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131 results on '"Moraïs S"'

1. Identifying type II quasars at intermediate redshift with few-shot learning photometric classification

Author

Cunha, P. A. C., Humphrey, A., Brinchmann, J., Morais, S. G., Carvajal, R., Gomes, J. M., Matute, I., and Paulino-Afonso, A.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Astrophysics of Galaxies
Abstract

We aim to identify QSO2 candidates in the redshift desert using optical and infrared photometry. At this intermediate redshift range, most of the prominent optical emission lines in QSO2 sources (e.g. CIV1549; [OIII]4959,5008) fall either outside the wavelength range of the SDSS optical spectra or in particularly noisy wavelength ranges, making QSO2 identification challenging. Therefore, we adopted a semi-supervised machine learning approach to select candidates in the SDSS galaxy sample. Recent applications of machine learning in astronomy focus on problems involving large data sets, with small data sets often being overlooked. We developed a few-shot learning approach for the identification and classification of rare-object classes using limited training data (200 sources). The new AMELIA pipeline uses a transfer-learning based approach with decision trees, distance-based, and deep learning methods to build a classifier capable of identifying rare objects on the basis of an observational training data set. We validated the performance of AMELIA by addressing the problem of identifying QSO2s at 1 $\leq$ z $\leq$ 2 using SDSS and WISE photometry, obtaining an F1-score above 0.8 in a supervised approach. We then used AMELIA to select new QSO2 candidates in the redshift desert and examined the nature of the candidates using SDSS spectra, when available. In particular, we identified a sub-population of [NeV]3426 emitters at z $\sim$ 1.1, which are highly likely to contain obscured AGNs. We used X-ray and radio cross-matching to validate our classification and investigated the performance of photometric criteria from the literature showing that our candidates have an inherent dusty nature. Finally, we derived physical properties for our QSO2 sample using photoionisation models and verified the AGN classification using an SED fitting., Comment: 20 pages, 9 figures, Accepted for publication in A&A

Published
2024
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2. Indoor Air Quality at Portuguese Firehouses

Author

Slezakova, K., Esteves, F., Vaz, J., Costa, S., Alves, M. J., Madureira, J., Barros, B., Fernandes, A., Teixeira, J. P., Morais, S., Pereira, M. C., Kacprzyk, Janusz, Series Editor, Arezes, Pedro M., editor, Melo, Rui B., editor, Carneiro, Paula, editor, Castelo Branco, Jacqueline, editor, Colim, Ana, editor, Costa, Nélson, editor, Costa, Susana, editor, Duarte, Joana, editor, Guedes, Joana C., editor, Perestrelo, Gonçalo, editor, and Baptista, J. Santos, editor

Published
2024
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4. Electron Energy Distributions in the Extended Gas Nebulae associated with High-z AGN: Maxwell-Boltzmann vs. kappa distributions

Author

Morais, S. G., Humphrey, A., Martín, M. Villar, Binette, L., and Silva, M.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Emission line observations together with photoionization models provide important information about the ionization mechanisms, densities, temperatures, and metallicities in AGN-ionized gas. Photoionization models usually assume Maxwell-Boltzmann (M-B) electron energy distributions (EED), but it has been suggested that using kappa distributions may be more appropriate and could potentially solve the discrepancies in temperatures and abundances found in HII regions and Planetary Nebulae (PNe). We consider the impact of the presence of kappa distributions in photoionized nebulae associated with AGN and study how this might affect spectral modelling and abundance analyses for such regions. Using the photoionization code MAPPINGS 1e we compute models adopting M-B and kappa distributions of electron energies, and compare the behaviour of emission line ratios for different values of kappa, gas metallicity, density, ionization parameter and SED slope. We find that the choice of EED can have a large impact on some UV and optical emission lines emitted by photoionized nebulae associated with AGN, and that the impact of adopting a kappa distribution is strongly dependent on gas metallicity and ionization parameter. We compile a sample of line ratios for 143 type 2 AGN and compare our models against the observed line ratios. We find that for 98 objects kappa distributions provide a better fit to the observed line ratios than M-B distributions. In addition, we find that adopting kappa-distributed electron energies results in significant changes in the inferred gas metallicity and ionization parameter in a significant fraction of objects., Comment: 20 pages, 18 figures. This is a pre-copyedited, author-produced PDF of an article accepted for publication in MNRAS following peer review

Published
2021
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5. Occupational Exposure of Firefighters in Non-fire Settings

Author

Slezakova, K., Esteves, F., Vaz, J., Alves, M. J., Madureira, J., Costa, S., Fernandes, A., Teixeira, J. P., Morais, S., Pereira, M. C., Kacprzyk, Janusz, Series Editor, Arezes, Pedro M., editor, Baptista, J. Santos, editor, Melo, Rui B., editor, Castelo Branco, Jacqueline, editor, Carneiro, Paula, editor, Colim, Ana, editor, Costa, Nélson, editor, Costa, Susana, editor, Duarte, J., editor, Guedes, J. C., editor, and Perestrelo, Gonçalo, editor

Published
2023
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6. Carbon-loud SDSS BOSS QSO2s at z > 2: High density gas or secondary production of Carbon?

