Your search keyword '"Fernanda V. Vieira"' showing total 10 results

1. Exploring the multispectral acoustic response of reef habitats

Author

Pedro S. Menandro, Fernanda V. Vieira, Alex C. Bastos, and Craig J. Brown

Subjects

multifrequency backscatter, seafloor mapping, reef, multibeam echosounder, Benthic habitat mapping, Geophysics. Cosmic physics, QC801-809, Meteorology. Climatology, QC851-999

Abstract

In recent decades, the value and utility of multibeam bathymetry and backscatter data has been increasingly recognized within the field of seascape ecology (the ocean-centric equivalent of landscape ecology) to map the bio- and geodiversity of the ocean floor. More recently, multispectral multibeam backscatter has emerged as a promising endeavor in seabed classification, and its acoustic response across multiple frequencies has been studied in a range of substrates. Coral reef systems are an under-represented seabed type within this research, as these shallow water ecosystems are more commonly mapped with optical remote sensing techniques. Further investigation is necessary to determine the extent to which backscatter data can contribute to the characterization of these habitats–especially for reef systems that are beyond the reach of optical remote sensing approaches. This study investigates the multifrequency acoustic response of coral reefs in two study areas on the Abrolhos Shelf, Brazil. Backscatter mosaics and angular response curves (ARC) are investigated to explore the potential applications of these data for enhanced reef seascape characterization. In both survey areas, the acoustic mapping revealed extensive reef features, and the assessment of acoustic response was influenced by reef surface roughness and biological attributes (algal cover). Results contribute significantly to the understanding of multi-frequency signatures in reef seascapes and highlight the potential of backscatter for mapping and monitoring the health of these ecosystems. Herein, the higher frequencies were found to be fundamental for detection of subtle variations in texture in the inter-reef region of both study areas; this underscores the value of employing these frequencies in a multispectral framework for discerning heterogeneities in coarse substrate types. Furthermore, the lower frequencies were indispensable for more precise delineation of reef characteristics in the Abrolhos Channel area, whereas the higher frequencies were the most effective in identifying reefs with epibiotic cover (those characterized by flatter ARC associated with lower backscatter values) in the Forgotten Reefs region.

Published

2024

2. The role of benthic habitat mapping for science and managers: A multi-design approach in the Southeast Brazilian Shelf after a major man-induced disaster

Author

Pedro S. Menandro, Ana Carolina Lavagnino, Fernanda V. Vieira, Geandré C. Boni, Tarcila Franco, and Alex C. Bastos

Subjects

benthic habitat mapping, seabed classification, Brazilian shelf, marine spatial planning, tailing dam failure, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Seabed mapping is currently the baseline information for ocean management and conservation, and is an indispensable item within research and Marine Spatial Planning. Here, we use a case study and published data along the southeast Brazilian continental shelf to illustrate the concepts and ideas of potential benthic habitat mapping and the importance of having maps on different scales and the potential for using a multi-design approach. The case analysis presented here uses a regional map and distinct criteria (seabed geodiversity and biodiversity, and potential influence of a tailings plume) to define three areas along the continental shelf to be mapped in a high-resolution, as part of a marine monitoring program. The background of the case study is a tailing dam failure disaster that led to the input of iron ore tailings in the ocean, leading to a major environmental disaster. Three areas were chosen, including: a Marine Protected Area (MPA Costa das Algas), a major fishing ground (the Doce River prodelta/depocenter), and an understudied reef area (Forgotten Reefs). Potential benthic habitat mapping was carried out using acoustic surveys (multibeam echosounder acquiring bathymetry and backscatter) and ground-truthing (sediment samples and seafloor image). Results detailed the potential habitats throughout the three areas, providing primary information for the study of benthic habitats and their distribution. The multi-design approach indicated that although a regional analysis can indicate potential vulnerability as a first assessment approach, high-resolution potential habitat mapping (herein, 20 m or finer) is beneficial to evaluate and produce a higher-confidence level for decision-makers. Having an overall view of what and where to collect new and finer data would be best to identify vulnerable areas that, in this case study, could be threatened by plume dispersion and tailings accumulation. Our results support the delineation of priority areas aiming for monitoring, protection and guiding for other studies, besides the consolidation of habitat importance and the integration of various datasets through a hierarchical classification scheme. Although Brazil has never produced a regional or national habitat map for the entire continental margin, there are already conditions to plan, execute and maintain a habitat mapping program, partnering with Universities, Government Institutions (e.g., the Brazilian Navy), and the private sector. In the context of the UN Decade of Ocean Science targets, it is urgent to plan and implement a national database capable of supporting a habitat classification effort on a broader national scale, with the flexibility to support a multi-design or a multi-scale approach.

