Your search keyword '"Gibert O"' showing total 16 results

1. Boundedness of Journé operators with matrix weights

Author

Domelevo, K., Kakaroumpas, S., Petermichl, S., and Soler i Gibert, O.

Published

2024

2. The role of nanofiltration modelling tools in the design of sustainable valorisation of metal-influenced acidic mine waters: The Aznalcóllar open-pit case

Author

López, J., Gibert, O., and Cortina, J.L.

Published

2023

3. MAMMOTH Massively Multilingual Modular Open Translation @ Helsinki

Author

Mickus, T, Gronroos, S, Attieh, J, Boggia, M, De Gibert, O, Ji, S, Loppi, N, Raganato, A, Vazquez, R, Tiedemann, J, Mickus T., Gronroos S. -A., Attieh J., Boggia M., De Gibert O., Ji S., Loppi N. A., Raganato A., Vazquez R., Tiedemann J., Mickus, T, Gronroos, S, Attieh, J, Boggia, M, De Gibert, O, Ji, S, Loppi, N, Raganato, A, Vazquez, R, Tiedemann, J, Mickus T., Gronroos S. -A., Attieh J., Boggia M., De Gibert O., Ji S., Loppi N. A., Raganato A., Vazquez R., and Tiedemann J.

Abstract

NLP in the age of monolithic large language models is approaching its limits in terms of size and information that can be handled. The trend goes to modularization, a necessary step into the direction of designing smaller sub-networks and components with specialized functionality. In this paper, we present the MAMMOTH toolkit: a framework designed for training massively multilingual modular machine translation systems at scale, initially derived from OpenNMT-py and then adapted to ensure efficient training across computation clusters. We showcase its efficiency across clusters of A100 and V100 NVIDIA GPUs, and discuss our design philosophy and plans for future information. The toolkit is publicly available online.

Published

2024

4. Evaluating the integration of nanofiltration membranes in advanced water reclamation schemes using synthetic solutions: From phosphorous removal to phosphorous circularity

Author

López, J., Reig, M., Licon, E., Valderrama, C., Gibert, O., and Cortina, J.L.

Published

2022

5. Dyadic lower little BMO estimates

Author

Domelevo, K., primary, Kakaroumpas, S., additional, Petermichl, S., additional, and Soler i Gibert, O., additional

Published

2023

6. Polymeric and inorganic sorbents as a green option to recover critical raw materials at trace levels from sea saltwork bitterns

Author

Vallès, V., primary, López, J., additional, Fernández de Labastida, M., additional, Gibert, O., additional, Leskinen, A., additional, Koivula, R. T., additional, and Cortina, J. L., additional

Published

2023

7. Polymeric and inorganic sorbents as a green option to recover critical raw materials at trace levels from sea saltwork bitterns.

Author

Vallεave;s, V., López, J., Fernández de Labastida, M., Gibert, O., Leskinen, A., Koivula, R. T., and Cortina, J. L.

Subjects

POLYMERIC sorbents, RAW materials, ALKALI metals, SEA level, SORBENTS, DESORPTION, ARTIFICIAL seawater

Abstract

Seawater mining is certainly a green alternative source for obtaining minerals as seawater is a natural renewable and unlimited available resource. Based on the lack of ways to obtain certain raw materials, the European Union has created the Critical Raw Materials (CRM) list. Seawater contains almost all elements, including some of those present in the CRM list, but only a few are economically feasible to be extracted as most of them are considered Trace Elements (TEs) (μg L−1). Therefore, an improvement in TEs extraction must be carried out. Saltwork brines can be considered as they are naturally concentrated (20–40 times) compared to seawater, which makes the extraction and recovery of TEs easier. Selective polymeric and inorganic sorbents were evaluated for TEs recovery (Li, B, Co, Ga, Ge, Rb, Sr, and Cs) from synthetic brines mimicking sea saltwork bitterns. Distribution coefficients were determined to characterize selectivity patterns toward TEs. Although amine and sulphonic sorbents showed low sorption of TEs, carboxylic sorbents presented good sorption and recovery for Co and Ga. Among phosphonic/phosphinic sorbents, MTX8010 achieved >98% sorption and desorption of Ga. Aminophosphonic and iminodiacetic are the best sorbents for Sr, but its desorption was incomplete. B was only sorbed by N-Methylglucamine (>98%) and N-Methylpyridine sorbents (75%), and its desorption was 37–64% and 66−>99%, respectively. SbTreat presented good performance targeting Ga and Ge, and CsTreat demonstrated high Cs uptake, but its desorption was unachieved. The most highly selective sorbents could provide the possibility of building a green option to recover critical elements for societal development in the next decade. [ABSTRACT FROM AUTHOR]

Published

2023

8. Sorption strategies for recovering critical raw materials: Extracting trace elements from saltworks brines.

Author

Vallès, V., de Labastida, M. Fernández, Gibert, O., Leskinen, A., Koivula, R.T., López, J., and Cortina, J.L.