Author

Silva, M., Humphrey, A., Lagos, P., and Morais, S. G.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We study the ultraviolet (UV) emission-line ratios of a sample of 145 type II quasars (QSO2s) from Sloan Digital Sky Survey III Baryon Oscillation Spectroscopic Survey, and compare against a grid of active galactic nucleus (AGN) photoionization models with a range in gas density, gas chemical abundances, and ionization parameter. Most of the quasars are "carbon-loud", with Civ/He ii ratios that are unusually high for the narrow-line region, implying higher than expected gas density (>10^6 cm^-3) and/or signicantly super-Solar relative carbon abundance. We also find that solar or supersolar nitrogen abundance and metallicity are required in the majority of our sample, with potentially significant variation between objects. Compared to radio galaxies at similar redshifts (HzRGs; z > 2), the QSO2s are offset to higher NV/HeII, CIV/HeII and CIII]/HeII, suggesting systematically higher gas density and/or systematically higher C and N abundances. We find no evidence for a systematic difference in the N/C abundance ratio between the two types of objects. Scatter in the NIV]/CIV ratio implies a significant scatter in the N/C abundance ratio among the QSO2s and HzRGs, consistent with differences in the chemical enrichment histories between objects. Interestingly, we find that adopting secondary behaviour for both N and C alleviates the long-standing "NIV] problem". A subset of the QSO2s and HzRGs also appear to be "silicon-loud", with SiIII] relative fluxes suggesting Si/C and Si/O are an order of magnitude above their Solar values. Finally, we propose new UV-line criteria to select genuine QSO2s with low-density narrow-line regions., Comment: 44 pages, 31 figures, 9 Tables. Accepted for publication in Monthly Notices of the Royal Astronomical Society 2020. Published: 2020 May 18

Published
2020
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9. Detection of large scale Ly$\alpha$ absorbers at large angles to the radio axis of high-redshift radio galaxies using SOAR

Author

Silva, M., Humphrey, A., Lagos, P., Guimarães, R., Scott, T., Papaderos, P., and Morais, S. G.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We present an investigation of the properties of the extended Ly$\alpha$ halo and the large-scale \ion{H}{I} absorbing structures associated with 5 high-redshift radio galaxies at z $>$ 2, using the Goodman long-slit spectrograph on the SOAR telescope, with the slit placed at large angles ($>$45$^{\circ}$) to the radio axis, to study regions that are unlikely to be illuminated by the active nucleus. Spatially extended Ly$\alpha$ emission is detected with large line widths (FWHM = 1000 -- 2500 km s$^{-1}$), which although impacted by resonant scattering, is suggestive of turbulent motion. We find a correlation between higher blueshifts and higher FWHM, which is an indication that radial motion dominates the bulk gas dynamics perpendicular to the radio axis, although we are unable to distinguish between outflow and infall scenarios due to the resonant nature of the Ly$\alpha$ line. Extended, blueshifted Ly$\alpha$ absorption is detected in the direction perpendicular to the radio axis in three radio galaxies with minimum spatial extents ranging from $\gtrsim$27 kpc to $\gtrsim$35 kpc, supporting the idea that the absorbing structure covers the entire Ly$\alpha$ halo, consistent with being part of a giant, expanding shell of gas enveloping the galaxy and its (detected) gaseous halo., Comment: 16 pages, 5 figures, 3 Tables. Accepted for publication in Monthly Notices of the Royal Astronomical Society 2018. Published: 2018 August 24

Published
2018
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11. The MUSE 3D view of feedback in a high-metallicity radio galaxy at z = 2.9

