s:2393:"%T Multidimensional tropical forest recovery 
%A Poorter, L. 
%A Craven, D. 
%A Jakovac, C.C. 
%A van der, Sande, M.T. 
%A Amissah, L. 
%A Bongers, F. 
%A Chazdon, R.L. 
%A Farrior, C.E. 
%A Kambach, S. 
%A Meave, J.A. 
%A Muñoz, R. 
%A Norden, N. 
%A Rüger, N. 
%A van Breugel, M. 
%A Zambrano, A.M.A. 
%A Amani, B. 
%A Andrade, J.L. 
%A Brancalion, P.H.S. 
%A Broadbent, E.N. 
%A de, Foresta, H. 
%A Dent, D.H. 
%A Derroire, G. 
%A DeWalt, S.J. 
%A Dupuy, J.M. 
%A Durán, S.M. 
%A Fantini, A.C. 
%A Finegan, B. 
%A Hernández-Jaramillo, A. 
%A Hernández-Stefanoni, J.L. 
%A Hietz, P. 
%A Junqueira, A.B. 
%A N’dja, J.K. 
%A Letcher, S.G. 
%A Lohbeck, M. 
%A López-Camacho, R. 
%A Martínez-Ramos, M. 
%A Melo, F.P.L. 
%A Mora, F. 
%A Müller, S.C. 
%A N’Guessan, A.E. 
%A Oberleitner, F. 
%A Ortiz-Malavassi, E. 
%A Pérez-García, E.A. 
%A Pinho, B.X. 
%A Piotto, D. 
%A Powers, J.S. 
%A Rodríguez-Buriticá, S. 
%A Rozendaal, D.M.A. 
%A Ruíz, J. 
%A Tabarelli, M. 
%A Teixeira, H.M. 
%A de, Sá, Barretto, Sampaio, E.V. 
%A van der, Wal, H. 
%A Villa, P.M. 
%A Fernandes, G.W. 
%A Santos, B.A. 
%A Aguilar-Cano, J. 
%A de, Almeida-Cortez, J.S. 
%A Alvarez-Davila, E. 
%A Arreola-Villa, F. 
%A Balvanera, P. 
%A Becknell, J.M. 
%A Cabral, G.A.L. 
%A Castellanos-Castro, C. 
%A de, Jong, B.H.J. 
%A Nieto, J.E. 
%A Espírito-Santo, M.M. 
%A Fandiño, M.C. 
%A García, H. 
%A García-Villalobos, D. 
%A Hall, J.S. 
%A Idárraga, A. 
%A Jiménez-Montoya, J. 
%A Kennard, D. 
%A Marín-Spiotta, E. 
%A Mesquita, R. 
%A Nunes, Y.R.F. 
%A Ochoa-Gaona, S. 
%A Peña-Claros, M. 
%A Pérez-Cárdenas, N. 
%A Rodríguez-Velázquez, J. 
%A Villanueva, L.S. 
%A Schwartz, N.B. 
%A Steininger, M.K. 
%A Veloso, M.D.M. 
%A Vester, H.F.M. 
%A Vieira, I.C.G. 
%A Williamson, G.B. 
%A Zanini, K. 
%A Hérault, B. 
%X Tropical forests disappear rapidly because of deforestation, yet they have the potential to regrow naturally on abandoned lands. We analyze how 12 forest attributes recover during secondary succession and how their recovery is interrelated using 77 sites across the tropics. Tropical forests are highly resilient to low-intensity land use; after 20 years, forest attributes attain 78% (33 to 100%) of their old-growth values. Recovery to 90% of old-growth values is fastest for soil ( 
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