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Research Project
Centre for Environmental and Marine Studies
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Publications
Biochemical characterization of Euphorbia resinifera floral cyathia
Publication . Boutoub, Oumaima; Jadhav, Sagar; Zheng, Xiongjie; El Ghadraoui, Lahsen; Al Babili, Salim; Fernie, Alisdair R.; Figueiredo, Ana Cristina; Miguel, Maria; Borghi, Monica
Euphorbia resinifera O. Berg is a plant endemic to the Northern and Central regions of Morocco known since the ancient Roman and Greek times for secreting a poisonous latex containing resiniferatoxin. However, E. resinifera pseudo -inflorescences called cyathia are devoid of laticifers and, therefore, do not secrete latex. Instead, they exudate nectar that local honey bees collect and craft into honey. Honey and cyathium water extracts find a broad range of applications in the traditional medicine of Northern Africa as ointments and water decoctions. Moreover, E. resinifera monofloral honey has received the Protected Geographic Indication certification for its outstanding qualities. Given the relevance of E. resinifera cyathia for bee nutrition, honey production, and the health benefit of cyathium-derived products, this study aimed to screen metabolites synthesized and accumulated in its pseudo -inflorescences. Our analyses revealed that E. resinifera cyathia accumulate primary metabolites in considerable abundance, including hexoses, amino acids and vitamins that honey bees may collect from nectar and craft into honey. Cyathia also synthesize volatile organic compounds of the class of benzenoids and terpenes, which are emitted by flowers pollinated by honey bees and bumblebees. Many specialized metabolites, including carotenoids, flavonoids, and polyamines, were also detected, which, while protecting the reproductive organs against abiotic stresses, also confer antioxidant properties to water decoctions. In conclusion, our analyses revealed that E. resinifera cyathia are a great source of antioxidant molecules and a good food source for the local foraging honeybees, revealing the central role of the flowers from this species in mediating interactions with local pollinators and the conferral of medicinal properties to plant extracts.
Proteomic analysis of the mucus of the photosynthetic sea slug Elysia crispata
Publication . Lopes, Diana; Aveiro, Susana; Cruz, Sónia; Cartaxana, Paulo; Domingues, Pedro
Elysia crispata is a tropical sea slug that can retain intracellular functional chloroplasts from its algae prey, a mechanism termed kleptoplasty. This sea slug, like other gastropods, secretes mucus, a viscous secretion with multiple functions, including lubrication, protection, and locomotion. This study presents the first comprehensive analysis of the mucus proteome of the sea slug E. crispata using gel electrophoresis and HPLC-MS/MS. We identified 306 proteins in the mucus secretions of this animal, despite the limited entries for E. crispata in the Uniprot database. The functional annotation of the mucus proteome using Gene Ontology identified proteins involved in different functions such as hydrolase activity (molecular function), carbohydrate-derived metabolic processes (biological processes) and cytoskeletal organization (cell component). Moreover, a high proportion of proteins with enzymatic activity in the mucus of E. crispata suggests potential biotechnological applications including antimicrobial and antitumor activities. Putative antimicrobial properties are reinforced by the high abundance of hydrolases. This study also identified proteins common in mucus samples from various species, supporting a common mechanism of mucus in protecting cells and tissues while facilitating animal movement. Significance: Marine species are increasingly drawing the interest of researchers for their role in discovering new bioactive compounds. The study "Proteomic Analysis of the Mucus of the Photosynthetic Sea Slug Elysia crispata" is a pioneering effort that uncovers the complex protein content in this fascinating sea slug's mucus. This detailed proteomic study has revealed proteins with potential use in biotechnology, particularly for antimicrobial and antitumor purposes. This research is a first step in exploring the possibilities within the mucus of Elysia crispata, suggesting the potential for new drug discoveries. These findings could be crucial in developing treatments for severe diseases, especially those caused by multidrug-resistant bacteria, and may lead to significant advances in medical research.
Chemical characterization and biological properties assessment of Euphorbia resinifera and Euphorbia officinarum Moroccan Propolis
Publication . Boutoub, Oumaima; El-Guendouz, Soukaina; Matos, Isabel; El Ghadraoui, Lahsen; Costa, Maria Clara; Carlier, Jorge; Faleiro, Maria Leonor; Figueiredo, Ana Cristina; Estevinho, Letícia M.; Miguel, Maria
Although the plants of the genus Euphorbia are largely exploited by therapists in Morocco,
the composition and antibacterial activities of propolis from these plants are still unknown. To
address this gap, this study aimed to characterize the pollen type, the volatile compounds, and the
phenolic and mineral profiles of three Euphorbia propolis samples collected in Morocco and evaluate
their antimicrobial activities. The minimum inhibitory concentration of the propolis samples was
determined by the microdilution method, and the anti-adherence activity was evaluated by the crystal
violet assay. The examination of anti-quorum-sensing proprieties was performed using the biosensor
Chromobacterium violaceum CV026. Pollen analysis revealed that Euphorbia resinifera pollen dominated
in the P1 sample (58%), while E. officinarum pollen dominated in the P2 and P3 samples (44%). The
volatile compounds were primarily composed of monoterpene hydrocarbons, constituting 35% in P1
and 31% in P2, with α-pinene being the major component in both cases, at 16% in P1 and 15% in P2.
