Active Restoration Initiates High Quality Forest Succession in a Deforested Landscape in Amazonia

Active Restoration Initiates High Quality Forest Succession in a Deforested Landscape in Amazonia

Amazonia is well known for its high natural regeneration capacity; for this reason, passive restoration is normally recommended for the recovery of its degraded forests. However, highly deforested landscapes in southern Amazonia require active restoration. Since restoration methods can shape the qua...

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Main Authors: Daniel Luis Mascia Vieira, Silvia Barbosa Rodrigues, Catarina Conte Jakovac, Gustavo Paiva Evangelista da Rocha, Fagno Reis, Augusto Borges
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Forests
Subjects:
secondary succession
assisted natural regeneration
regeneration mechanisms
Online Access:https://www.mdpi.com/1999-4907/12/8/1022
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spelling doaj-b13a474ad3c649a8b9b0d9ed9370a2552021-08-26T13:46:00ZengMDPI AGForests1999-49072021-07-01121022102210.3390/f12081022Active Restoration Initiates High Quality Forest Succession in a Deforested Landscape in AmazoniaDaniel Luis Mascia Vieira0Silvia Barbosa Rodrigues1Catarina Conte Jakovac2Gustavo Paiva Evangelista da Rocha3Fagno Reis4Augusto Borges5Embrapa Recursos Genéticos e Biotecnologia, Parque Estação Biológica, PqEB, Av. W5 Norte (Final), Brasília 70770-917, DF, BrazilDepartamento de Ecologia, Instituto de Ciências Biológicas, Universidade de Brasília, Brasília 70919-900, DF, BrazilInternational Institute for Sustainability, Estrada Dona Castorina, 124, Rio de Janeiro 22460-320, RJ, BrazilTikré Brasil Soluções Ambientais, Rua Almery de Paiva 255, Catalão 75702-390, GO, BrazilCooperativa de Produtores Rurais do Observatório Ambiental Jirau (COOPPROJIRAU), Rua Pitomba, 1 Quadra B1, Nova Mutum Paraná 76842-000, RO, BrazilEnergia Sustentável do Brasil S.A. (ESBR), Rodovia BR-364, KM 824, Porto Velho 76840-000, RO, BrazilAmazonia is well known for its high natural regeneration capacity; for this reason, passive restoration is normally recommended for the recovery of its degraded forests. However, highly deforested landscapes in southern Amazonia require active restoration. Since restoration methods can shape the quality and speed of early forest recovery, this study aimed to verify how active restoration pushes sites stably covered with exotic grasses towards forest recovery. We evaluated early forest succession at active restoration sites, i.e., soil plowing, direct seeding of pioneer species, and seedling stock planting at low density. We analyzed forest structure, diversity, and species composition in two age classes, 0.5–3.5 and 4.5–7.5 years old. As reference, we evaluated sites able to naturally regenerate in the same region. We sampled 36 active restoration and 31 natural regeneration sites along the Madeira River, southern Amazonia. Active restoration triggered succession to similar or higher levels of forest structure than sites where natural regeneration was taking place. The most dominant species did not overlap between active restoration and natural regeneration sites. The overall composition of species was different between the two restoration methods. Dominant species and size class distribution show that active restoration is performing successfully. Soil preparation combined with a high availability of seeds of pioneer trees resulted in a high stem density and basal area of facilitative pioneer trees. Planted seedlings added species diversity and increased density of large trees. Interventions to increase the odds of natural regeneration can be effective for non-regenerating sites in resilient landscapes.https://www.mdpi.com/1999-4907/12/8/1022secondary successionassisted natural regenerationregeneration mechanisms
collection DOAJ
language English
format Article
sources DOAJ
author Daniel Luis Mascia Vieira
Silvia Barbosa Rodrigues
Catarina Conte Jakovac
Gustavo Paiva Evangelista da Rocha
Fagno Reis
Augusto Borges
spellingShingle Daniel Luis Mascia Vieira
Silvia Barbosa Rodrigues
Catarina Conte Jakovac
Gustavo Paiva Evangelista da Rocha
Fagno Reis
Augusto Borges
Active Restoration Initiates High Quality Forest Succession in a Deforested Landscape in Amazonia
Forests
secondary succession
assisted natural regeneration
regeneration mechanisms
author_facet Daniel Luis Mascia Vieira
Silvia Barbosa Rodrigues
Catarina Conte Jakovac
Gustavo Paiva Evangelista da Rocha
Fagno Reis
Augusto Borges
author_sort Daniel Luis Mascia Vieira
title Active Restoration Initiates High Quality Forest Succession in a Deforested Landscape in Amazonia
title_short Active Restoration Initiates High Quality Forest Succession in a Deforested Landscape in Amazonia
title_full Active Restoration Initiates High Quality Forest Succession in a Deforested Landscape in Amazonia
title_fullStr Active Restoration Initiates High Quality Forest Succession in a Deforested Landscape in Amazonia
title_full_unstemmed Active Restoration Initiates High Quality Forest Succession in a Deforested Landscape in Amazonia
title_sort active restoration initiates high quality forest succession in a deforested landscape in amazonia
publisher MDPI AG
series Forests
issn 1999-4907
publishDate 2021-07-01
description Amazonia is well known for its high natural regeneration capacity; for this reason, passive restoration is normally recommended for the recovery of its degraded forests. However, highly deforested landscapes in southern Amazonia require active restoration. Since restoration methods can shape the quality and speed of early forest recovery, this study aimed to verify how active restoration pushes sites stably covered with exotic grasses towards forest recovery. We evaluated early forest succession at active restoration sites, i.e., soil plowing, direct seeding of pioneer species, and seedling stock planting at low density. We analyzed forest structure, diversity, and species composition in two age classes, 0.5–3.5 and 4.5–7.5 years old. As reference, we evaluated sites able to naturally regenerate in the same region. We sampled 36 active restoration and 31 natural regeneration sites along the Madeira River, southern Amazonia. Active restoration triggered succession to similar or higher levels of forest structure than sites where natural regeneration was taking place. The most dominant species did not overlap between active restoration and natural regeneration sites. The overall composition of species was different between the two restoration methods. Dominant species and size class distribution show that active restoration is performing successfully. Soil preparation combined with a high availability of seeds of pioneer trees resulted in a high stem density and basal area of facilitative pioneer trees. Planted seedlings added species diversity and increased density of large trees. Interventions to increase the odds of natural regeneration can be effective for non-regenerating sites in resilient landscapes.
topic secondary succession
assisted natural regeneration
regeneration mechanisms
url https://www.mdpi.com/1999-4907/12/8/1022
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