Multidisciplinary assessment of a restored mangrove ecosystem in Guanabara Bay, Brazil: linking science and conservation

Due to their coastal location, mangrove ecosystems are especially susceptible to various human-caused disturbances. These disturbances can result in a loss of original mangrove cover, a decline in biodiversity, and a degradation of their ecological functions. This study examines a restored mangrove...

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Bibliographic Details
Published in:Wetlands ecology and management 2024-12, Vol.32 (6), p.1003-1025
Main Authors: dos Santos, Alan Andrade, Nunes-Freitas, André Felippe, Tompson, Cauê Machado, Barbosa, Geovane, Takahashi, Daiki, Suyama, Yoshihisa, Lira, Catarina Fonseca
Format: Article
Language:English
Subjects:
Adults
Age composition
Avicennia
Biodiversity
Brazil
Deforestation
Disturbances
Dominant species
Ecological function
Genetic analysis
Genetic diversity
genetic erosion
Genetic variation
Laguncularia racemosa
land restoration
mangrove forests
Mangrove swamps
Mangroves
normalized difference vegetation index
Normalized difference vegetative index
Phytosociology
Plant cover
planting
Remote sensing
Resilience
Revegetation
Seedlings
species
Vegetation
Vegetation cover
vegetation structure
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Summary:Due to their coastal location, mangrove ecosystems are especially susceptible to various human-caused disturbances. These disturbances can result in a loss of original mangrove cover, a decline in biodiversity, and a degradation of their ecological functions. This study examines a restored mangrove area within the Barão de Mauá Natural Municipal Park (PNMBM) in Guanabara Bay, Brazil, two decades after the initiation of a restoration project. We used a multidisciplinary approach, combining remote sensing analyses, assessment of the vegetation structure, and genetic diversity analysis to evaluate this restored mangrove forest. Remote sensing data demonstrated high Normalized Difference Vegetation Index values following the restoration project’s completion, indicating the revegetation’s success. Exploring the structure of the new forest, we found Laguncularia racemosa to be the most abundant species, with a higher density and dominance for adults and seedlings. Conversely, Avicennia schaueriana was the least abundant in all areas, indicating a need for species enrichment. Planting age affected the forest structure, suggesting the capacity of this mangrove to achieve a natural maturity state. There was a genetic erosion in L. racemosa individuals, both adults and seedlings and low diversity was observed in A. schaueriana individuals. The PNMBM mangrove forest has shown remarkable resilience in maintaining its vegetation cover after restoration despite previous deforestation cycles. Moreover, as a young mangrove forest, it will continue to go through successional stages naturally. The loss of genetic diversity could be a concern for long-term survival, highlighting the need for genetic management. Integrating remote sensing, phytosociology, and genetic diversity analyses provided a comprehensive and detailed view of the park’s restoration outcome. These results should be used as guidelines for future interventions outlined in this work and can help ensure the resilience and sustainability of any restored mangrove.
ISSN:0923-4861
1572-9834
DOI:10.1007/s11273-024-10012-5