Your search keyword '"Joana L. Pereira"' showing total 20 results

1. Bio‐Based Solar Energy Harvesting for Onsite Mobile Optical Temperature Sensing in Smart Cities

Author

Sandra F. H. Correia, Ana R. N. Bastos, Margarida Martins, Inês P. E. Macário, Telma Veloso, Joana L. Pereira, João A. P. Coutinho, Sónia P. M. Ventura, Paulo S. André, and Rute A. S. Ferreira

Subjects

Science

Published

2023

2. Cyanobacteria as Candidates to Support Mars Colonization: Growth and Biofertilization Potential Using Mars Regolith as a Resource

Author

Inês P. E. Macário, Telma Veloso, Silja Frankenbach, João Serôdio, Helena Passos, Clara Sousa, Fernando J. M. Gonçalves, Sónia P. M. Ventura, and Joana L. Pereira

Subjects

cyanobacteria, microalgae, MGS-1 regolith simulant, Lemna minor, biofertilization, Microbiology, QR1-502

Abstract

Cyanobacteria are indicated as organisms that can possibly support Mars colonization, contributing to the production of oxygen and other commodities therein. In this general context, the aim of this work was to evaluate the ability of three species of cyanobacteria (Anabaena cylindrica, Nostoc muscorum, and Arthrospira platensis) and a green microalga (Chlorella vulgaris) to grow using only the resources existing in Mars, i.e., water and Martian regolith stimulant (MGS-1), under an Earth-like atmosphere. A Martian regolith extract was produced and used as a culture medium to grow these species. Their growth was assessed during a period of 25 days, using optical density and fluorometric parameters. After this period, the possible contribution of end-of-life cyanobacteria/microalga as biofertilizing agents was also assessed, using the macrophyte Lemna minor as a vegetable model. Among the three species, N. muscorum showed the best growth performance when compared to the other species, while A. platensis and C. vulgaris were not able to thrive on Mars regolith extract. Therefore, N. muscorum should be the target of future studies not only due to their role in oxygen production but also due to their possible use as a food source, as many members of the Nostoc genus. Cyanobacteria and microalgae (A. platensis and C. vulgaris) showed good abilities as biofertilizing agents, i.e., they stimulated biomass (i.e., dry weight) production at levels comparable to the plants that grew on standard synthetic medium. The highest yield was reached with A. platensis, while the lowest was achieved using the media with N. muscorum. FTIR-ATR (Fourier transform infrared with attenuated total reflectance) spectroscopy showed that the differences between the plants grown on media with or without Martian regolith seem to be related mainly to polysaccharides.

Published

2022

3. Bio‐Based Solar Energy Harvesting for Onsite Mobile Optical Temperature Sensing in Smart Cities

Author

Sandra F.H. Correia, Ana R.N. Bastos, Margarida Martins, Inês P.E. Macário, Telma Veloso, Joana L. Pereira, João A.P. Coutinho, Sónia P.M. Ventura, Paulo S. André, and Rute A.S. Ferreira

Subjects

Internet of Things, luminescent solar concentrator, nature‐based, self‐power, solar, temperature sensor, Science

Abstract

Abstract The Internet of Things (IoT) fosters the development of smart city systems for sustainable living and increases comfort for people. One of the current challenges for sustainable buildings is the optimization of energy management. Temperature monitoring in buildings is of prime importance, as heating account for a great part of the total energy consumption. Here, a solar optical temperature sensor is presented with a thermal sensitivity of up to 1.23% °C−1 based on sustainable aqueous solutions of enhanced green fluorescent protein and C‐phycocyanin from biological feedstocks. These photonic sensors are presented under the configuration of luminescent solar concentrators widely proposed as a solution to integrate energy‐generating devices in buildings, as windows or façades. The developed mobile sensor is inserted in IoT context through the development of a self‐powered system able to measure, record, and send data to a user‐friendly website.