Published

2022

3. Reef Mapping Using Different Seabed Automatic Classification Tools

Author

Pedro S. Menandro, Alex C. Bastos, Geandré Boni, Lucas C. Ferreira, Fernanda V. Vieira, Ana Carolina Lavagnino, Rodrigo L. Moura, and Markus Diesing

Subjects

reef mapping, seabed classification, supervised techniques, abrolhos shelf, Geology, QE1-996.5

Abstract

There is a great demand to develop new acoustic techniques to efficiently map the seabed and automate the interpretation of acoustic, sedimentological, and imaging data sets, eliminating subjectivity. Here, we evaluate the potential, limitations and complementariety of distinct supervised and automatic classification techniques in the mapping of reefs by comparing these results with a reference map. The study was carried out in the Abrolhos Continental Shelf (Eastern Brazilian Continental Margin) using a multibeam echosounder and side scan sonar (SSS) dataset. Two automatic supervised techniques were applied. A reference map was derived by detailed manual interpretation carried out by three experts. The two supervised classification techniques were: benthic terrain modeler (BTM), a morphometric classification with focus on spatial analyses of the bathymetric grid derivatives, and object-based image analysis (OBIA), a segmentation applied to the backscatter data from the SSS mosaic. Both automatic techniques obtained similar values of reef coverage area, but overestimated the reef area when compared with the reference map. The agreement between BTM and OBIA results and the reference map was 69% and 67%, respectively. Disagreement was mainly due to quantity of reef (both methods over-estimated reef), while the disagreement in spatial allocation was relatively low, it indicates that both methods are reasonable representation of the spatial patterns of reef. Efficient mapping of reef in the wider area of the Abrolhos Continental Shelf will be best achieved by a further development of automatic methods tested against reference maps obained from representative areas of the seabed. By combining the results of the two automatic methods, it was possible to create an ensemble map, which achieved better agreement with the reference dataset.

Published

2020

4. Structure of Rhodolith Beds and Surrounding Habitats at the Doce River Shelf (Brazil)

Author

Vitória L. Holz, Ricardo G. Bahia, Cláudia S. Karez, Fernanda V. Vieira, Fernando C. Moraes, Nicholas F. Vale, Daniela B. Sudatti, Leonardo T. Salgado, Rodrigo L. Moura, Gilberto M. Amado-Filho, and Alex C. Bastos

Subjects

carbonate reefs, rhodolith beds, coralline algae, mesophotic habitat, bryozoa, espírito santo continental shelf, Biology (General), QH301-705.5

