Functional traits and performance of woody species on oil- affected soils of the Ecuadorian Amazon
Tropical forests cover 10 % of the terrestrial surface and account for 50 % of worldwide tree diversity (Mayaux et al., 2005). More than half of tropical forest areas are composed of tropical rainforests, which are characterized by a high diversity of tree species (Lewis et al., 2009). Tropical rainforests have a significant influence on global patterns of biodiversity, ecosystem ecology, productivity, and biogeochemical cycles (Malhi, 2010). According to Guevara-Andino et al. (2019) in the Ecuadorian Amazon rainforest there are 2296 tree species; however, approximately 4.2 million hectares of this ecosystem have been impacted by many anthropogenic activities related to oil extraction (opening of new roads, construction of platforms, mud and drill cutting cells, contaminated soil treatment units, and settlement of camps and heliports) (Rivera-Parra et al., 2020). These activities have resulted in high deforestation, acceleration of soil erosion, decrease in water infiltration, increase in superficial runoff (Bertzky et al., 2011), and reduction of fauna species (Arroyo-Rodríguez et al., 2007; Pozo-Rivera et al., 2023).In response, the Ecuadorian government has implemented reforestation programs on sites affected by oil extraction processes since 2000 (Villacís, 2016). Reforestation activities began with the production of seedlings in plant nurseries, where various native and exotic tree species are produced (primarily timber, fruit, and ornamental plants), later, seedlings are transplanted into the affected soils when reach 30 cm in height. Studies to evaluate the most suitable species for reforestation sites (previously affected by oil extraction processes) have been conducted in plant nurseries (Villacís, Armas et al., 2016), as well as in open-field affected sites (Villacís, Casanoves et al., 2016).
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Revista de Biologia Tropical
2023
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| Subjects: | SPECIES, ESPECIES, ENVIROMENTAL SCIENCES, CIENCIAS AMBIENTALES, ANALISIS DEL SUELO, SOIL ANALYSIS, WOOD PRESERVATION, PRESERVACION, |
| Online Access: | https://repositorio.catie.ac.cr/handle/11554/12352 |
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SPECIES ESPECIES ENVIROMENTAL SCIENCES CIENCIAS AMBIENTALES ANALISIS DEL SUELO SOIL ANALYSIS WOOD PRESERVATION PRESERVACION SPECIES ESPECIES ENVIROMENTAL SCIENCES CIENCIAS AMBIENTALES ANALISIS DEL SUELO SOIL ANALYSIS WOOD PRESERVATION PRESERVACION |
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SPECIES ESPECIES ENVIROMENTAL SCIENCES CIENCIAS AMBIENTALES ANALISIS DEL SUELO SOIL ANALYSIS WOOD PRESERVATION PRESERVACION SPECIES ESPECIES ENVIROMENTAL SCIENCES CIENCIAS AMBIENTALES ANALISIS DEL SUELO SOIL ANALYSIS WOOD PRESERVATION PRESERVACION Villancis, Jaime autor Casanoves, Fernando autor 54865 Hang, Susana autor Armas, Cristina autor Functional traits and performance of woody species on oil- affected soils of the Ecuadorian Amazon |
| description |
Tropical forests cover 10 % of the terrestrial surface and account for 50 % of worldwide tree diversity (Mayaux et al., 2005). More than half of tropical forest areas are composed of tropical rainforests, which are characterized by a high diversity of tree species (Lewis et al., 2009). Tropical rainforests have a significant influence on global patterns of biodiversity, ecosystem ecology, productivity, and biogeochemical cycles (Malhi, 2010). According to Guevara-Andino et al. (2019) in the Ecuadorian Amazon rainforest there are 2296 tree species; however, approximately 4.2 million hectares of this ecosystem have been impacted by many anthropogenic activities related to oil extraction (opening of new roads, construction of platforms, mud and drill cutting cells, contaminated soil treatment units, and settlement of camps and heliports) (Rivera-Parra et al., 2020). These activities have resulted in high deforestation, acceleration of soil erosion, decrease in water infiltration, increase in superficial runoff (Bertzky et al., 2011), and reduction of fauna species (Arroyo-Rodríguez et al., 2007; Pozo-Rivera et al., 2023).In response, the Ecuadorian government has implemented reforestation programs on sites affected by oil extraction processes since 2000 (Villacís, 2016). Reforestation activities began with the production of seedlings in plant nurseries, where various native and exotic tree species are produced (primarily timber, fruit, and ornamental plants), later, seedlings are transplanted into the affected soils when reach 30 cm in height. Studies to evaluate the most suitable species for reforestation sites (previously affected by oil extraction processes) have been conducted in plant nurseries (Villacís, Armas et al., 2016), as well as in open-field affected sites (Villacís, Casanoves et al., 2016). |
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Texto |
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SPECIES ESPECIES ENVIROMENTAL SCIENCES CIENCIAS AMBIENTALES ANALISIS DEL SUELO SOIL ANALYSIS WOOD PRESERVATION PRESERVACION |
| author |
Villancis, Jaime autor Casanoves, Fernando autor 54865 Hang, Susana autor Armas, Cristina autor |
| author_facet |
Villancis, Jaime autor Casanoves, Fernando autor 54865 Hang, Susana autor Armas, Cristina autor |
| author_sort |
Villancis, Jaime autor |