Published

2022

4. Ozonation of Selected Pharmaceutical and Personal Care Products in Secondary Effluent—Degradation Kinetics and Environmental Assessment

Author

Fátima Jesus, Eva Domingues, Carla Bernardo, Joana L. Pereira, Rui C. Martins, and João Gomes

Subjects

ozone, advanced oxidation process, ecotoxicity assessment, aquatic systems, wastewater treatment plants, Chemical technology, TP1-1185

Abstract

The efficiency of ozonation depends on the water matrix and the reaction time. Herein, these factors were addressed by assessing the removal of five pharmaceutical and personal care products (PPCPs) by ozonation. The main aims were: (i) to assess the effects of the water matrix on the degradation kinetics of PPCPs, individually and in mixture, following ozonation; and (ii) to assess the ecotoxicological impact of the ozone reaction time on the treatment of a spiked municipal wastewater (MW) added the five PPCPs over several species. The degradation of the PPCPs was faster in ultrapure water, with all PPCPs being removed in 20 min, whereas in the MW, a 30 min ozonation period was required to achieve a removal close to 100%. Increasing the number of PPCPs in the water matrix did not affect the time required for their removal in the MW. Regarding the ecotoxicity assessment, Raphidocelis subcapitata and Daphnia magna were the least sensitive species, whereas Lemna minor was the most sensitive. The temporal variation of the observed effects corroborates the degradation of the added PPCPs and the formation of toxic degradation by-products. The removal of the parent compounds did not guarantee decreased hazardous potential to biological species.

Published

2022

5. Social Media Use by Citizen Science Projects: Characterization and Recommendations

Author

Sofia S. Oliveira, Bárbara Barros, Joana L. Pereira, Paulo T. Santos, and Ruth Pereira

Subjects

citizen scientists, nature conservation, training of volunteers, charismatic species, content analysis, Environmental sciences, GE1-350

Abstract

Citizen science projects often use social media, which is not surprising since they constitute a great opportunity to recruit, retain, and train volunteers. This study intended to quantitatively characterize the current use of social media by biodiversity- and environment-related projects and to reason on the best management practices. For this purpose, a database of projects was compiled and analyzed. The results revealed that 42% of the projects were present at least in one social platform, with Facebook being the most popular. Facebook posts were mainly intended to raise awareness and disseminating knowledge, but recruitment- and retainment-dedicated posts were also regularly shared.

Published

2021

6. Uncovering the Use of Fucoxanthin and Phycobiliproteins into Solid Matrices to Increase Their Emission Quantum Yield and Photostability

Author

Lília M. S. Dias, Gabriela Kovaleski, Lianshe Fu, Tânia R. Dias, Inês P. E. Macário, Sandra F. H. Correia, Joana L. Pereira, João A. P. Coutinho, Sónia P. M. Ventura, and Rute A. S. Ferreira

Subjects

luminescence, luminescent solar concentrators, luminescent downshifting layers natural pigments, polymer, xanthophyll, phycobiliprotein, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

In the search for a better and brighter future, the use of natural luminescent renewable materials as substitutes for synthetic ones in the energy field is of prime importance. The incorporation of natural pigments (e.g., xanthophylls and phycobiliproteins) is a fundamental step in a broad spectrum of applications that are presently marred by their limited stability. The incorporation of bio-based luminescent molecules into solid matrices allows the fabrication of thin films, which may dramatically increase the range of applications, including sustainable photovoltaic systems, such as luminescent solar concentrators or downshifting layers. In this work, we incorporated R-phycoerythrin (R-PE), C-phycocyanin (C-PC), and fucoxanthin (FX) into poly(vinyl alcohol) (PVA) and studied their optical properties. It was found that the emission and excitation spectra of the phycobiliproteins and FX were not modified by incorporation into the PVA matrix. Moreover, in the case of FX, the emission quantum yield (η) values also remained unaltered after incorporation, showing the suitability of the PVA as a host matrix. A preliminary photostability study was performed by exposing the solid samples to continuous AM1.5G solar radiation, which evidenced the potential of these materials for future photovoltaics.