Author

Silva, M., Humphrey, A., Lagos, P., Villar-Martín, M., Morais, S. G., Alighieri, S. di Serego, Cimatti, A., Fosbury, R., Overzier, R. A., Vernet, J., and Binette, L.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We present a detailed study of the kinematic, chemical and excitation properties of the giant Ly$\alpha$ emitting nebula and the giant \ion{H}{I} absorber associated with the $z = 2.92$ radio galaxy MRC 0943--242, using spectroscopic observations from VLT/MUSE, VLT/X-SHOOTER and other instruments. Together, these data provide a wide range of rest-frame wavelength (765 \AA$\,$ -- 6378 \AA$\,$ at $z = 2.92$) and 2D spatial information. We find clear evidence for jet gas interactions affecting the kinematic properties of the nebula, with evidence for both outflows and inflows being induced by radio-mode feedback. We suggest that the regions of relatively lower ionization level, spatially correlated with the radio hotspots, may be due to localised compression of photoionized gas by the expanding radio source, thereby lowering the ionization parameter, or due to a contribution from shock-heating. We find that photoionization of super-solar metallicity gas ($Z/Z_{\odot}$ = 2.1) by an AGN-like continuum ($\alpha$=--1.0) at a moderate ionization parameter ($U$ = 0.018) gives the best overall fit to the complete X-SHOOTER emission line spectrum. We identify a strong degeneracy between column density and Doppler parameter such that it is possible to obtain a reasonable fit to the \ion{H}{I} absorption feature across the range log N(\ion{H}{I}/cm$^{-2}$) = 15.20 and 19.63, with the two best-fitting occurring near the extreme ends of this range. The extended \ion{H}{I} absorber is blueshifted relative to the emission line gas, but shows a systematic decrease in blueshift towards larger radii, consistent with a large scale expanding shell., Comment: 25 pages, 18 figures, 10 tables. Accepted for publication in MNRAS. Published: 23 November 2017

Published
2017
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12. Ionization and feedback in Ly$\alpha$ halos around two radio galaxies at z$\sim$2.5

Author

Morais, S. G., Humphrey, A., Villar-Martín, M., Lagos, P., Moyano, M., Overzier, R., Alighieri, S. di Serego, Vernet, J., and Fernandes, C. A. C.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We present new spectroscopic observations of two high redshift radio galaxies, TXS 0211-122 (z=2.34) and TXS 0828+193 (z=2.57), known to be associated with large Ly$\alpha$ halos. The observations were taken with the slits placed perpendicularly to the radio axis. With access to pre-existing Keck II observations taken with the slit placed along the radio axis we are able to compare the properties of the gas in different regions of the galaxies. In both objects we detect spatially extended Ly$\alpha$ emission perpendicularly to the radio axis. In TXS 0211-122, the flux and velocity profiles of Ly$\alpha$ are strongly affected by HI absorption/scattering. In line with previous studies, we find evidence for outflowing gas along the radio axis which may be the result of jet-gas interactions. In the slit oriented perpendicularly to the radio axis we find less perturbed gas kinematics, suggesting outflows of ionized gas in this object are focused along the radio jet axis. Additionally, we find evidence for a giant, UV-emitting arc or shell-like structure surrounding the radio galaxy Ly$\alpha$ halo, possibly resulting from feedback activity. In TXS 0828+193 a large Ly$\alpha$ halo ($\sim$56 kpc) is detected perpendicularly to the radio axis. Along both slit position angles we find evidence for outflowing gas, which we argue is part of an approximately spherical, expanding shell or bubble of gas powered by feedback activity in the central regions of the galaxy. Our results suggest a diversity in the spatial distribution of ionized outflows in powerful radio galaxies at z$\sim$2.5.

Published
2016
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30. Creation of a functional hyperthermostable designer cellulosome

Author

Kahn, A. Moraïs, S. Galanopoulou, A.P. Chung, D. Sarai, N.S. Hengge, N. Hatzinikolaou, D.G. Himmel, M.E. Bomble, Y.J. Bayer, E.A.

Abstract

Background: Renewable energy has become a field of high interest over the past decade, and production of biofuels from cellulosic substrates has a particularly high potential as an alternative source of energy. Industrial deconstruction of biomass, however, is an onerous, exothermic process, the cost of which could be decreased significantly by use of hyperthermophilic enzymes. An efficient way of breaking down cellulosic substrates can also be achieved by highly efficient enzymatic complexes called cellulosomes. The modular architecture of these multi-enzyme complexes results in substrate targeting and proximity-based synergy among the resident enzymes. However, cellulosomes have not been observed in hyperthermophilic bacteria. Results: Here, we report the design and function of a novel hyperthermostable "designer cellulosome" system, which is stable and active at 75 °C. Enzymes from Caldicellulosiruptor bescii, a highly cellulolytic hyperthermophilic anaerobic bacterium, were selected and successfully converted to the cellulosomal mode by grafting onto them divergent dockerin modules that can be inserted in a precise manner into a thermostable chimaeric scaffoldin by virtue of their matching cohesins. Three pairs of cohesins and dockerins, selected from thermophilic microbes, were examined for their stability at extreme temperatures and were determined stable at 75 °C for at least 72 h. The resultant hyperthermostable cellulosome complex exhibited the highest levels of enzymatic activity on microcrystalline cellulose at 75 °C, compared to those of previously reported designer cellulosome systems and the native cellulosome from Clostridium thermocellum. Conclusion: The functional hyperthermophilic platform fulfills the appropriate physico-chemical properties required for exothermic processes. This system can thus be adapted for other types of thermostable enzyme systems and could serve as a basis for a variety of cellulolytic and non-cellulolytic industrial objectives at high temperatures. © 2019 The Author(s).