Abstract

The world’s largest rhodolith beds have been reported from the Brazilian continental shelf. Highly biodiverse beds are located in Southeast Brazil, but ecological aspects of these beds remain unknown. Despite their ecological importance, rhodolith beds (RBs) have recently been subjected to a severe threat, when more than 35 million cubic meters of mining residues slid down a mountainside on 5 November 2015, after a collapse of a gigantic dam upstream (the Mariana disaster), causing a huge impact on the Doce River. Our aim is to assess rhodolith beds and adjacent coralline formations on the Doce River Shelf (DRS) after the dam collapse. This paper describes the distribution, abundance, vitality, size and shape, as well as unmapped bryozoan rich sediment formations in this area, serving as baseline knowledge for environmental monitoring. Four distinct biogenic sea bottom habitats (bryozoan bottoms, rhodolith beds, carbonate concretions, and reefs) were recognized at different depth ranges with distribution indicated to be mostly related to the local sedimentary regime. Mud sediments dominated the seafloor up to 35 m depth. On the mid shelf, bryozoan bottoms were recorded from 35 to 45 m depth. Crustose coralline algae (CCA) occurring as rhodoliths and carbonate concretions extend over 1953 km2 in the mid and outer shelf. Rhodolith beds predominate in these areas, totaling 1521 km2 of sea bottom and were more abundant at depths between 45 and 65 m, occupying an extensive area south of the Doce River mouth. Northward, rhodolith beds are less abundant or absent likely due to the long-term deposition of fine sediments in this region. Carbonate concretions and reefs covered by CCA occupy sparse areas on the outer shelf (65−105 m depth). Differences in rhodolith features recorded, including coverage, density and size, may be related to the Doce River sedimentation and related factors (e.g., hydrodynamics, depth, and light). However, since there are no previous detailed studies on RBs along the DRS, we could not assess the impact of sedimentation of dam wastes on RBs’ abundance and density. In any case, these are valuable results for the further monitoring of long-term effects. Considering that the growth of these rhodoliths is relatively slow, and that they are affected by the sedimentation from the Doce River, the implementation of a management and conservation plan for this area is necessary in order to preserve this ecosystem.

Published

2020

5. Seabed Morphology and Sedimentary Regimes defining Fishing Grounds along the Eastern Brazilian Shelf

Author

Silvia N. Bourguignon, Alex C. Bastos, Valéria S. Quaresma, Fernanda V. Vieira, Hudson Pinheiro, Gilberto Menezes Amado-Filho, Rodrigo Leão de Moura, and João Batista Teixeira

Subjects

benthic habitats, shelf morphology, eastern Brazilian shelf, Geology, QE1-996.5

Abstract

Shelf morphology and sedimentary regimes are influenced by processes operating at different temporal and spatial scales and are important records of sea level changes and sediment supply and/or carbonate production. The northern continental shelf of Espírito Santo (Brazil) contains evidence of different sedimentary regimes that distribute diverse and complex marine habitats. Herein, seabed morphology, acoustic images of the seafloor (side scan sonar and sub-bottom profiler), and sediment samples were used to investigate the influence of sedimentary regimes on physical marine habitat distribution. Seabed mapping is also integrated with available data on fisheries to understand the influence of shelf morphology and sedimentology in the usage of distinct fishing gears. The results indicate five morpho-sedimentary facies: terrigenous mud, terrigenous sand, rhodolith beds, carbonate gravel with rhodoliths, and hardground. Through an integrated analysis of the geomorphology and sedimentary distribution, two morpho-sedimentary domains were identified: a sediment-fed shelf adjacent to the Doce River associated with a major mud depocenter and a delta front morphology characterized by gentle slopes and low terrain ruggedness, and a sediment-starved shelf dominated by carbonate sedimentation showing an irregular morphology associated with higher slopes and terrain ruggedness. These contrasting morpho-sedimentary domains are a result of sedimentary responses to sea level fluctuation during Late Quaternary, specially, during the deglaciation processes after the Last Glacial Maximum. The morphological and sedimentary contrasts along the area define the physical habitat distribution. The sediment supply regime area is associated with a terrigenous fine/muddy sedimentation bed, which control the local morphology and favors coastal and delta front progradation. This physical habitat is a well-known shrimp-fishing ground where intense trawling takes place, as well as gillnet fisheries targeting weakfish and croakers. The accommodation regime or low sediment influx area is characterized by carbonate sedimentation associated with hardgrounds and rhodolith beds. In contrast, this physical habitat with scarce sediment supply, facilitates extensive benthic colonization by crustose coralline algae (CCA), which is primarily associated to line fisheries, longlines, and spearfishing. Rhodoliths show a high diversity of CCA and the occurrence of an endemic kelp species. Long-term processes such as relative sea level fluctuations and sediment supply are a legacy for the distribution of benthic habitats, and their resulting morphology can be a surrogate for predicting fishing activities or a first-base analysis for marine spatial planning. Available low-resolution bathymetric datasets can be a powerful tool, if applied with caution and in a regional scale approach. Here, terrain variables (terrain slope and ruggedness) derived from an extensive available (low-resolution and interpolated) bathymetric dataset distinguished two contrasting morphological domains characterized by rugged and smooth/flat seabeds.