Published

2022

7. Synthesis of Purine-Based Ionic Liquids and Their Applications

Author

Ana R. F. Carreira, Telma Veloso, Nicolas Schaeffer, Joana L. Pereira, Sónia P. M. Ventura, Cécile Rizzi, Juliette Sirieix Plénet, Helena Passos, and João A. P. Coutinho

Subjects

synthesis, ecotoxicity, solubility, liquid–liquid equilibrium, thermoresponsive systems, Organic chemistry, QD241-441

Abstract

Bio-based ionic liquids (ILs) are being increasingly sought after, as they are more sustainable and eco-friendly. Purines are the most widely distributed, naturally occurring N-heterocycles, but their low water-solubility limits their application. In this work, four purines (theobromine, theophylline, xanthine, and uric acid) were combined with the cation tetrabutylammonium to synthesize bio-based ILs. The physico–chemical properties of the purine-based ILs were characterized, including their melting and decomposition temperatures and water-solubility. The ecotoxicity against the microalgae Raphidocelis subcapitata was also determined. The ILs show good thermal stability (>457 K) and an aqueous solubility enhancement ranging from 53- to 870-fold, in comparison to their respective purine percursors, unlocking new prospects for their application where aqueous solutions are demanded. The ecotoxicity of these ILs seems to be dominated by the cation, and it is similar to chloride-based IL, emphasizing that the use of natural anions does not necessarily translate to more benign ILs. The application of the novel ILs in the formation of aqueous biphasic systems (ABS), and as solubility enhancers, was also evaluated. The ILs were able to form ABS with sodium sulfate and tripotassium citrate salts. The development of thermoresponsive ABS, using sodium sulfate as a salting-out agent, was accomplished, with the ILs having different thermosensitivities. In addition, the purine-based ILs acted as solubility enhancers of ferulic acid in aqueous solution.

Published

2021

8. Opportunities and Barriers for Valorizing Waste Incineration Bottom Ash: Iberian Countries as a Case Study

Author

Beatriz S. Bandarra, Joana L. Pereira, Rui C. Martins, Alex Maldonado-Alameda, Josep M. Chimenos, and Margarida J. Quina

Subjects

incineration bottom ashes, IBA, Iberian countries, management, valorization, reuse, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Incineration bottom ashes (IBA) are the main waste from municipal solid waste (MSW) incineration. In the Iberian countries (Portugal and Spain), MSW incineration with energy recovery (WtE) plays an important role in MSW management. IBA is highly produced and managed differently both between and within countries. This paper aims to provide a comprehensive overview of the management model of IBA using the Iberian Peninsula as a case study, addressing its properties, current management, incentives and difficulties in valorizing, and prospects. For this purpose, incineration plants of both countries were approached, and a broad literature review was conducted to gather information. About 10% and 41% of IBA have been landfilled in Portugal and Spain, respectively. Metals (mostly ferrous) from Portuguese (6% of IBA) and Spanish (9% of IBA) WtE plants are recycled. In Portugal, the remaining IBA (84%) has been temporarily stored (11%), applied to landfills as a substitute for soil in intermediate and final covers, construction of paths, accesses, and platforms (41%), or used in civil engineering work and road construction (48%). In Spain, the remaining IBA (50%) has been reused mainly as a secondary raw material in the construction and civil engineering fields (77%), while the rest has been temporarily stored (11%), applied in the conditioning of landfills (4%), alsoa secondary aggregate replacing natural materials. Both countries regulate IBA reuse outside landfills but consider different requirements and criteria. Nevertheless, there are both drivers and barriers to valorization. In the future, different IBA applications will likely continue to be developed, with the concern of protecting the environment. Growing confidence in IBA reuse following the publication of proper studies is expected. Globally, uniform legal frameworks among EU members with the same standards would likely lead to better IBA valorization.

Published

2021

9. Recovery of bacterioruberin and proteins using aqueous solutions of surface-active compounds

Author

Bárbara M. C. Vaz, Mariam Kholany, Diana C. G. A. Pinto, Inês P. E. Macário, Telma Veloso, Tânia Caetano, Joana L. Pereira, João A. P. Coutinho, and Sónia P. M. Ventura