Published
2019

34. The cohesin module is a major determinant of cellulosome mechanical stability

Author

Galera-Prat A., Moraïs S., Vazana Y., Bayer E.A., Carrión-Vázquez M. and This work was supported by a Seventh Framework Programme in Nanosci-ences, Nanotechnologies, Materials, and New Production Technologies (7PM-NMP 2013–17 and 604530-2) and ERA-IB-ERANET-2013–16 (EIB.12.022) through the Spanish MINECO (PCIN-2013-011-C02-01). The authors declare that they have no conflicts of interest with the contents of this article.

Published
2018

35. Evaluation of thermal stability of cellulosomal hydrolases and their complex formation

Author

Kahn, A. Galanopoulou, A.P. Hatzinikolaou, D.G. Moraïs, S. Bayer, E.A.

Abstract

Enzymatic breakdown of plant biomass is an essential step for its utilization in biorefinery applications, and the products could serve as substrates for the sustainable and environmentally friendly production of fuels and chemicals. Toward this end, the incorporation of enzymes into polyenzymatic cellulosome complexes—able to specifically bind to and hydrolyze crystalline cellulosic materials, such as plant biomass—is known to increase the efficiency and the overall hydrolysis performance of a cellulase system. Despite their relative abundance in various mesophilic anaerobic cellulolytic bacteria, there are only a few reports of cellulosomes of thermophilic origin. However, since various biorefinery processes are favored by elevated temperatures, the development of thermophilic designer cellulosomes could be of great importance. Owing to the limited number of thermophilic cellulosomes, designer cellulosomes, composed of mixtures of mesophilic and thermophilic components, have been constructed. As a result, the overall thermal profile of the individual parts and the resulting complex has to be extensively evaluated. Here, we describe a practical guide for the determination of temperature stability for cellulases in the cellulosome complexes. The approach is also appropriate for other related enzymes, notably xylanases as well as other glycoside hydrolases. We provide detailed experimental procedures for the evaluation of the thermal stability of the individual designer cellulosome components and their complexes as well as protocols for the assessment of complex integrity at elevated temperatures. © Springer Science+Business Media, LLC, part of Springer Nature 2018.

Published
2018

41. Enhancement of cellulosome-mediated deconstruction of cellulose by improving enzyme thermostability

Author

Moraïs, S. Stern, J. Kahn, A. Galanopoulou, A.P. Yoav, S. Shamshoum, M. Smith, M.A. Hatzinikolaou, D.G. Arnold, F.H. Bayer, E.A.

Abstract

Background: The concerted action of three complementary cellulases from Clostridium thermocellum, engineered to be stable at elevated temperatures, was examined on a cellulosic substrate and compared to that of the wild-type enzymes. Exoglucanase Cel48S and endoglucanase Cel8A, both key elements of the natural cellulosome from this bacterium, were engineered previously for increased thermostability, either by SCHEMA, a structure-guided, site-directed protein recombination method, or by consensus-guided mutagenesis combined with random mutagenesis using error-prone PCR, respectively. A thermostable β-glucosidase BglA mutant was also selected from a library generated by error-prone PCR that will assist the two cellulases in their methodic deconstruction of crystalline cellulose. The effects of a thermostable scaffoldin versus those of a largely mesophilic scaffoldin were also examined. By improving the stability of the enzyme subunits and the structural component, we aimed to improve cellulosome-mediated deconstruction of cellulosic substrates. Results: The results demonstrate that the combination of thermostable enzymes as free enzymes and a thermostable scaffoldin was more active on the cellulosic substrate than the wild-type enzymes. Significantly, "thermostable" designer cellulosomes exhibited a 1.7-fold enhancement in cellulose degradation compared to the action of conventional designer cellulosomes that contain the respective wild-type enzymes. For designer cellulosome formats, the use of the thermostabilized scaffoldin proved critical for enhanced enzymatic performance under conditions of high temperatures. Conclusions: Simple improvement in the activity of a given enzyme does not guarantee its suitability for use in an enzyme cocktail or as a designer cellulosome component. The true merit of improvement resides in its ultimate contribution to synergistic action, which can only be determined experimentally. The relevance of the mutated thermostable enzymes employed in this study as components in multienzyme systems has thus been confirmed using designer cellulosome technology. Enzyme integration via a thermostable scaffoldin is critical to the ultimate stability of the complex at higher temperatures. Engineering of thermostable cellulases and additional lignocellulosic enzymes may prove a determinant parameter for development of state-of-the-art designer cellulosomes for their employment in the conversion of cellulosic biomass to soluble sugars. Graphical abstract Conversion of conventional designer cellulosomes into thermophilic designer cellulosomes. © 2016 The Author(s).

