vega Araya, Mauricio | Golubeva, Elena | Timokhina, Yuliya | Bañares de Dios, Guillermo | Granzow de La Cerda, Íñigo | Stoffel, Markus | Universidad de Alcalá. Departamento de Ciencias de la Vida
Global tree abundance is demonstrated to correlate with latitudinal variables, with tree size and self-thinning strategies impacting current estimates of tree count. Previous attempts to quantify tree abundance at global scale have largely neglected the role of local competition in modulating the influence of climate and soils on tree density. Here, we evaluated whether mean tree size in the world's natural forests alters the effect of global productivity on tree density. In doing so, we gathered a vast set of forest inventories including >3000 sampling plots from 23 well-conserved areas worldwide to encompass (as much as possible) the main forest biomes on Earth. We evidence that latitudinal productivity patterns of tree density become evident as large trees become dominant. Global estimates of tree abundance should, therefore, consider dependencies of latitudinal sources of variability on local biotic influences to avoid underestimating the number of trees on Earth and to properly evaluate the functional and social consequences.
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