Published

2018

6. The use of Benthic Terrain Modeler (BTM) in the characterization of continental shelf habitats

Author

Natacha Oliveira, Fernanda V. Vieira, Valéria da Silva Quaresma, and Alex Cardoso Bastos

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, biology, Continental shelf, Sediment, Rhodolith, Terrain, Environmental Science (miscellaneous), 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, Oceanography, biology.organism_classification, 01 natural sciences, Benthic zone, Seascapes, Earth and Planetary Sciences (miscellaneous), Sedimentary rock, Seabed, Geology, 0105 earth and related environmental sciences

Abstract

We applied a combined approach of benthic terrain modelling with sediment type distribution, using regional available data sets in order to map the distribution of seabed physical habitats along the Espirito Santo Continental Shelf, Brazil. The Benthic Terrain Modeler (BTM) was used to define benthic terrain classes, which were combined with ground truth data (sediment samples and seabed images) to produce physical habitats (seascapes). Eight BTM classes were defined: flat bottom, rough, depression, valley flank, valley bottom, shelf break, crests, and deep crests. The combination of the BTM classes with sediment distribution produced 17 types of physical habitats. Analysis showed that shelf morphology controls the pattern of habitat distribution, combined with two major sedimentary processes: riverine sediment input and carbonate sedimentation. Seven types of physical habitats area associated with the flat bottom morphometric class, and five types of physical habitats are associated with rough/irregular morphometric classes. These are the two main broad categories observed along the shelf, when combined with the presence of rhodoliths. Shelf-incised valleys, combined with rhodolith beds, are the most conspicuous seascape along the ESCS. These seascapes add slope and roughness to the shelf seabed, producing great morphological complexity and potentially supporting diverse benthic communities.

Published

2020

7. The impact of trace metals in marine sediments after a tailing dam failure: the Fundão dam case (Brazil)

Author

Fabian Sá, J.A. Baptista Neto, Fernanda V. Vieira, Valquiria Maria de Carvalho Aguiar, Valéria da Silva Quaresma, Alex Cardoso Bastos, and Kyssyanne Samihra Santos Oliveira

Subjects

Hydrology, Global and Planetary Change, geography, geography.geographical_feature_category, Continental shelf, Soil Science, Geology, Contamination, engineering.material, Pollution, Tailings, Deposition (geology), Seafloor spreading, Dam failure, Iron ore, River mouth, engineering, Environmental Chemistry, Environmental science, Earth-Surface Processes, Water Science and Technology

Abstract

The present study deals with one of the worst environmental disasters in Brazil so far, the failure of the Fundao tailing dam in the city of Mariana (MG) in 2015. The disaster released over 39.2 million cubic meters of iron ore mining tailings into the Doce River, reaching the southeast coast of Brazil. Data from trace metals and iron in seafloor sediments from Espirito Santo Continental Shelf (ESCS) were evaluated before the disaster and 1 year and 6 months after it. Results revealed contamination of shelf sediments with Zn, Pb, Ni, Cr, Cu and Fe before the disaster, and a noticeable increase in concentrations after the dam failure. Post-disaster, values of geoaccumulation index (NIgeo) for Zn and Fe as high as 8 and 25 were reached, respectively, classifying the samples as extremely polluted. The modified degree of contamination (mCd) values surpassed 32 at many stations which are classified as ultrahigh contaminated. The study also documents the increase of fine material deposition in the study area. Grain size trend analysis (GSTA) corroborated the increase of metal concentrations and mCd values toward the north of Doce River mouth and also at MPA—Costa das Algas.