Calcium (Ca) was the predominant mineral element in both E. resinifera (P1) and E. officinarum (P2
and P3) propolis samples. Higher levels of phenols, flavonoids and dihydroflavonoids were detected
in the E. officinarum P2 sample. The minimum inhibitory concentration (MIC) value ranged from
50 to 450 µL/mL against Gram-positive and Gram-negative bacteria. Euphorbia propolis displayed
the ability to inhibit quorum sensing in the biosensor C. violaceum CV026 and disrupted bacterial
biofilm formation, including that of resistant bacterial pathogens. In summary, the current study
evidences the potential use of E. officinarum propolis (P2 and P3) to combat important features of
resistant pathogenic bacteria, such as quorum sensing and biofilm formation.
Dynamics of Decapoda larvae communities in a southwest Iberian estuary: Understanding the impact of different thermal regimes
Publication . Monteiro, Marta; Cruz, Joana; Azeiteiro, Ulisses; Marques, Sónia Cotrim; Baptista, Vânia; Teodosio, Maria
Environmental conditions play a pivotal role in shaping the dynamics of meroplanktonic communities, which represent a vital life stage, crucial for successful recruitment. Specifically, temperature can impact the survival and duration of larval development in decapod crustacean species. The objective of this study is to analyze the community of decapod larvae in the Guadiana estuary, located in southwest Iberia. The analysis focuses on the community's taxonomic composition, temporal variability, and the influence of environmental factors. Particularly, the study emphasizes investigating the impacts of different thermal regimes on the abundance of these assemblages. A comprehensive zooplankton sampling program was conducted at a single station in the lower estuary, from 2014 to 2022. The decapod larvae assemblages are dominated by Upogebia spp., followed by Diogenes pugilator, Panopeus africanus, Afropinnotheres monodi, and Polybius henslowii species. The results of structural equation modeling unveiled a strong influence of water temperature and salinity on the community, while chlorophyll-a concentration, river runoff, and the large-scale climatic mode North Atlantic Oscillation (NAO) revealed no impact on the abundance of these assemblages. Overall, the community and the main taxa displayed a positive linear trend in response to increased salinity. However, the effect of increasing temperature varied among species. In the current climatic scenario, water temperature emerges as a critical factor in predicting seasonal variation of the assemblages' abundances, exhibiting a marked seasonality during spring and summer. Predictive models used to investigate future scenarios, Representative Concentration Pathway (RCP) 2.6 and RCP 8.5, defined by the International Panel on Climate Change (IPCC), where the temperature is expected to rise 2 degrees C and 4.3 degrees C by 2100, suggest the possibility for an alteration in assemblages' composition, where the abundances of D. pugilator, the second most abundant species, tend to decrease abruptly. Reported evidence, coupled with the typical Mediterranean climate of the region, where extreme climatic events, like marine heatwaves, are becoming more frequent, the high connectivity with the Mediterranean Sea, where invasion by non-indigenous species is increasing, also connected with changes in freshwater discharges, may trigger significant alterations in species dominance and abundance, with ecological and socio-economic implications.
Setting performance indicators for coastal marine protected areas: an expert-based methodology
Publication . Cardoso-Andrade, Mariana; Queiroga, Henrique; Rangel, Mafalda; Sousa, Inês; Belackova, Adela; Bentes, Luis; Oliveira, Frederico; Monteiro, Pedro; Sales Henriques, Nuno; Afonso, Carlos; Silva, Ana F.; Quintella, Bernardo R.; Costa, José L.; Pais, Miguel P.; Henriques, Sofia; Batista, Marisa I.; Franco, Gustavo; Gonçalves, Emanuel J.; Henriques, Miguel; Leonardo, Teresa; Coelho, Paula; Comas-González, Robert; Fernández, Laura P.; Quiles-Pons, Carla; Costa, André; Espírito-Santo, Cristina; Castro, João J.; Arenas, Francisco; Ramos, Sandra; Ferreira, Vasco; Gonçalves, Jorge Manuel Santos; Horta E Costa, Barbara
Marine Protected Areas (MPAs) require effective indicators to assess their performance, in compliance with the goals of relevant national and international commitments. Achieving and prioritizing shortlists of multidisciplinary indicators demands a significant effort from specialists to depict the multiple conservation and socioeconomic interests, and the large complexity of natural systems. The present paper describes a structured expert-based methodology (process and outputs) to co-define a list of multidisciplinary MPA performance indicators. This work was promoted by the management authority of coastal MPAs in mainland Portugal to gather a consensual and feasible list of indicators that would guide the design of a future national monitoring program. Hence, Portuguese coastal MPAs served as a case study to develop such a process between 2019 and 2020. In the end, participants (1) agreed on a shortlist of prioritized indicators (i.e., environmental, governance, and socioeconomic indicators) and (2) defined minimum monitoring frequencies for the indicators in this list, compatible with the potential replicability of the associated survey methods. The present approach recommends that management plans incorporate monitoring procedures and survey methods, with a validated list of indicators and associated monitoring periodicity, agreed among researchers, MPA managers and governance experts. The proposed methodology, and the lessons learned from it, can support future processes aiming to define and prioritize MPA performance indicators.
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Funding agency
Fundação para a Ciência e a Tecnologia
Funding programme
6817 - DCRRNI ID
Funding Award Number
LA/P/0094/2020