Panorama Geral da Zona Costeira do Estado do Amapá

Rodrigues, Marcus Roberto Cascaes; Silva, Orleno Marques Da

doi:10.26848/rbgf.v14.3.p1654-1674

Cited by 3 publications

(1 citation statement)

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“…These dynamics often lead to the escalation of erosion and sedimentation [12,14]. The Amazon Coastal Zone has areas of high vulnerability associated with the sensitivity of the dominant estuarine and oceanic ecosystems (mangroves, riverbanks, floodplains, marshes, and vegetated islands) [13,15].…”

Section: Characterization Of the Study Sitementioning

confidence: 99%

Numerical Simulation of Oil Spills in the Lower Amazonas River

Demoner,

Teixeira,

Medeiros de Abreu

et al. 2023

Water

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In 2013, a slope slide took place at the Santana-AP channel that links to the Lower Amazon River’s North Channel, resulting in the sudden collapse of a substantial section of the Port of Santana and its infrastructure. This area houses liquid bulk terminals and pipelines with high pollution potential. The objective of the research is to evaluate the potential environmental impacts of an eventual oil spill in the very short term using a numerical hydrodynamic simulation model coupled with that of pollutant dispersion. The SisBaHiA® software, experimentally calibrated using acoustic methods (ADCP), was used to generate hypothetical scenarios in these areas with a substantial risk of landslides. Two hydrological scenarios stand out in the simulations: (a) November S-1 (dry) and (b) May S-2 (rainy). In S-1, the plume dispersion was higher during flood tides S-1a and S-1b, reaching 4 h urban slope areas, river mouths, tributaries (Matapi and Vila Nova), and environmental protection areas. At S-2, the plume spread was greater during the ebb tides S-2c and S-2d, affecting Macapá’s water supply system 12 h after the accident. The scenarios suggest the existence of high risks associated with the study hypotheses. The dispersion of the plume is directly proportional to the flow, indicating that local hydrodynamics is probably the most relevant dispersive factor. We conclude that the mitigation time for more severe effects is critical in the first 4 h because the coastal geographic feature tends to keep the plume in the Santana channel.

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Section: Characterization Of the Study Sitementioning

confidence: 99%