Mangrove microbial community recovery and their role in early stages of forest recolonization within shrimp ponds

Shrimp farming is blooming worldwide, posing a severe threat to mangroves and its multiple goods and ecosystem services. Several studies reported the impacts of aquaculture on mangrove biotic communities, including microbiomes. However, little is known about how mangrove soil microbiomes would chang...

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Published in:The Science of the total environment 2023-01, Vol.855, p.158863-158863, Article 158863
Main Authors: Loiola, Miguel, Silva, Amaro Emiliano Trindade, Krull, Marcos, Barbosa, Felipe Alexandre, Galvão, Eduardo Henrique, Patire, Vinicius F., Cruz, Igor Cristino Silva, Barros, Francisco, Hatje, Vanessa, Meirelles, Pedro Milet
Format: Article
Language:English
Subjects:
ARGs
Blue carbon ecosystems
CAZymes
Land-use change
Mangrove recovery
Shrimp farming
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Summary:Shrimp farming is blooming worldwide, posing a severe threat to mangroves and its multiple goods and ecosystem services. Several studies reported the impacts of aquaculture on mangrove biotic communities, including microbiomes. However, little is known about how mangrove soil microbiomes would change in response to mangrove forest recolonization. Using genome-resolved metagenomics, we compared the soil microbiome of mangrove forests (both with and without the direct influence of shrimp farming effluents) with active shrimp farms and mangroves under a recolonization process. We found that the structure and composition of active shrimp farms microbial communities differ from the control mangrove forests, mangroves under the impact of the shrimp farming effluents, and mangroves under recolonization. Shrimp farming ponds microbiomes have lower microbial diversity and are dominated by halophilic microorganisms, presenting high abundance of multiple antibiotic resistance genes. On the other hand, control mangrove forests, impacted mangroves (exposed to the shrimp farming effluents), and recolonization ponds were more diverse, with a higher abundance of genes related to carbon mobilization. Our data also indicated that the microbiome is recovering in the mangrove recolonization ponds, performing vital metabolic functions and functionally resembling microbiomes found in those soils of neighboring control mangrove forests. Despite highlighting the damage caused by the habitat changes in mangrove soil microbiome community and functioning, our study sheds light on these systems incredible recovery capacity. Our study shows the importance of natural mangrove forest recovery, enhancing ecosystem services by the soil microbial communities even in a very early development stage of mangrove forest, thus encouraging mangrove conservation and restoration efforts worldwide. [Display omitted] •Microbial diversity and ecosystem services losses in mangrove soil are related with shrimp farming activity.•Mangrove soil microbiomes are structurally and functionally different from those in aquaculture ponds.•Microbiomes in early-recolonization stages are similar to mangrove forests.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2022.158863