Balancing natural forest regrowth and tree planting to ensure social fairness and compliance with environmental policies

Balancing natural forest regrowth and tree planting to ensure social fairness and compliance with environmental policies

The environmental benefits and lower implementation costs of (assisted) natural forest regrowth (NFR) compared to tree planting qualify it as a viable strategy to scale up forest restoration. However, NFR is not suitable in all places, because the potential for forest regeneration depends on the soc...

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Veröffentlicht in:The Journal of applied ecology 2021-11, Vol.58 (11), p.2371-2383
Hauptverfasser: Gastauer, Markus, Miazaki, Angela Silva, Crouzeilles, Renato, Tavares, Paulo André, Lino, Eric D. S. M., Rodrigues, Ricardo Ribeiro
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Sprache:eng
Schlagworte:
areas of permanent preservation
Compliance
Costs
environmental debt
Environmental policy
Environmental restoration
Forests
implementation costs
land tenure
Land use
legal reserves
Natural vegetation
opportunity costs
Planting
Policies
Rainforests
Regeneration
Regrowth
Restoration strategies
smallholders
Tree planting
Vegetation
Vegetation cover
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container_end_page 2383
container_issue 11
container_start_page 2371
container_title The Journal of applied ecology
container_volume 58
creator Gastauer, Markus
Miazaki, Angela Silva
Crouzeilles, Renato
Tavares, Paulo André
Lino, Eric D. S. M.
Rodrigues, Ricardo Ribeiro
description The environmental benefits and lower implementation costs of (assisted) natural forest regrowth (NFR) compared to tree planting qualify it as a viable strategy to scale up forest restoration. However, NFR is not suitable in all places, because the potential for forest regeneration depends on the socio‐environmental context and differs greatly over space and time. Therefore, it is critical to quantify the potential contribution of NFR for reaching forest restoration targets and complying with environmental policies. Here, we quantify the socio‐environmental consequences of NFR by considering four targets differing in restored area in the Atlantic Forest (6, 8, 15 and 22 Mha). We quantified the compliance with environmental policies, expected distribution of natural and restored vegetation within the biome and social fairness (distribution of restoration efforts and costs within small, medium and large‐sized properties) of two hypothetical forest restoration scenarios. We show that large‐scale forest restoration prioritizing the areas with the highest potential for NFR (Scenario I) allows us to comply with one‐third of the current environmental debt in the Atlantic Forest. Furthermore, this scenario disproportionately burdens specific types of land use, increases socioeconomic inequalities and concentrates restoration activities in regions in which the natural vegetation cover is already high. By contrast, Scenario II—eradicating the environmental debt that results from environmental policies, then prioritizing areas with the lowest overall restoration costs until reaching the restoration targets—is socially fairer and maximizes compliance with environmental policies. Its outcomes are more homogeneously distributed among counties and small, medium and large‐sized properties from the Brazilian Atlantic Forest. Despite doubling the implementation costs, the lower overall restoration costs in Scenario II result from significantly lower opportunity costs than in Scenario I. Synthesis and application. The environmental, social and economic outputs of large‐scale forest restoration in the Atlantic Forest can be maximized when NFR and tree planting are balanced (Scenario II). To achieve compliance with forest restoration commitments, we thus advocate for the site‐specific selection of the best forest restoration strategy to guarantee social fairness and compliance with environmental policies at minimum overall restoration costs. Resumo Devido maiores benefícios amb
doi_str_mv 10.1111/1365-2664.14065