Subjects

General Chemical Engineering, General Chemistry

Abstract

Haloarchaea microorganisms are little explored marine resources that can be a promising source of valuable compounds with unique characteristics, due to their adaptation to extreme environments. In this work, the extraction of bacterioruberin and proteins from Haloferax mediterranei ATCC 33500 was investigated using aqueous solutions of ionic liquids and surfactants, which were further compared with ethanol. Despite the good performance of ethanol in the extraction of bacterioruberin, the use of aqueous solutions of surface-active compounds allowed the simultaneous release of bacterioruberin and proteins in a multi-product process, with the non-ionic surfactants being identified as the most promising. The optimum operational conditions allowed a maximum extraction yield of 0.37 ± 0.01 mgbacterioruberin gwet biomass−1 and 352 ± 9 mgprotein gwet biomass−1 with an aqueous solution of Tween® 20 (at 182.4 mM) as the extraction solvent. In addition, high purities of bacterioruberin were obtained, after performing a simple induced precipitation using ethanol as an antisolvent to recover the proteins present in the initial extract. Finally, a step for polishing the bacterioruberin was performed, to enable solvent recycling, further closing the process to maximize its circularity published

Published

2022

10. The role of biomass elemental composition and ion-exchange in metal sorption by algae

Author

Ana R.F. Carreira, Telma Veloso, Inês P.E. Macário, Joana L. Pereira, Sónia P.M. Ventura, Helena Passos, and João A.P. Coutinho

Subjects

Environmental Engineering, Macroalgae, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Microalgae, Screening, Environmental Chemistry, General Medicine, General Chemistry, Cyanobacteria, Pollution, Sorption mechanism, Metal recovery

Abstract

The use of macroalgae, microalgae and cyanobacteria for metal sorption has been widely reported. Still, there are no studies allowing a direct comparison of the performance of these biomasses, especially while evaluating metal competition. The simultaneous sorption of Co2+, Cu2+, Ni2+ and Zn2+ present in a multi-elemental solution by six macroalgae, two microalgae and three cyanobacteria was evaluated. Brown macroalgae were shown to be the most promising biosorbent, with Undaria pinnatifida having a total metal sorption capacity of 0.6 mmol g-1. Overall, macroalgae performed better than microalgae, followed by cyanobacteria. Carboxyl groups were identified as being the main functional groups involved in metal sorption, and all biomass samples were found to be selective to Cu2+. This was linked not only to its higher complexation constant value with relevant functional groups when compared to the remaining metals, but also the Irving-Williams series. The release of K+ and Ca2+ to the aqueous solution during the metal sorption was followed. The obtained results suggest they are readily exchanged with metals in the solution, indicating the occurrence of an ion-exchange mechanism in metal sorption by most biomass. Red macroalgae are an exception to the reported trends, suggesting that their metal sorption mechanism may differ from the other biomass types. published

Published

2023

11. Are cyanobacteria a nearly immortal source of high market value compounds?

Author

Ines PE Macário, Telma Veloso, Andreia PM Fernandes, Margarida Martins, Silja Frankenbach, João Serôdio, Fernando JM Gonçalves, Sónia PM Ventura, and Joana L Pereira

Subjects

Inorganic Chemistry, Fuel Technology, Ccyanobacteria, Renewable Energy, Sustainability and the Environment, General Chemical Engineering, Chlorophyll a, Organic Chemistry, C-phycocyanin, Growth curves, Pollution, Waste Management and Disposal, Biotechnology, Pigment production

Abstract

BACKGROUND: When the human population increases, so does the need to explore a wider range of feedstocks and biomasses, such as cyanobacteria. However, a deeper understanding of the growth patterns and pigment production is required to support the selection of the most beneficial species and conditions for industrial production. The growth and pigment production (i.e., chlorophyll a and C-phycocyanin) of three cyanobacterium species were evaluated following a three-fold aim. The first goal was to compare among a species commonly selected for exploitation (Arthrospira platensis) and two alternative species (Anabaena cylindrica and Nostoc muscorum). The second goal was analyzing pigment production in the long-term. The last goal involved comparing different methods (spectrophotometry and fluorimetry) to understand whether there is an appropriate proxy of biomass increase and pigment production that can be used for monitoring purposes. RESULTS: All species showed high longevity and proved capable of growing for more than 100 days without any additional supplementation. However, the maximum quantum yield of PS II (Fv /Fm) revealed that their photosynthetic efficiency varied over time with a clear decrease after 2 months. Pigment analysis showed a heterogeneous pattern during the growth periods of all three species that could only be captured by the parameter Fv /Fm, but the pattern was only present for A. cylindrica and N. muscorum in some stages of the culture period. CONCLUSION: N. muscorum was found to be the best chlorophyll a and C-phycocyanin producer, with the production peaking for all species at defined time periods within the growth profile. © 2022 The Authors. Journal of Chemical Technology and Biotechnology published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry (SCI). published