Published

2021

8. Wave-driven sediment mobility on the Eastern Brazilian shelf under different weather systems

Author

Izabel Christina Martins Nogueira, Alex Cardoso Bastos, Kyssyanne Samihra Santos Oliveira, Valéria da Silva Quaresma, and Fernanda V. Vieira

Subjects

geography, geography.geographical_feature_category, Continental shelf, Sediment, Environmental Science (miscellaneous), Geotechnical Engineering and Engineering Geology, Oceanography, Spatial heterogeneity, Anticyclone, Earth and Planetary Sciences (miscellaneous), River mouth, Marine protected area, Significant wave height, Bay, Geology

Abstract

On micro-tidal continental shelves, waves have been considered the main mechanism responsible for bottom sediment resuspension. In order to study the wave-driven sediment mobility under different weather systems on the Espirito Santo Continental Shelf, located on the Eastern Brazilian shelf, the wave-driven bottom shear stresses were compared to the critical bottom shear stress. While the first was calculated from results obtained by the SWAN wave model, the latter considered the heterogeneity of the sediment grain size. The results showed that waves driven by the local action of Transient Systems and waves driven by remote influence of these systems associated with the local influence of South Atlantic Subtropical Anticyclone are responsible for the highest percentages of sediment mobility on the shelf. These waves are characterized by mean wave direction from the south and southeast, with increased significant wave height and peak periods. Moreover, these waves were associated with higher bottom shear stresses than waves from north, northeast, and east (CM1 and CM4), with the highest differences occurring on the middle and outer shelf, mainly to the south of the Doce River mouth. The spatial distribution of the grain size also strongly influenced sediment mobility patterns, delimiting a less energetic region between the Espirito Santo Bay mouth and the Costa das Algas Marine Protected Area southern limit, and a more energetic region between Costa das Algas Marine Protected Area southern limit and the northern limit of the study area. The findings herein, besides providing information relevant to marine environment management, highlight the importance of including the grain size spatial heterogeneity in studies of sediment resuspension on continental shelves.

Published

2021

9. Along-shelf changes in mixed carbonate-siliciclastic sedimentation patterns

Author

Gilberto M. Amado Filho, M. D. Leite, Carol F. Dalvi, Kyssyanne Samihra Santos Oliveira, Valéria da Silva Quaresma, Ricardo G. Bahia, Alex Cardoso Bastos, Fernanda V. Vieira, Rodrigo L. Moura, Adeíldo Costa, and Vitoria L. Holz

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Continental shelf, Terrigenous sediment, 010604 marine biology & hydrobiology, Geochemistry, Sediment, Geology, Aquatic Science, Oceanography, 01 natural sciences, chemistry.chemical_compound, Continental margin, chemistry, Carbonate, Siliciclastic, Sedimentary rock, Seabed, 0105 earth and related environmental sciences

Abstract

Modern mixed carbonate and siliciclastic shelves have been described on continental margins around the world. In general, the mixed shelf sedimentation model shows a cross-shelf gradient from terrigenous to carbonate sediments or a shift from the continental shelf to the basin. Here we use acoustic seabed mapping, surface sediment sampling and high-resolution seabed videos to report the coeval occurrence of biogenic reefs, rhodolith beds and river deltas along the southeast-east Brazilian shelf. This investigation discusses the importance of combined environmental controls, such as shelf width, sediment input sources, mesoscale circulation and sea-level changes, in controlling mixed-sediment distribution patterns. In the study area, shelf width varies from 40 to 200 km, the Rio Doce is the major sediment input source, the Brazil Current plays a significant role along the shelf edge, and upwelling processes are reported within this area. Results show that a transition from terrigenous to carbonate sediments can occur laterally or along-shelf, i.e., terrigenous and carbonate sediments coexist along the same water depth range. In narrow mixed continental shelves, a strong lateral/latitudinal change in the sedimentary domains can be observed due to lateral variation in environmental controls, such as sediment input and carbonate production. Wider continental shelves tend to display a greater mixing transition zone across the depth gradient. The coexistence of reef beds with terrigenous-derived sedimentation is the product of different temporal scales of geological and oceanographic processes. The origin and formation of the main facies are related to the last deglaciation period, but modern sediment input and oceanographic processes (seasonal upwelling) are important drivers to terrigenous and carbonate sedimentation patterns. These findings bring attention to the interpretation of the marine geological record, where a carbonate-siliciclastic facies boundary can represent lateral changes instead of depth gradients.

