Balancing economic costs and ecological outcomes of passive and active restoration in agricultural landscapes: the case of Brazil

Forest restoration requires strategies such as passive restoration to balance financial investments and ecological outcomes. However, the ecological outcomes of passive restoration are traditionally regarded as uncertain. We evaluated technical and legal strategies for balancing economic costs and e...

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Published inBiotropica Vol. 48; no. 6; pp. 856 - 867
Main Authors Brancalion, Pedro H. S., Schweizer, Daniella, Gaudare, Ulysse, Mangueira, Julia R., Lamonato, Fernando, Farah, Fabiano T., Nave, André G., Rodrigues, Ricardo R.
Format Journal Article
LanguageEnglish
Published Hoboken Blackwell Publishing Ltd 01.11.2016
Wiley
Wiley Subscription Services, Inc
Subjects
abandoned land
agricultural land
Amazon
Atlantic Forest
Brazil
canopy
cerrado
economic costs
economic investment
ecotones
farms
Forest Code
forest restoration
forests
large-scale restoration
monitoring
natural regeneration
restoration methods
restoration monitoring
SECTION IV. SCALING UP NATURAL REGENERATION IN THE CONTEXT OF PRODUCTION LANDSCAPES AND REGIONAL PLANNING
shrubs
trees
Brazil, Amazon R
Brazil
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Summary:Forest restoration requires strategies such as passive restoration to balance financial investments and ecological outcomes. However, the ecological outcomes of passive restoration are traditionally regarded as uncertain. We evaluated technical and legal strategies for balancing economic costs and ecological outcomes of passive versus active restoration in agricultural landscapes. We focused in the case of Brazil, where we assessed the factors driving the proportion of land allocated to passive and active restoration in 42 programs covering 698,398 hectares of farms in the Atlantic Forest, Atlantic Forest/cerrado ecotone and Amazon; the ecological outcomes of passive and active restoration in 2955 monitoring plots placed in six restoration programs; and the legal framework developed by some Brazilian states to balance the different restoration approaches and comply with legal commitments. Active restoration had the highest proportion of land allocated to it (78.4%), followed by passive (14.2%) and mixed restoration (7.4%). Passive restoration was higher in the Amazon, in silviculture, and when remaining forest cover was over 50 percent. Overall, both restoration approaches showed high levels of variation in the ecological outcomes; nevertheless, passively restored areas had a smaller percentage canopy cover, lower species density, and less shrubs and trees (dbh > 5 cm). The studied legal frameworks considered land abandonment for up to 4 years before deciding on a restoration approach, to favor the use of passive restoration. A better understanding of the biophysical and socioeconomic features of areas targeted for restoration is needed to take a better advantage of their natural regeneration potential.
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APPENDIX S1. Details on the history of restoration programs and the restoration requirements associated to the Forest Code
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ISSN:0006-3606
1744-7429
DOI:10.1111/btp.12383