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S. M. ; Rodrigues, Ricardo Ribeiro</creator><creatorcontrib>Gastauer, Markus ; Miazaki, Angela Silva ; Crouzeilles, Renato ; Tavares, Paulo André ; Lino, Eric D. S. M. ; Rodrigues, Ricardo Ribeiro</creatorcontrib><description>The environmental benefits and lower implementation costs of (assisted) natural forest regrowth (NFR) compared to tree planting qualify it as a viable strategy to scale up forest restoration. However, NFR is not suitable in all places, because the potential for forest regeneration depends on the socio‐environmental context and differs greatly over space and time. Therefore, it is critical to quantify the potential contribution of NFR for reaching forest restoration targets and complying with environmental policies. Here, we quantify the socio‐environmental consequences of NFR by considering four targets differing in restored area in the Atlantic Forest (6, 8, 15 and 22 Mha). We quantified the compliance with environmental policies, expected distribution of natural and restored vegetation within the biome and social fairness (distribution of restoration efforts and costs within small, medium and large‐sized properties) of two hypothetical forest restoration scenarios. We show that large‐scale forest restoration prioritizing the areas with the highest potential for NFR (Scenario I) allows us to comply with one‐third of the current environmental debt in the Atlantic Forest. Furthermore, this scenario disproportionately burdens specific types of land use, increases socioeconomic inequalities and concentrates restoration activities in regions in which the natural vegetation cover is already high. By contrast, Scenario II—eradicating the environmental debt that results from environmental policies, then prioritizing areas with the lowest overall restoration costs until reaching the restoration targets—is socially fairer and maximizes compliance with environmental policies. Its outcomes are more homogeneously distributed among counties and small, medium and large‐sized properties from the Brazilian Atlantic Forest. Despite doubling the implementation costs, the lower overall restoration costs in Scenario II result from significantly lower opportunity costs than in Scenario I. Synthesis and application. The environmental, social and economic outputs of large‐scale forest restoration in the Atlantic Forest can be maximized when NFR and tree planting are balanced (Scenario II). To achieve compliance with forest restoration commitments, we thus advocate for the site‐specific selection of the best forest restoration strategy to guarantee social fairness and compliance with environmental policies at minimum overall restoration costs. Resumo Devido maiores benefícios ambientais e menores custos comparada ao plantio total, a regeneração natural (assistida) de florestas pode ser considerada como uma estratégia mais viável para dar escala a restauração florestal. No entanto, a regeneração natural não é indicada em todos os locais porque o seu potencial depende do contexto socioambiental que varia no espaço e no tempo. Portanto, é fundamental quantificar a contribuição potencial da regeneração natural para atingir as metas de restauração florestal e cumprir políticas ambientais. Nesse estudo, quantificamos as consequências socioambientais da regeneração natural considerando quatro alvos de área restaurada na Mata Atlântica (6, 8, 15 e 22 Mha). Utilizando dois cenários hipotéticos de restauração florestal, quantificamos o cumprimento de políticas ambientais, a distribuição esperada da vegetação florestal original e restaurada no bioma e a equidade social (distribuição dos esforços e custos de restauração entre pequenas, médias e grandes propriedades rurais) para os quatro alvos. Mostramos que a restauração florestal em larga escala priorizando as áreas com maior potencial para regeneração natural (Cenário I) nos permite cumprir um terço do débito ambiental atual na Mata Atlântica. No entanto, esse cenário onera desproporcionalmente tipos específicos de uso da terra, aumentando as desigualdades socioeconômicas e concentrando atividades de restauração em regiões onde a cobertura florestal original já se encontra em alta quantidade. Em contrapartida, o Cenário II ‐ recomposição de débitos ambientais decorrentes das políticas ambientais, priorizando as áreas com os menores custos totais de restauração até atingir as metas de restauração ‐ é socialmente mais justo e maximiza o cumprimento das políticas ambientais. Seus resultados são distribuídos de forma mais homogênea entre os municípios e entre pequenas, médias e grandes propriedades rurais da Mata Atlântica brasileira. Apesar de dobrar os custos de implementação, os custos totais de restauração são mais baixos no Cenário II, porque os custos de oportunidade nesse cenário são significativamente mais baixos do que no Cenário I. Síntese e Aplicação. Os resultados ambientais, sociais e econômicos da restauração florestal em larga escala na Mata Atlântica podem ser maximizados quando a regeneração natural (assistida) e o plantio total são equilibrados (Cenário II). Para alcançar o cumprimento dos compromissos de restauração florestal, defendemos a seleção específica do local da melhor estratégia de restauração florestal para garantir a equidade social e o cumprimento das políticas ambientais com custos globais mínimos de restauração. The environmental, social and economic outputs of large‐scale forest restoration in the Atlantic Forest can be maximized when NFR and tree planting are balanced (Scenario II). 