Published

2022

12. Potential Threats of Ionic Liquids to the Environment and Ecosphere

Author

Inês P. E. Macário, Telma Veloso, Joana L. Pereira, Sónia P. M. Ventura, and João A. P. Coutinho

Abstract

Sem resumo disponível. published

Published

2022

13. COVID-19 lockdown: impact on oral health-related behaviors and practices of portuguese and spanish children

Author

Ana L. Costa, Joana L. Pereira, Lara Franco, and Francisco Guinot

Subjects

Salud bucal, Pediatric dentistry, Oral health, Adolescent, Health, Toxicology and Mutagenesis, Food habits, Health Behavior, 616.3, Dental Caries, Humans, Odontologia pediàtrica, Child, Pandemics, Salut bucodental, Odontología pediatrica, COVID-19, pediatric dentistry, oral health, food habits, behavior, family functioning, Behavior, Hàbits alimentaris, Comportamiento, Public Health, Environmental and Occupational Health, Oral Hygiene, Cross-Sectional Studies, Family functioning, Comportament, Funcionament familiar, Child, Preschool, Hábitos alimenticios, Communicable Disease Control, Funcionamiento familiar

Abstract

This study aimed to assess and compare the impact of COVID-19 pandemic lockdowns on the oral health attitudes, dietary habits and access to dental care of Portuguese and Spanish children. A cross-sectional observational study involving caregivers of 3–17-year-old children who had cohabited during a COVID-19 pandemic lockdown in Spain and Portugal was conducted. Caregivers completed an online anonymous questionnaire. Aiming groups comparison, chi-square test was used for qualitative variables. 770 surveys were obtained. Significant changes in the children’s routine were higher in Portugal (p < 0.001). Both countries showed a large percentage of children who had between 2–3 snacks between meals (p < 0.001) and a higher consumption of snacks was particularly noticed among Spanish children with untreated dental caries during the lockdown (p = 0.003). Most caregivers reported children’s oral hygiene habits did not suffer noteworthy alterations (p = 0.417), although parental supervision of toothbrushing was associated with dental attendance during the lockdown. The majority of the sample had no dental attendance during confinement. Confinement appears to have not markedly affected the oral health status and habits of the majority of these children, although an important impact of some demographic and behavioral factors upon dietary and oral care/habits was detected. info:eu-repo/semantics/publishedVersion

Published

2022

14. The Role of Biomass Elemental Composition and Ion-Exchange in Metal Sorption from Wastewaters Onto Algae

Author

Ana R. F. Carreira, Telma Veloso, Inês P. E. Macário, Joana L. Pereira, Sónia P. M. Ventura, Helena Passos, and João A.P. Coutinho

Published

2022

15. Do sediment-bound nickel and lead affect chironomids life-history? Toxicity assessment under environmentally relevant conditions

Author

Fátima Jesus, Ana Luísa Patrício Silva, Joana L. Pereira, Ana Ré, Isabel Campos, Fernando J.M. Gonçalves, António J.A. Nogueira, Nelson Abrantes, and Dalila Serpa

Subjects

Geologic Sediments, Lead, Nickel, Health, Toxicology and Mutagenesis, Animals, Female, Aquatic Science, Chironomidae, Water Pollutants, Chemical, Ecosystem

Abstract

Metal pollution in aquatic ecosystems translates into increased concentrations of sediment-bound metals, representing a risk for benthic species. This risk might be enhanced in soft and moderately hard waters, world widely distributed, due to the protective role of hardness against metal toxicity. As lead (Pb) and nickel (Ni) are amongst the more abundant metals in aquatic systems, and since their combined effects to benthic species have been overlooked, in this study we aimed to investigate the life-cycle toxicity of Pb and Ni (using spiked sediment) to the benthic species Chironomus riparius, considering both single and mixture exposures, in moderately hard water. Environmentally relevant concentrations of each metal were used (25 and 75 mg kg

