@Article{CrouzeillesBMFPBLLGCMRLS:2020:AcCoLa,
               author = "Crouzeilles, Renato and Beyer, Hawthorne L. and Monteiro, Lara M. 
                         and Feltran-Barbieri, Rafael and Pess{\^o}a, Ana Carolina Moreira 
                         and Barros, Felipe S. M. and Lindenmayer, David B. and Lino, Eric 
                         D. S. M. and Grelle, Carlos E. V. and Chazdon, Robin L. and 
                         Matsumoto, Marcelo and Rosa, Marcos and Latawiec, Agnieszka E. and 
                         Strassburg, Bernardo B. N.",
          affiliation = "{International Institute for Sustainability} and {Global Change 
                         InstituteUniversity of Queensland} and {International Institute 
                         for Sustainability} and {World Resources Institute} and {Instituto 
                         Nacional de Pesquisas Espaciais (INPE)} and {International 
                         Institute for Sustainability} and {Australian National University} 
                         and {International Institute for Sustainability} and {Universidade 
                         Federal do Rio de Janeiro (UFRJ)} and {International Institute for 
                         Sustainability} and {World Resources Institute} and {Universidade 
                         de S{\~a}o Paulo (USP)} and {International Institute for 
                         Sustainability} and {International Institute for Sustainability}",
                title = "Achieving cost-effective landscape-scale forest restoration 
                         through targeted natural regeneration",
              journal = "Conservation Letters",
                 year = "2020",
               volume = "12",
                pages = "e12709",
                 note = "{Pr{\^e}mio CAPES Elsevier 2023 - ODS 15: Vida terrestre}",
             keywords = "assisted regeneration, conservation planning, restoration targets, 
                         tree planting, tropical and subtropical forests.",
             abstract = "High costs of tree planting are a barrier to meeting global forest 
                         restoration targets. Natural forest regeneration is more 
                         cost-effective than tree planting, but its potential to foster 
                         restoration at scale is poorly understood. We predict, map, and 
                         quantify natural regeneration potential within 75.5 M ha of 
                         deforested lands in the Brazilian Atlantic Forest. Of 34.1 M ha 
                         (26.4%) of current forest cover, 2.7 M ha (8.0%) regenerated 
                         naturally from 1996 to 2015. We estimate that another 2.8 M ha 
                         could naturally regenerate by 2035, and a further 18.8 M ha could 
                         be restored using assisted regeneration methods, thereby reducing 
                         implementation costs by US\$ 90.6 billion (77%) compared to tree 
                         planting. These restored forests could sequester 2.3 GtCO2 of 
                         carbon, reduce the mean number of expected species at risk of 
                         extinction by 63.4, and reduce fragmentation by 44% compared to 
                         current levels. Natural regeneration planning is key for achieving 
                         cost-effective large-scale restoration.",
                  doi = "10.1111/conl.12709",
                  url = "http://dx.doi.org/10.1111/conl.12709",
                 issn = "1755-263X",
                label = "lattes: 9352090361680792 5 CrouzeillesBMFPBLLGCMRLS:2020:AcCoLa",
             language = "en",
           targetfile = "crouzeiles_archieving.pdf",
        urlaccessdate = "28 abr. 2024"
}