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S. M.</creatorcontrib><creatorcontrib>Rodrigues, Ricardo Ribeiro</creatorcontrib><title>Balancing natural forest regrowth and tree planting to ensure social fairness and compliance with environmental policies</title><title>The Journal of applied ecology</title><description>The environmental benefits and lower implementation costs of (assisted) natural forest regrowth (NFR) compared to tree planting qualify it as a viable strategy to scale up forest restoration. However, NFR is not suitable in all places, because the potential for forest regeneration depends on the socio‐environmental context and differs greatly over space and time. Therefore, it is critical to quantify the potential contribution of NFR for reaching forest restoration targets and complying with environmental policies. Here, we quantify the socio‐environmental consequences of NFR by considering four targets differing in restored area in the Atlantic Forest (6, 8, 15 and 22 Mha). We quantified the compliance with environmental policies, expected distribution of natural and restored vegetation within the biome and social fairness (distribution of restoration efforts and costs within small, medium and large‐sized properties) of two hypothetical forest restoration scenarios. We show that large‐scale forest restoration prioritizing the areas with the highest potential for NFR (Scenario I) allows us to comply with one‐third of the current environmental debt in the Atlantic Forest. Furthermore, this scenario disproportionately burdens specific types of land use, increases socioeconomic inequalities and concentrates restoration activities in regions in which the natural vegetation cover is already high. By contrast, Scenario II—eradicating the environmental debt that results from environmental policies, then prioritizing areas with the lowest overall restoration costs until reaching the restoration targets—is socially fairer and maximizes compliance with environmental policies. Its outcomes are more homogeneously distributed among counties and small, medium and large‐sized properties from the Brazilian Atlantic Forest. Despite doubling the implementation costs, the lower overall restoration costs in Scenario II result from significantly lower opportunity costs than in Scenario I. Synthesis and application. The environmental, social and economic outputs of large‐scale forest restoration in the Atlantic Forest can be maximized when NFR and tree planting are balanced (Scenario II). To achieve compliance with forest restoration commitments, we thus advocate for the site‐specific selection of the best forest restoration strategy to guarantee social fairness and compliance with environmental policies at minimum overall restoration costs. Resumo Devido maiores benefícios ambientais e menores custos comparada ao plantio total, a regeneração natural (assistida) de florestas pode ser considerada como uma estratégia mais viável para dar escala a restauração florestal. No entanto, a regeneração natural não é indicada em todos os locais porque o seu potencial depende do contexto socioambiental que varia no espaço e no tempo. Portanto, é fundamental quantificar a contribuição potencial da regeneração natural para atingir as metas de restauração florestal e cumprir políticas ambientais. Nesse estudo, quantificamos as consequências socioambientais da regeneração natural considerando quatro alvos de área restaurada na Mata Atlântica (6, 8, 15 e 22 Mha). Utilizando dois cenários hipotéticos de restauração florestal, quantificamos o cumprimento de políticas ambientais, a distribuição esperada da vegetação florestal original e restaurada no bioma e a equidade social (distribuição dos esforços e custos de restauração entre pequenas, médias e grandes propriedades rurais) para os quatro alvos. Mostramos que a restauração florestal em larga escala priorizando as áreas com maior potencial para regeneração natural (Cenário I) nos permite cumprir um terço do débito ambiental atual na Mata Atlântica. No entanto, esse cenário onera desproporcionalmente tipos específicos de uso da terra, aumentando as desigualdades socioeconômicas e concentrando atividades de restauração em regiões onde a cobertura florestal original já se encontra em alta quantidade. Em contrapartida, o Cenário II ‐ recomposição de débitos ambientais decorrentes das políticas ambientais, priorizando as áreas com os menores custos totais de restauração até atingir as metas de restauração ‐ é socialmente mais justo e maximiza o cumprimento das políticas ambientais. Seus resultados são distribuídos de forma mais homogênea entre os municípios e entre pequenas, médias e grandes propriedades rurais da Mata Atlântica brasileira. Apesar de dobrar os custos de implementação, os