A Multivariate Analysis Framework to Detect Key Environmental Factors Affecting Spatiotemporal Variability of Chlorophyll-a in a Tropical Productive Estuarine-Lagoon System

Lins, Regina Camara; Martinez, Jean‐Michel; Marques, David da Motta; Cirilo, José Almir; Medeiros, Paulo Ricardo Petter; Fragoso, Carlos Ruberto

doi:10.3390/rs10060853

Cited by 13 publications

(8 citation statements)

References 40 publications

(26 reference statements)

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“…In the matter of degradation of chlorophyll-a, it may present absorbance similar to that observed in viable chlorophyll, which can generate reading errors. This high variance, however, is commonly observed in other chlorophyll-a studies using other methods in marine (Yaconi, 2006) and estuarine environments (Lins et al, 2018). A large number of studies in marine and estuarine contexts has shown that microphytobenthos are sensitive to environmental changes, because they obey daily rhythms of vertical migration, moving to the surface at low tide and descending at high tide (J. D. Palmer & Round, 1965;Round, 1979).…”

Section: Discussionmentioning

confidence: 95%

Evidence of protective effects on aquifer recharge from polluted tropical rivers: An analysis of hyporheic meiofauna and sediments

Freitas

Cabral

Paiva

et al. 2021

River Research & Apps

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Knowledge about the hyporheic zone is important to understand the pollutant attenuation processes that occur during the aquifer recharge, whether by natural or artificial means, for example, Bank Filtration. In this paper, the structure of the hyporheic meiofauna and the influence of pollution, microphytobenthos and sedimentological parameters (grain size, organic matter and CaCO 3 content) were studied at a periurban area of Beberibe River (Northeastern Brazil), the location of a riverbank filtration (RBF) pilot project. PERMANOVA analysis indicated interactions between meiofauna community and the sampling sites, rainfall seasons, and depth. The release of untreated wastewater was the most influential factor for physical and biochemical features of the hyporheic zone, since the sampling sites with higher levels of elements related to eutrophication supported the highest levels of meiofauna abundance, fine sediments, organic matter, and CaCO 3 content. It was verified that organic matter from domestic wastewater in tropical streams can promote protective effects that favor the retention and biodegradation of pollutants in the hyporheic zone. The results reveal that, even in eutrophic rivers, there are factors that contribute to the processes of pollutant attenuation in tropical hyporheic environments. The results demonstrate the potential for using RBF in communities without adequate sanitation, especially in developing countries.

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Section: Discussionmentioning

confidence: 95%

Evidence of protective effects on aquifer recharge from polluted tropical rivers: An analysis of hyporheic meiofauna and sediments

Freitas

Cabral

Paiva

et al. 2021

River Research & Apps

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“…The positive correlation between areas that have higher WA and more critical trophic states can also be established from the study by Lins et al (2018). In this, the authors employed remote sensing techniques, together with measured reflectance and chlorophyll a data, to estimate the spatial-temporal variability of chlorophyll a, as well as the trophic state of MMELS, in the period of 2002 to 2016.…”

Section: The Wa and The Trophic State Indexmentioning

confidence: 94%

Seasonal variations in residence time and water age in the Mundaú-Manguaba Estuarine Lagoon System, AL (Brazil)

2023

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The Characteristic Hydraulic Times (CHT), called Residence Time (RT) and Water Age (WA), were analyzed in the Mundaú-Manguaba Estuarine Lagoon System (MMELS – AL, Brazil), using the SisBaHiA® – Environmental Hydrodynamics Base System, for two scenarios: wet season, from May to July 2018; and dry season, from October to December 2018. The hydrodynamic modelings appropriately represented water level variations measured in the lagoons. The analysis of residual currents revealed how hydrodynamic circulation was affected by seasonal variations, and provided essential information to understand the results of the RT and WA simulations. This study deepened the knowledge regarding the RT of the water masses inside the lagoons, and reinforced how river discharges significantly influence their export, which resulted, considering the spatial scope, in much smaller RT in the wet season compared to the dry season. The WA analysis added new and significant knowledge about water renewal, from a different perspective, and as yet little-explored in the study region. Among the results obtained, the most relevant refer to the dry season, in which it was found that the “oldest” waters in the Mundaú L. occurred near the southeast region, while in the Manguaba L., in the vicinity of the central region. Both regions were confirmed as the places that present the most critical trophic state index in each lagoon, showing that WA is a CHT that indicates the regions most conducive to more critical trophic states. Keywords: Mundaú-Manguaba lagoons, residence time, water age.

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“…The results of coupling hydrological models and aquatic ecosystems, such as hydrodynamic models (Munar et al, 2018(Munar et al, , 2019 have highlighted their potential as management tools to understand and predict actions that cause future impacts on aquatic ecosystems. Remote sensing techniques applied to limnology studies have also been expanded to simulate watershed features and likely LULC changes over the years (Curtarelli et al, 2015;Lins et al, 2018;Ma et al, 2016).…”

Section: Novel Open Science Framework Based On Coupled Modelsmentioning

confidence: 99%

Modeling the Responses of Dissolved Oxygen and Nitrate Concentrations due to Land Use and Land Cover Change Scenarios in a Large Subtropical Reservoir

Barbosa¹,

Calijuri²,

Anjinho³

et al. 2021

Preprint

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Itupararanga reservoir is a large reservoir built in the Southeast of Brazil to support multiple uses, mainly hydropower generation and drinking water supply for almost 1 million people. We applied a process-based biogeochemical model and a distributed basin load model to assess the responses of dissolved oxygen and nitrate concentrations in the Itupararanga reservoir based on three land use and land cover (LULC) scenarios. The proposed LULC management actions resulted in a set of diverse ecosystem responses of the Itupararanga reservoir and the biogeochemical model highlighted the impact of allochthonous nutrient loads on reservoir water quality conditions, as well as the overall low biogeochemical turnover in the Itupararanga reservoir. The proposed modeling framework is a coupling of open science tools, which can be used to estimate future changes in the water quality of standing freshwater bodies due to likely changes in the land use and land cover in watersheds.

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A Multivariate Analysis Framework to Detect Key Environmental Factors Affecting Spatiotemporal Variability of Chlorophyll-a in a Tropical Productive Estuarine-Lagoon System

Cited by 13 publications

References 40 publications

Evidence of protective effects on aquifer recharge from polluted tropical rivers: An analysis of hyporheic meiofauna and sediments

Evidence of protective effects on aquifer recharge from polluted tropical rivers: An analysis of hyporheic meiofauna and sediments

Seasonal variations in residence time and water age in the Mundaú-Manguaba Estuarine Lagoon System, AL (Brazil)

Modeling the Responses of Dissolved Oxygen and Nitrate Concentrations due to Land Use and Land Cover Change Scenarios in a Large Subtropical Reservoir

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