Browsing by Author "Stephenson, Nathan L."
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Qiu, Tong; Andrus, Robert; Aravena Acuña, Marie Claire; Ascoli, Davide; Bergeron, Yves; Berretti, Roberta; Berveiller, Daniel; Bogdziewicz, Michal; Boivin, Thomas; Bonal, Raul; Bragg, Don C.; Caignard, Thomas; Calama, Rafael; Camarero, J. Julio; Chang-Yang, Chia-Hao; Cleavitt, Natalie L.; Courbaud, Benoit; Courbet, Francois; Curt, Thomas; Das, Adrian J.; Daskalakou, Evangelia; Davi, Hendrik; Delpierre, Nicolas; Delzon, Sylvain; Dietze, Michael; Donoso Calderón, Sergio; Dormont, Laurent; Espelta, Josep; Fahey, Timothy J.; Farfan-Rios, William; Gehring, Catherine A.; Gilbert, Gregory S.; Gratzer, Georg; Greenberg, Cathryn H.; Guo, Qinfeng; Hacket-Pain, Andrew; Hampe, Arndt; Han, Qingmin; Lambers, Jeanneke Hille Ris; Hoshizaki, Kazunhiko; Ibáñez, Inés; Johnstone, Jill F.; Journé, Velentin; Kabeya, Daisuke; Kilner, Christopher L.; Kitzberger, Thomas; Knops, Johannes M. H.; Kobe, Richard K.; Kunstler, Georges; Lageard, Jonathan G. A.; La Montagne, Jalene M.; Ledwon, Mateusz; Lefevre, Francois; Leininger, Theodor; Limousin, Jean-Marc; Lutz, James A.; Macias, DIana; McIntire, Eliot J. B.; Moore, Christopher M.; Moran, Emily; Motta, Renzo; Myers, Jonathan A.; Nagel, Thomas A.; Noguchi, Kyotaro; Ourcival, Jean-Marc; Parmenter, Robert; Pearse, Ian S.; Pérez Ramos, Ignacio M.; Piechnik, Lukasz; Poulsen, John; Poulton-Kamakura, Renata; Redmond, Miranda D.; Reid, Chantal D.; Rodman, Kyle C.; Rodríguez Sánchez, Francisco; Sanguinetti, Javier D.; Scher, C. Lane; Schlesinger, William H.; Schmidt Van Marle, Harald; Seget, Barbara; Sharma, Shubhi; Silman, Miles; Steele, Michael A.; Stephenson, Nathan L.; Straub, Jacob N.; Sun, I-Fang; Sutton, Samantha; Swenson, Jennifer J.; Swift, Margaret; Thomas, Peter A.; Uriarte, María; Vacchiano, Giorgio; Veblen, Thomas T.; Whipple, Amy V.; Whitham, Thomas G.; Wion, Andreas P.; Wright, Boyd; Wright, S. Joseph; Zhu, Kai; Zimmerman, Jess K.; Zlotin, Roman; Zywiec, Magdalena; Clark, James S. (Nature, 2022)The relationships that control seed production in trees are key to understand evolutionary pressures that have shaped forests. A global synthesis of fecundity data reveals that while seed production is not constrained by ...