Published
2016

42. Insights into the functionality and stability of designer cellulosomes at elevated temperatures

Author

Galanopoulou, A.P. Moraïs, S. Georgoulis, A. Morag, E. Bayer, E.A. Hatzinikolaou, D.G.

Abstract

Enzymatic breakdown of lignocellulose is a major limiting step in second generation biorefineries. Assembly of the necessary activities into designer cellulosomes increases the productivity of this step by enhancing enzyme synergy through the proximity effect. However, most cellulosomal components are obtained from mesophilic microorganisms, limiting the applications to temperatures up to 50 °C. We hypothesized that a scaffoldin, comprising modular components of mainly mesophilic origin, can function at higher temperatures when combined with thermophilic enzymes, and the resulting designer cellulosomes could be employed in higher temperature reactions. For this purpose, we used a tetravalent scaffoldin constituted of three cohesins of mesophilic origin as well as a cohesin and cellulose-binding module derived from the thermophilic bacterium Clostridium thermocellum. The scaffoldin was combined with four thermophilic enzymes from Geobacillus and Caldicellulosiruptor species, each fused with a dockerin whose specificity matched one of the cohesins. We initially verified that the biochemical properties and thermal stability of the resulting chimeric enzymes were not affected by the presence of the mesophilic dockerins. Then we examined the stability of the individual single-enzyme-scaffoldin complexes and the full tetravalent cellulosome showing that all complexes are stable and functional for at least 6 h at 60 °C. Finally, within this time frame and conditions, the full complex appeared over 50 % more efficient in the hydrolysis of corn stover compared to the free enzymes. Overall, the results support the utilization of scaffoldin components of mesophilic origin at relatively high temperatures and provide a framework for the production of designer cellulosomes suitable for high temperature biorefinery applications. © 2016, Springer-Verlag Berlin Heidelberg.

Published
2016

48. List of Contributors

Author

Baeza, J.A., Barroso, M.F., Bayrak, E.S., Bazinet, L., Bhattacharjee, C., Binod, P., Brucato, A., Büchs, J., Busciglio, A., Cabassud, C., Chang, J.-S., Chen, C.-Y., Cinar, A., Costa, F., Coutte, F., Deive, F.J., Delerue-Matos, C., Delvigne, F., Dhulster, P., Du, G.C., Eibl, D., Eibl, R., Favela-Torres, E., Ferreira, A., Ferreira, E.C., Firdaous, L., Frahm, B., Ge, X., Georgiev, M., Grünberger, A., Hass, V.C., Hausmann, R., Hecker, F., Henkel, M., Hitzmann, B., Ho, S.-H., Hossain, G.S., Jossen, V., Kapel, R., Kistler, C., Kohlheyer, D., Kraume, M., Ladner, T., Lecouturier, D., Li, Y., Ling, T.-C., Liu, L., López-Santín, J., Lübbert, A., Marchev, A., Morais, S., Morchain, J., Mota, A., Nagarajan, D., Nath, A., Nouws, H.P.A., Pacheco, J.G., Pandey, A., Papagianni, M., Phong, W.-N., Platas Barradas, O., Pollard, D., Pörtner, R., Probst, C., Rocha, F., Rodríguez-Duran, L.V., Sanromán, M.Á., Saucedo-Castañeda, G., Scargiali, F., Sen, P., Show, P.-L., Silva, B., Sindhu, R., Tan, C.-H., Tavares, T., Teixeira, J.A., Torres-Mancera, M.T., Trujillo-Roldán, M.A., Valdez-Cruz, N.A., Valero, F., Vasco-Correa, J., and Veloso, A.C.

Published
2017
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