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Research Project
Centre for Environmental and Marine Studies
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Authors
Publications
Biological activity of 6,7-Dehydroxyroyleanone and derivatives obtained from Plectranthus aliciae (Codd) A.J.Paton
Publication . Filipe, Márcia Santos; Domínguez-Martín, Eva M.; Pires, Tânia C.S.P.; Finimundy, Tiane C.; Melgar Castañeda, Bruno; Mandim, Filipa; Isca, Vera M. S.; Pereira, Raquel; Teixidó-Trujillo, Silvia; Capote, Natalia A.; Nikolić, Milan; Filipović, Nenad; Díaz-Lanza, Ana M.; Figueiredo, Ana Cristina; Barros, Lillian; Rijo, Patrícia
The Plectranthus genus (Lamiaceae) is known to be rich in abietane diterpenes. The bioactive 6,7-dehydroxyroyleanone (DHR, 1) was previously isolated from Plectranthus madagascariensis var. madagascariensis and var. aliciae. This study aimed to explore the occurrence of DHR, 1, in P. aliciae and the potential bioactivities of new semisynthetic derivatives from DHR, 1. Several extraction methods were evaluated, and the hydrodistillation, using a Clevenger apparatus, afforded the highest yield (77.8 mg/g of 1 in the essential oil). Three new acyl derivatives (2-4) were successfully prepared from 1 (yields of 86-95%). Compounds 1-4 showed antioxidant activity, antibacterial effects, potent cytotoxic activity against several cell lines, and enhanced anti-inflammatory activity that surpassed dexamethasone (positive control). These findings encourage further exploration of derivatives 2-4 for potential mechanisms of antitumoral, antioxidant, and anti-inflammatory capabilities, studying both safety and efficacy.
Chemical speciation and oxidative potential of PM10 in different residential microenvironments: Bedroom, living room and kitchen
Publication . Cipoli, Yago Alonso; Vicente, Estela D.; Evtyugina, Margarita; Figueiredo, Daniela R.; Pietrogrande, Maria C.; Lucarelli, Franco; Feliciano, Manuel; Ryšavý, Jiří; Alves, Célia
Exposure to particulate matter (PM) and its chemical constituents in residential microenvironments has become a major health concern worldwide. The oxidative potential (OP) has been proposed as a metric for estimating the PM capacity to induce oxidative stress and, consequently, health effects. In the present study, PM10 was daily monitored simultaneously in the bedroom, living room and kitchen of three dwellings for one week in a small town of Portugal, to perform a detailed characterisation of its organic and inorganic constituents and the determination of the OP. Bedrooms (B) were found to be a hotspot of PM10 concentrations (B1 = 22.7 μg m-3; B2 = 19.5 μg m-3; B3 = 68.1 μg m-3). PM10-bound elements varied significantly between microenvironments in all dwellings. Lower molecular weight polycyclic aromatic hydrocarbons (PAHs) were found to be between 14 and 72 times higher than high molecular weight PAHs in bedrooms. The mean volume-normalised OP determined by the dithiothreitol and ascorbic acid assays varied within the 0.01–0.38 nmol min-1 m-3 and 0.03–0.53 nmol min-1 m-3 ranges, respectively. Quinones, oxy-aromatic, aromatic and alkyl-aromatic compounds stood out in bedrooms. Strong and significantly positive relationship between OP and black carbon, Cu and Br were observed, indicating common redox active species mainly associated with traffic emissions. Sr, Fe, Zn and Zr presented higher concentrations in dwelling 3, exhibiting excellent positive correlation with OP, indicating that the Sahara dust intrusion recorded in that house may have contributed to the formation of more redox active species thought
to drive antioxidant depletion responses.
Comprehensive analysis of particulate matter, gaseous pollutants, and microbiological contamination in an international chain supermarket
Publication . Furst, Leonardo; Cipoli, Yago Alonso; Galindo, Nuria; Yubero, Eduardo; Viegas, Carla; Pena, Pedro; Nunes, Teresa; Feliciano, Manuel; Alves, Célia
Indoor environmental quality is of utmost importance since urban populations spend a large proportion of their
life in confined spaces. Supermarkets offer a wide range of products and services that are prone to emitting
several air pollutants. This study aimed to perform a comprehensive characterisation of the indoor and outdoor
air quality in a multinational supermarket, encompassing not only criteria parameters but also unregulated
pollutants of concern. Monitoring included measurements of comfort parameters, CO2, multiple gaseous pollutants,
particulate matter (PM10) and bioburden. PM10, volatile organic compounds (VOCs) and carbonyls were
subject to chemical speciation. Globally, the supermarket presented CO2, VOCs, and PM10 values below the limits
imposed by international regulations. The PM10 concentration in the supermarket was 33.5 ± 23.2 μg/m3, and
the indoor-to-outdoor PM10 ratio was 1.76. Carbonaceous constituents represented PM10 mass fractions of 21.6%
indoors and 15.3% outdoors. Due to the use of stainless-steel utensils, flour and fermentation processes, the
bakery proved to be a pollution hotspot, presenting the highest concentrations of PM10 (73.1 ± 9.16 μg/m3),
PM10-bound elements (S, Cl, K, Ca, Ti, and Cr) and acetaldehyde (42.7 μg/m3). The maximum tetrachloroethylene
level (130 μg/m3) was obtained in the cleaning products section. The highest values of colony-forming
units of bacteria and fungi were recorded in the bakery, and fruit and vegetable section. The most prevalent
fungal species was Penicillium sp., corresponding to 56.9% of the total colonies. In addition, other fungal species/
sections with toxicological or pathogenic potential were detected (Aspergillus sections Aspergilli, Circumdati, Flavi,
Mucor and Fusarium sp.).