custos totais de restauração são mais baixos no Cenário II, porque os custos de oportunidade nesse cenário são significativamente mais baixos do que no Cenário I. Síntese e Aplicação. Os resultados ambientais, sociais e econômicos da restauração florestal em larga escala na Mata Atlântica podem ser maximizados quando a regeneração natural (assistida) e o plantio total são equilibrados (Cenário II). Para alcançar o cumprimento dos compromissos de restauração florestal, defendemos a seleção específica do local da melhor estratégia de restauração florestal para garantir a equidade social e o cumprimento das políticas ambientais com custos globais mínimos de restauração. The environmental, social and economic outputs of large‐scale forest restoration in the Atlantic Forest can be maximized when NFR and tree planting are balanced (Scenario II). To achieve compliance with forest restoration commitments, we thus advocate for the site‐specific selection of the best forest restoration strategy to guarantee social fairness and compliance with environmental policies at minimum overall restoration costs.</description><subject>areas of permanent preservation</subject><subject>Compliance</subject><subject>Costs</subject><subject>environmental debt</subject><subject>Environmental policy</subject><subject>Environmental restoration</subject><subject>Forests</subject><subject>implementation costs</subject><subject>land tenure</subject><subject>Land use</subject><subject>legal reserves</subject><subject>Natural vegetation</subject><subject>opportunity costs</subject><subject>Planting</subject><subject>Policies</subject><subject>Rainforests</subject><subject>Regeneration</subject><subject>Regrowth</subject><subject>Restoration strategies</subject><subject>smallholders</subject><subject>Tree planting</subject><subject>Vegetation</subject><subject>Vegetation cover</subject><issn>0021-8901</issn><issn>1365-2664</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><recordid>eNqFkEtPAjEURhujiYiu3TZxPdA3M0sl-AqJLnTdlM4FS4Z2bAeRf28HjFu7adOc893cD6FrSkY0nzHlShZMKTGigih5ggZ_P6doQAijRVkReo4uUloTQirJ-QB935nGeOv8CnvTbaNp8DJESB2OsIph131g42vcRQDcZrLryS5g8GkbAadgXa8YFz2kdGBt2LSNy6GAdy774L9cDH4DvstoGxpnHaRLdLY0TYKr33uI3u9nb9PHYv7y8DS9nReWUymL2kpFWcXFQnBW1kYQYSaCA1vYqiasLEtpTH4srSwrqpggVk2gNkQJWtW85EN0c8xtY_jc5sX0OmyjzyM1k5VifCKVyNT4SNkYUoqw1G10GxP3mhLd16v7MnVfpj7Umw15NHaugf1_uH5-nR29H75PfZI</recordid><startdate>202111</startdate><enddate>202111</enddate><creator>Gastauer, Markus</creator><creator>Miazaki, Angela Silva</creator><creator>Crouzeilles, Renato</creator><creator>Tavares, Paulo André</creator><creator>Lino, Eric D. 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S. M.</au><au>Rodrigues, Ricardo Ribeiro</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Balancing natural forest regrowth and tree planting to ensure social fairness and compliance with environmental policies</atitle><jtitle>The Journal of applied ecology</jtitle><date>2021-11</date><risdate>2021</risdate><volume>58</volume><issue>11</issue><spage>2371</spage><epage>2383</epage><pages>2371-2383</pages><issn>0021-8901</issn><eissn>1365-2664</eissn><abstract>The environmental benefits and lower implementation costs of (assisted) natural forest regrowth (NFR) compared to tree planting qualify it as a viable strategy to scale up forest restoration. However, NFR is not suitable in all places, because the potential for forest regeneration depends on the socio‐environmental context and differs greatly over space and time. Therefore, it is critical to quantify the potential contribution of NFR for reaching forest restoration targets and complying with environmental policies. Here, we quantify the socio‐environmental consequences of NFR by considering four targets differing in restored area in the Atlantic Forest (6, 8, 15 and 22 Mha). We quantified the compliance with environmental policies, expected distribution of natural and restored vegetation within the biome and social fairness (distribution of restoration efforts and costs within small, medium and large‐sized properties) of two hypothetical forest restoration scenarios. We show that large‐scale forest restoration prioritizing the areas with the highest potential for NFR (Scenario I) allows us to comply with one‐third of the current environmental debt in the Atlantic Forest. Furthermore, this scenario disproportionately burdens specific types of land use, increases socioeconomic inequalities and concentrates restoration activities in regions in which the natural vegetation cover is already high. By contrast, Scenario II—eradicating the environmental debt that results from environmental policies, then prioritizing areas with the lowest overall restoration costs until reaching the restoration targets—is socially fairer and maximizes compliance with environmental policies. Its