Published

2022

16. Automated Counting of Daphnid Neonates, Artemia Nauplii, and Zebrafish Eggs: A Proof of Concept

Author

Sizenando N. Abreu, Fátima Jesus, Inês Domingues, Filipa Baptista, Joana L. Pereira, Dalila Serpa, Amadeu M. V. M. Soares, Rui E. Martins, and Miguel Oliveira e Silva

Subjects

Daphnia, Health, Toxicology and Mutagenesis, Environmental Chemistry, Animals, Artemia, Cladocera, Ecotoxicology, Water Pollutants, Chemical, Zebrafish

Abstract

In aquatic invertebrate (e.g., daphnids and Artemia sp.) and zebrafish cultures, in ecotoxicological bioassays, or when addressing complex population-level experimental designs, the counting of an organism's progeny is often required. This counting process is laborious, repetitive, and time-consuming, potentially posing health hazards to the operators, and necessarily entailing a higher likelihood of human error. We present an experimental evaluation of a computer-based device for counting neonates (Daphnia magna, Daphnia longispina, and Ceriodaphnia sp.), nauplii (Artemia salina and Artemia franciscana), and zebrafish (Danio rerio) eggs. Manual counts by an experienced technician were compared with the corresponding automated counts achieved by the computer-based counting device. A minimum of 55 counts/species was performed, with the number of counted organisms being up to a maximum of 150 neonates of Ceriodaphnia dubia, 200 neonates of D. magna and D. longispina, 200 nauplii of A. franciscana and A. salina, and 500 zebrafish eggs. Manual and automated counts were both performed in culture medium solutions of 50 ml of volume. Automated counts showed a mean relative acccuracy of 98.9% (97.9%-99.4%) and a relative standard deviation of 1.72%. The results demonstrate that the computer-based device can be used for accurately counting these aquatic organisms. This computer-based counting might be extended to other organisms of similar size, thus facilitating reproduction and life-cycle ecotoxicity tests. Environ Toxicol Chem 2022;41:1451-1458. © 2022 SETAC.

Published

2021

17. A Study on the Classification of a Mirror Entry in the European List of Waste: Incineration Bottom Ash from Municipal Solid Waste

Author

Beatriz S. Bandarra, Sónia Silva, Joana L. Pereira, Rui C. Martins, and Margarida J. Quina

Subjects

waste classification, mirror entry, incineration bottom ash, hazardous properties, Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, Building and Construction, Management, Monitoring, Policy and Law

Abstract

In the European Union (EU), waste is classified according to the List of Waste (LoW) and relying on the assessment of 15 hazardous properties (HPs). Incineration bottom ash (IBA) from municipal solid waste is a mirror entry in the LoW, which leads to extremely different management options within the EU. IBA has shown potential for different applications under a circular economy perspective, contributing both to avoiding waste landfilling and the consumption of natural resources, such as sand and gravel. In this context, IBA evaluation and classification play a significant role in understanding which protection measures should be taken. This work aims to present an assessment of the 15 HPs and the consequent classification of IBA using data from the industry. Each HP is assessed based on knowledge of waste, chemical composition considering concentration limits for hazardous substances, and/or through tests (chemical, physical, or biological). According to the criteria followed, 5 out of 6 samples from a Portuguese Waste-to-Energy plant were considered non-hazardous. Only one sample was classified as hazardous due to the assignment of HP 10, which resulted from Pb content (0.36%) above the concentration limit established for this property (0.3%). Nonetheless, although most hazardous entries in the LoW have this classification based on HP 14, the results obtained for the samples of this work seem to indicate IBA from this study is non-ecotoxic. Moreover, it has been suggested that IBA could possibly achieve the End-of-Waste status according to the Waste Framework Directive. For such purpose, clear criteria should be laid down to safely use the material, and testing is a crucial step.