First exploratory study of gaseous pollutants (NO2, SO2, O3, VOCs and carbonyls) in the Luanda metropolitan area by passive monitoring
Publication . Alves, Célia; Feliciano, Manuel; Gama, Carla; Vicente, Estela D.; Furst, Leonardo; Leitão, Anabela
An air quality monitoring campaign for gaseous pollutants using passive sampling techniques was carried out, for the first time, at 25 locations in the metropolitan area of Luanda, Angola, in June 2023. Concentrations of benzene, toluene, ethylbenzene, xylenes, trimethylbenzenes, SO2 and NO2 were generally higher in locations more impacted by traffic. Benzene, SO2 and NO2 levels did not exceed the World Health Organisation guidelines. Ozone concentrations surpassed those documented for other African regions. Higher O3 formation potential values were recorded at heavy-trafficked roads. The top 5 species with potential for ozone formation were m,pxylene, toluene, formaldehyde, propionaldehyde and butyraldehyde. The Mulenvos landfill presented a distinctive behaviour with a very low toluene/benzene ratio (0.47), while values close to 5 were obtained at traffic sites. The maximum levels of α-pinene, D-limonene, formaldehyde, acetaldehyde, acetone, acrolein, propionaldehyde, butyraldehyde, benzaldehyde, valeraldehyde, hexaldehyde and crotonaldehyde were recorded at the landfill. The formaldehyde/acetaldehyde ratio ranged from 0.40 at the Mulenvos landfill to 3.0, averaging 1.8, which is a typical value for urban atmospheres. Acetaldehyde/propionaldehyde ratios around 0.4–0.6 were found in locations heavily impacted by traffic, whereas values between 0.7 and 1.2 were observed in green residential areas and in places with more rural characteristics. All hazard quotient (HQ) values were in the range from 1 to 10, indicating moderate risk of developing non-cancer diseases. The exception was the Mulenvos landfill for which a HQ of 11 was obtained (high risk). The cancer risks exceeded the tolerable level of 1 × 10-4, with special concern for the landfill and sites most impacted by traffic. A mean lifetime cancer risk of 9 × 10-4 was obtained. The cancer risk was mainly due to naphthalene, which accounted, on average, for 94.6% of the total.
Validation of meteorological and ground-level ozone WRF-CHIMERE simulations in a mountainous grapevine growing area for phytotoxic risk assessment
Publication . Blanco-Ward, Daniel; Rocha, A.C.; Viceto, C.; Ribeiro, A.C.; Feliciano, Manuel; Paoletti, Elena; Miranda, Ana Isabel
Ozone is the most damaging phytotoxic air pollutant to crop yield quantity and quality. This study presents the validation of a simulation with the WRF-CHIMERE modelling system in order to assess the risk of phytotoxicity by tropospheric ozone for an important and characteristic Mediterranean crop, i.e. the grapevine. The study region was the Douro wine region in Portugal, which is characterized by a rugged relief and a Mediterranean climate. The simulation covered a reference grapevine growing season in the Northern Hemisphere (from April to September 2017), during which a particular measuring campaign was also carried out. The validation of the meteorological simulations on a daily and hourly time resolution was performed based on data from three weather stations, namely on temperature, global solar radiation, relative humidity, wind speed and direction values. The ozone phytotoxicity was assessed with data from two measuring stations. A specific grapevine growth parameter based on monitored phenological observations was introduced for ozone stomatal uptake assessment. Concerning meteorology, validation statistics were acceptable and within the range of what has been found in other regional climate modelling simulations. Ground-level ozone-based values were calculated for a better assessment of the phytotoxic risk, in particular cumulative standards for vegetation protection. Stomatal flux estimates were within the range of those measured for the local cultivars in the field campaign when there was not severe water stress limitation. Both field and statistically adjusted model values indicate that considerable areas in the Demarcated Douro Region of Portugal can exceed the critical exposure values for vegetation according to current European legislation standards. Moreover, measured and simulated results indicate an ozone impact on grapevine yield and quality in the target region because the exposure- and flux-based indices exceed the criteria based on current open-top-chamber experimental knowledge.
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Funders
Funding agency
Fundação para a Ciência e a Tecnologia
Funding programme
6817 - DCRRNI ID
Funding Award Number
UIDP/50017/2020