| title |
Functional traits and performance of woody species on oil- affected soils of the Ecuadorian Amazon |
| title_short |
Functional traits and performance of woody species on oil- affected soils of the Ecuadorian Amazon |
| title_full |
Functional traits and performance of woody species on oil- affected soils of the Ecuadorian Amazon |
| title_fullStr |
Functional traits and performance of woody species on oil- affected soils of the Ecuadorian Amazon |
| title_full_unstemmed |
Functional traits and performance of woody species on oil- affected soils of the Ecuadorian Amazon |
| title_sort |
functional traits and performance of woody species on oil- affected soils of the ecuadorian amazon |
| publisher |
Revista de Biologia Tropical |
| publishDate |
2023 |
| url |
https://repositorio.catie.ac.cr/handle/11554/12352 |
| work_keys_str_mv |
AT villancisjaimeautor functionaltraitsandperformanceofwoodyspeciesonoilaffectedsoilsoftheecuadorianamazon AT casanovesfernandoautor54865 functionaltraitsandperformanceofwoodyspeciesonoilaffectedsoilsoftheecuadorianamazon AT hangsusanaautor functionaltraitsandperformanceofwoodyspeciesonoilaffectedsoilsoftheecuadorianamazon AT armascristinaautor functionaltraitsandperformanceofwoodyspeciesonoilaffectedsoilsoftheecuadorianamazon |
| _version_ |
1787219319553261568 |
| spelling |
KOHA-OAI-BVE:1522742023-11-16T15:49:52ZFunctional traits and performance of woody species on oil- affected soils of the Ecuadorian Amazon Villancis, Jaime autor Casanoves, Fernando autor 54865 Hang, Susana autor Armas, Cristina autor textRevista de Biologia Tropical 2023engpdfTropical forests cover 10 % of the terrestrial surface and account for 50 % of worldwide tree diversity (Mayaux et al., 2005). More than half of tropical forest areas are composed of tropical rainforests, which are characterized by a high diversity of tree species (Lewis et al., 2009). Tropical rainforests have a significant influence on global patterns of biodiversity, ecosystem ecology, productivity, and biogeochemical cycles (Malhi, 2010). According to Guevara-Andino et al. (2019) in the Ecuadorian Amazon rainforest there are 2296 tree species; however, approximately 4.2 million hectares of this ecosystem have been impacted by many anthropogenic activities related to oil extraction (opening of new roads, construction of platforms, mud and drill cutting cells, contaminated soil treatment units, and settlement of camps and heliports) (Rivera-Parra et al., 2020). These activities have resulted in high deforestation, acceleration of soil erosion, decrease in water infiltration, increase in superficial runoff (Bertzky et al., 2011), and reduction of fauna species (Arroyo-Rodríguez et al., 2007; Pozo-Rivera et al., 2023).In response, the Ecuadorian government has implemented reforestation programs on sites affected by oil extraction processes since 2000 (Villacís, 2016). Reforestation activities began with the production of seedlings in plant nurseries, where various native and exotic tree species are produced (primarily timber, fruit, and ornamental plants), later, seedlings are transplanted into the affected soils when reach 30 cm in height. Studies to evaluate the most suitable species for reforestation sites (previously affected by oil extraction processes) have been conducted in plant nurseries (Villacís, Armas et al., 2016), as well as in open-field affected sites (Villacís, Casanoves et al., 2016).Tropical forests cover 10 % of the terrestrial surface and account for 50 % of worldwide tree diversity (Mayaux et al., 2005). More than half of tropical forest areas are composed of tropical rainforests, which are characterized by a high diversity of tree species (Lewis et al., 2009). Tropical rainforests have a significant influence on global patterns of biodiversity, ecosystem ecology, productivity, and biogeochemical cycles (Malhi, 2010). According to Guevara-Andino et al. (2019) in the Ecuadorian Amazon rainforest there are 2296 tree species; however, approximately 4.2 million hectares of this ecosystem have been impacted by many anthropogenic activities related to oil extraction (opening of new roads, construction of platforms, mud and drill cutting cells, contaminated soil treatment units, and settlement of camps and heliports) (Rivera-Parra et al., 2020). These activities have resulted in high deforestation, acceleration of soil erosion, decrease in water infiltration, increase in superficial runoff (Bertzky et al., 2011), and reduction of fauna species (Arroyo-Rodríguez et al., 2007; Pozo-Rivera et al., 2023).In response, the Ecuadorian government has implemented reforestation programs on sites affected by oil extraction processes since 2000 (Villacís, 2016). Reforestation activities began with the production of seedlings in plant nurseries, where various native and exotic tree species are produced (primarily timber, fruit, and ornamental plants), later, seedlings are transplanted into the affected soils when reach 30 cm in height. Studies to evaluate the most suitable species for reforestation sites (previously affected by oil extraction processes) have been conducted in plant nurseries (Villacís, Armas et al., 2016), as well as in open-field affected sites (Villacís, Casanoves et al., 2016).SPECIESESPECIESENVIROMENTAL SCIENCESCIENCIAS AMBIENTALESANALISIS DEL SUELOSOIL ANALYSISWOOD PRESERVATIONPRESERVACIONhttps://repositorio.catie.ac.cr/handle/11554/12352 |