outcomes are more homogeneously distributed among counties and small, medium and large‐sized properties from the Brazilian Atlantic Forest. Despite doubling the implementation costs, the lower overall restoration costs in Scenario II result from significantly lower opportunity costs than in Scenario I. Synthesis and application. The environmental, social and economic outputs of large‐scale forest restoration in the Atlantic Forest can be maximized when NFR and tree planting are balanced (Scenario II). To achieve compliance with forest restoration commitments, we thus advocate for the site‐specific selection of the best forest restoration strategy to guarantee social fairness and compliance with environmental policies at minimum overall restoration costs. Resumo Devido maiores benefícios ambientais e menores custos comparada ao plantio total, a regeneração natural (assistida) de florestas pode ser considerada como uma estratégia mais viável para dar escala a restauração florestal. No entanto, a regeneração natural não é indicada em todos os locais porque o seu potencial depende do contexto socioambiental que varia no espaço e no tempo. Portanto, é fundamental quantificar a contribuição potencial da regeneração natural para atingir as metas de restauração florestal e cumprir políticas ambientais. Nesse estudo, quantificamos as consequências socioambientais da regeneração natural considerando quatro alvos de área restaurada na Mata Atlântica (6, 8, 15 e 22 Mha). Utilizando dois cenários hipotéticos de restauração florestal, quantificamos o cumprimento de políticas ambientais, a distribuição esperada da vegetação florestal original e restaurada no bioma e a equidade social (distribuição dos esforços e custos de restauração entre pequenas, médias e grandes propriedades rurais) para os quatro alvos. Mostramos que a restauração florestal em larga escala priorizando as áreas com maior potencial para regeneração natural (Cenário I) nos permite cumprir um terço do débito ambiental atual na Mata Atlântica. No entanto, esse cenário onera desproporcionalmente tipos específicos de uso da terra, aumentando as desigualdades socioeconômicas e concentrando atividades de restauração em regiões onde a cobertura florestal original já se encontra em alta quantidade. Em contrapartida, o Cenário II ‐ recomposição de débitos ambientais decorrentes das políticas ambientais, priorizando as áreas com os menores custos totais de restauração até atingir as metas de restauração ‐ é socialmente mais justo e maximiza o cumprimento das políticas ambientais. Seus resultados são distribuídos de forma mais homogênea entre os municípios e entre pequenas, médias e grandes propriedades rurais da Mata Atlântica brasileira. Apesar de dobrar os custos de implementação, os custos totais de restauração são mais baixos no Cenário II, porque os custos de oportunidade nesse cenário são significativamente mais baixos do que no Cenário I. Síntese e Aplicação. Os resultados ambientais, sociais e econômicos da restauração florestal em larga escala na Mata Atlântica podem ser maximizados quando a regeneração natural (assistida) e o plantio total são equilibrados (Cenário II). Para alcançar o cumprimento dos compromissos de restauração florestal, defendemos a seleção específica do local da melhor estratégia de restauração florestal para garantir a equidade social e o cumprimento das políticas ambientais com custos globais mínimos de restauração. The environmental, social and economic outputs of large‐scale forest restoration in the Atlantic Forest can be maximized when NFR and tree planting are balanced (Scenario II). To achieve compliance with forest restoration commitments, we thus advocate for the site‐specific selection of the best forest restoration strategy to guarantee social fairness and compliance with environmental policies at minimum overall restoration costs.</abstract><cop>Oxford</cop><pub>Blackwell Publishing Ltd</pub><doi>10.1111/1365-2664.14065</doi><tpages>13</tpages><orcidid>https://orcid.org/0000-0002-9320-1148</orcidid><orcidid>https://orcid.org/0000-0002-9599-0902</orcidid></addata></record>
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source Wiley-Blackwell Journals; Wiley-Blackwell Open Access Backfiles (Open Access); EZB Electronic Journals Library
subjects areas of permanent preservation
Compliance
Costs
environmental debt
Environmental policy
Environmental restoration
Forests
implementation costs
land tenure
Land use
legal reserves
Natural vegetation
opportunity costs
Planting
Policies
Rainforests
Regeneration
Regrowth
Restoration strategies
smallholders
Tree planting
Vegetation
Vegetation cover
title Balancing natural forest regrowth and tree planting to ensure social fairness and compliance with environmental policies
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