Published

2019

10. Seabed Morphology and Sedimentary Regimes defining Fishing Grounds along the Eastern Brazilian Shelf

Author

João Batista Teixeira, Hudson T. Pinheiro, Alex Cardoso Bastos, Gilberto M. Amado-Filho, Valéria da Silva Quaresma, Fernanda V. Vieira, Silvia Nossa Bourguignon, and Rodrigo L. Moura

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, biology, Continental shelf, Terrigenous sediment, shelf morphology, lcsh:QE1-996.5, Sediment, Rhodolith, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, lcsh:Geology, benthic habitats, eastern Brazilian shelf, Oceanography, General Earth and Planetary Sciences, Sedimentary rock, Progradation, Sedimentology, Geology, Seabed, 0105 earth and related environmental sciences

Abstract

Shelf morphology and sedimentary regimes are influenced by processes operating at different temporal and spatial scales and are important records of sea level changes and sediment supply and/or carbonate production. The northern continental shelf of Espírito Santo (Brazil) contains evidence of different sedimentary regimes that distribute diverse and complex marine habitats. Herein, seabed morphology, acoustic images of the seafloor (side scan sonar and sub-bottom profiler), and sediment samples were used to investigate the influence of sedimentary regimes on physical marine habitat distribution. Seabed mapping is also integrated with available data on fisheries to understand the influence of shelf morphology and sedimentology in the usage of distinct fishing gears. The results indicate five morpho-sedimentary facies: terrigenous mud, terrigenous sand, rhodolith beds, carbonate gravel with rhodoliths, and hardground. Through an integrated analysis of the geomorphology and sedimentary distribution, two morpho-sedimentary domains were identified: a sediment-fed shelf adjacent to the Doce River associated with a major mud depocenter and a delta front morphology characterized by gentle slopes and low terrain ruggedness, and a sediment-starved shelf dominated by carbonate sedimentation showing an irregular morphology associated with higher slopes and terrain ruggedness. These contrasting morpho-sedimentary domains are a result of sedimentary responses to sea level fluctuation during Late Quaternary, specially, during the deglaciation processes after the Last Glacial Maximum. The morphological and sedimentary contrasts along the area define the physical habitat distribution. The sediment supply regime area is associated with a terrigenous fine/muddy sedimentation bed, which control the local morphology and favors coastal and delta front progradation. This physical habitat is a well-known shrimp-fishing ground where intense trawling takes place, as well as gillnet fisheries targeting weakfish and croakers. The accommodation regime or low sediment influx area is characterized by carbonate sedimentation associated with hardgrounds and rhodolith beds. In contrast, this physical habitat with scarce sediment supply, facilitates extensive benthic colonization by crustose coralline algae (CCA), which is primarily associated to line fisheries, longlines, and spearfishing. Rhodoliths show a high diversity of CCA and the occurrence of an endemic kelp species. Long-term processes such as relative sea level fluctuations and sediment supply are a legacy for the distribution of benthic habitats, and their resulting morphology can be a surrogate for predicting fishing activities or a first-base analysis for marine spatial planning. Available low-resolution bathymetric datasets can be a powerful tool, if applied with caution and in a regional scale approach. Here, terrain variables (terrain slope and ruggedness) derived from an extensive available (low-resolution and interpolated) bathymetric dataset distinguished two contrasting morphological domains characterized by rugged and smooth/flat seabeds.

Published

2018