Published

2022

18. A review on polycyclic aromatic hydrocarbons distribution in freshwater ecosystems and their toxicity to benthic fauna

Author

Fátima Jesus, Joana L. Pereira, Isabel Campos, Martha Santos, Ana Ré, Jacob Keizer, António Nogueira, Fernando J.M. Gonçalves, Nelson Abrantes, and Dalila Serpa

Subjects

Geologic Sediments, Environmental Engineering, Species sensitivity distributions, Sediment-water partition coefficient, Fresh Water, Invertebrates, Pollution, PAHs, Benthic communities, Humans, Environmental Chemistry, Polycyclic Aromatic Hydrocarbons, Waste Management and Disposal, Ecosystem, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Polycyclic aromatic hydrocarbons (PAHs) are a group of organic compounds, found ubiquitously in all environmental compartments. PAHs are considered hazardous pollutants, being of concern to both the environmental and human health. In the aquatic environment, PAHs tend to accumulate in the sediment due to their high hydrophobicity, and thus sediments can be considered their ultimate sink. Concurrently, sediments comprise important habitats for benthic species. This raises concern over the toxic effects of PAHs to benthic communities. Despite PAHs have been the subject of several reviews, their toxicity to freshwater benthic species has not been comprehensively discussed. This review aimed to provide an overview on PAHs distribution in freshwater environments and on their toxicity to benthic fauna species. The distribution of PAHs between sediments and the overlying water column, given by the sediment-water partition coefficient, revealed that PAHs concentrations were 2 to 4 orders of magnitude higher in sediments than in water. The sediment-water partition coefficient was positively correlated to PAHs hydrophobicity. Toxicity of PAHs to benthic fauna was addressed through Species Sensitivity Distributions. The derived hazardous concentration for 5% of the species (HC5) decreased as follows: NAP (376 μg L-1) > PHE > PYR > FLT > ANT (0.854 μg L-1), varying by 3 orders of magnitude. The hazardous concentrations (HC5) to benthic species were inversely correlated to the hydrophobicity of the individual PAHs. These findings are pertinent for environmental risk assessment of these compounds. This review also identified future challenges regarding the environmental toxicity of PAHs to freshwater benthic communities, namely the need for updating the PAHs priority list and the importance of comprehensively and more realistically assess the toxicity of PAHs in combination with other stressors, both chemical and climate-related. published

Published

2022

19. Role of surfactant headgroups on the toxicity of SLE

Author

Nuno, Martins, Joana L, Pereira, Filipe E, Antunes, Elodie, Melro, Cláudia M G, Duarte, Lídia, Dias, Amadeu M V M, Soares, and Isabel, Lopes

Abstract

Mixtures containing ether sulfate based surfactants (SLE

Published

2018

20. Competitive outcome of Daphnia-Simocephalus experimental microcosms: salinity versus priority effects.

Author

Cláudia Loureiro, Joana L Pereira, M Arminda Pedrosa, Fernando Gonçalves, and Bruno B Castro

Subjects

Medicine, Science

Abstract

Competition is a major driving force in freshwaters, especially given the cyclic nature and dynamics of pelagic food webs. Competition is especially important in the initial species assortment during colonization and re-colonization events, which depends strongly on the environmental context. Subtle changes, such as saline intrusion, may disrupt competitive relationships and, thus, influence community composition. Bearing this in mind, our objective was to assess whether low salinity levels (using NaCl as a proxy) alter the competitive outcome (measured as the rate of population biomass increase) of Daphnia-Simocephalus experimental microcosms, taking into account interactions with priority effects (sequential species arrival order). With this approach, we aimed to experimentally demonstrate a putative mechanism of differential species sorting in brackish environments or in freshwaters facing secondary salinization. Experiments considered three salinity levels, regarding NaCl added (0.00, 0.75 and 1.50 g L(-1)), crossed with three competition scenarios (no priority, priority of Daphnia over Simocephalus, and vice-versa). At lower NaCl concentrations (0.00 and 0.75 g L(-1)), Daphnia was a significantly superior competitor, irrespective of the species inoculation order, suggesting negligible priority effects. However, the strong decrease in Daphnia population growth at 1.50 g L(-1) alleviated the competitive pressure on Simocephalus, causing an inversion of the competitive outcome in favour of Simocephalus. The intensity of this inversion depended on the competition scenario. This salinity-mediated disruption of the competitive outcome demonstrates that subtle environmental changes produce indirect effects in key ecological mechanisms, thus altering community composition, which may lead to serious implications in terms of ecosystem functioning (e.g. lake regime shifts due to reduced grazing) and biodiversity.

Published

2013