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Auteurs principaux: Oliveira, Vítor H, Fonte, B A, Sousa, A I, Crespo, D, Dias, J M, Vaz, N, Matos, D, Figueira, E, Pereira, M E, Lillebø, A I, Dolbeth, M, Coelho, J P
Format: Artículo científico
Langue:en
Publié: The Science of the total environment 2025
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Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/39754951/
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author Oliveira, Vítor H
Fonte, B A
Sousa, A I
Crespo, D
Dias, J M
Vaz, N
Matos, D
Figueira, E
Pereira, M E
Lillebø, A I
Dolbeth, M
Coelho, J P
author_facet Oliveira, Vítor H
Fonte, B A
Sousa, A I
Crespo, D
Dias, J M
Vaz, N
Matos, D
Figueira, E
Pereira, M E
Lillebø, A I
Dolbeth, M
Coelho, J P
Oliveira, Vítor H
Fonte, B A
Sousa, A I
Crespo, D
Dias, J M
Vaz, N
Matos, D
Figueira, E
Pereira, M E
Lillebø, A I
Dolbeth, M
Coelho, J P
collection PubMed - marine biology
contents Transplantation of seagrass (Zostera noltei) as a potential nature-based solution for the restoration of historically contaminated mudflats. Oliveira, Vítor H Fonte, B A Sousa, A I Crespo, D Dias, J M Vaz, N Matos, D Figueira, E Pereira, M E Lillebø, A I Dolbeth, M Coelho, J P Zosteraceae Environmental Restoration and Remediation Water Pollutants, Chemical Photosynthesis Mercury Ecosystem Biomass Geologic Sediments Within the UN Decade on Ecosystem Restoration (2021-2030) framework, a Nature-based Solution (NbS) using Zostera noltei transplants was tested to restore a historically contaminated intertidal area. In-situ transplantation relied on patches of seagrass and sediment from a Donor meadow and its evolution was monitored for two years. The evaluation of the transplant success encompassed the seagrass coverage area, seagrass biomass, tissue mercury (Hg) accumulation, and photosynthetic efficiency. The transplant was successful, with gradual increases in the coverage area in the target area indicating adaptation to local conditions already after the first year. Although some significant differences were observed in biomass and tissue Hg concentration over time, the similar translocation factors suggest the plant has effective defensive mechanisms to prevent accumulation and cellular damage. Additionally, the normal seasonal pattern of photosynthetic parameters indicates that contamination is not impeding its photosynthetic performance and growth, suggesting this NbS as a viable restoration strategy.
format Artículo científico
id pubmed_39754951
institution PubMed
language en
publishDate 2025
publisher The Science of the total environment
record_format pubmed
spellingShingle Transplantation of seagrass (Zostera noltei) as a potential nature-based solution for the restoration of historically contaminated mudflats.
Oliveira, Vítor H
Fonte, B A
Sousa, A I
Crespo, D
Dias, J M
Vaz, N
Matos, D
Figueira, E
Pereira, M E
Lillebø, A I
Dolbeth, M
Coelho, J P
Zosteraceae
Environmental Restoration and Remediation
Water Pollutants, Chemical
Photosynthesis
Mercury
Ecosystem
Biomass
Geologic Sediments
Transplantation of seagrass (Zostera noltei) as a potential nature-based solution for the restoration of historically contaminated mudflats. Oliveira, Vítor H Fonte, B A Sousa, A I Crespo, D Dias, J M Vaz, N Matos, D Figueira, E Pereira, M E Lillebø, A I Dolbeth, M Coelho, J P Zosteraceae Environmental Restoration and Remediation Water Pollutants, Chemical Photosynthesis Mercury Ecosystem Biomass Geologic Sediments Within the UN Decade on Ecosystem Restoration (2021-2030) framework, a Nature-based Solution (NbS) using Zostera noltei transplants was tested to restore a historically contaminated intertidal area. In-situ transplantation relied on patches of seagrass and sediment from a Donor meadow and its evolution was monitored for two years. The evaluation of the transplant success encompassed the seagrass coverage area, seagrass biomass, tissue mercury (Hg) accumulation, and photosynthetic efficiency. The transplant was successful, with gradual increases in the coverage area in the target area indicating adaptation to local conditions already after the first year. Although some significant differences were observed in biomass and tissue Hg concentration over time, the similar translocation factors suggest the plant has effective defensive mechanisms to prevent accumulation and cellular damage. Additionally, the normal seasonal pattern of photosynthetic parameters indicates that contamination is not impeding its photosynthetic performance and growth, suggesting this NbS as a viable restoration strategy.
title Transplantation of seagrass (Zostera noltei) as a potential nature-based solution for the restoration of historically contaminated mudflats.
topic Zosteraceae
Environmental Restoration and Remediation
Water Pollutants, Chemical
Photosynthesis
Mercury
Ecosystem
Biomass
Geologic Sediments
url https://pubmed.ncbi.nlm.nih.gov/39754951/