Subjects

POLYMERIC sorbents, TRACE elements, GALLIUM, CIRCULAR economy, RAW materials, RUBIDIUM

Abstract

Rising population, industrialisation, and resource demand intensify resource limitations, particularly critical for European Union (EU) industries dependent on raw materials. Based on economic importance and supply risk, 32 Critical Raw Materials (CRMs) and two strategic raw materials were identified in 2023. With most CRMs sourced outside the EU, sea mining emerges as a promising secondary resource for CRMs extraction from seawater, although the harvest of Trace Elements (TEs) will require energy-intensive processes. Several EU-funded projects explore circular economy and resource recovery, considering sorption methods' potential to extract TEs from brines. Commercial polymeric (IRC747, S940, MTX8010) and inorganic (SbTreat, SrTreat) sorbents, plus another synthesised inorganic one (CuHCF), were assessed for recovering TEs (cobalt, gallium, germanium, rubidium, strontium, caesium) from saltworks brines (bitterns). Polymeric sorbents, containing chelating functional groups, effectively targeted cobalt, gallium, and strontium, commercial inorganic sorbents favoured cobalt, gallium, germanium and strontium, and CuHCF targeted rubidium and caesium. Kinetic batch experiments demonstrated rapid element retention (≤30 min) by most sorbents. In dynamic column experiments, high sorption capacities were observed for cobalt and gallium with the polymeric sorbents, particularly for aminophosphonic sorbents (IRC747 and S940) (≥2.1 mg/g). SrTreat exhibited also a high sorption capacity of 7 mg/g for strontium, SbTreat achieved 20 mg/g for gallium and germanium and CuHCF retained rubidium (10 mg/g) and caesium (70 mg/g). Acidic desorption effectively recovered (>70 %) most of the elements from the sorbents, achieving concentration factors up to 708 for cobalt with IRC747 and S940, highlighting the potential valorisation of saltworks bitterns. [Display omitted] • Saltworks' waste brines as a sustainable secondary resource. • Sorption methods explored for Trace Elements recovery. • Dynamic column experiments reveal high sorption capacities. • Concentration factors up to 708 for Co after elution with 1 M HCl. • Synthesised CuHCF targets Rb and Cs successfully. [ABSTRACT FROM AUTHOR]

Published

2024

9. Sustainable urban water management: Evaluating two pilot-scale advanced decentralized treatment systems for removal of organic contaminants of emerging concern in reclaimed groundwater.

Author

Abenza M, Labad F, Gibert O, de Pablo J, Pérez S, Vázquez-Suñé E, and Teixidó M

Subjects

Urban Population, Spain, Water Purification methods, Water Purification standards, Groundwater chemistry, Organic Chemicals analysis

Abstract

The rapid growth of population and the effects of climate change have placed unprecedented pressure on urban water supplies and pollution control. Consequently, it is essential to explore new local water resources in water-strained areas. To this end, this work focuses on evaluating pollutant removal effectiveness of decentralized treatment systems for groundwater reclamation. Two pilot-scale treatment trains, Treatment Line 1 (L1) and Treatment Line 2 (L2), which use membrane-free (with granulated activated carbon as the main process) or membrane-based (with reverse osmosis as the primary technology), were compared for their effectiveness in reducing concentrations of organic contaminants of emerging concern (CECs). Additionally, the effect of sodium hypochlorite addition for biofilm control on the contaminant removal performance was also examined. Results from the analysis of nearly 120 trace organic compounds (only 21 were detected in the raw water) showed that L2 significantly overperformed L1. Furthermore, the addition of a pre-chlorination step did not improve the removal performance. Regarding trace organic compounds, L1 without pre-chlorination averaged an overall good removal performance (94 ± 12%). However, Irbesartan, gemfibrozil and gabapentin showed moderate removals (50-90%) and Valsartan was poorly removed (<50%). After pre-chlorinating L1, the overall removal performance decreased (86 ± 20%). Nearly one third of the target contaminants showed moderate removal (50-90%), with Irbesartan and Valsartan exhibiting poor attenuations (<50%), highlighting that negatively-charged compounds were challenging to eliminate. In contrast, L2 exhibited very high removals (>99%) on all studied trace organic contaminants regardless of pre-chlorination. Our study also identified several indicator compounds to monitor CEC removal. Finally, considering the trade-offs between cost and final water use (non-potable), L1-based schemes with intermittent pre-chlorination could be the preferred implementation option. The results of this work will offer valuable insights into decentralized treatment systems, assisting decision-makers in choosing suitable approaches for sustainable urban water management., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Misael Abenza reports financial support was provided by Government of Catalonia Agency for Administration of University and Research Grants. Marc Teixido reports financial support was provided by Government of Catalonia Agency for Administration of University and Research Grants. Francesc Labad reports financial support was provided by State Agency of Research. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier Ltd.)

Published

2024

10. Combining modeling and experimental approaches for developing rice-oil palm agroforestry systems.

Author

Perez RPA, Vezy R, Bordon R, Laisné T, Roques S, Rebolledo MC, Rouan L, Fabre D, Gibert O, and De Raissac M

Subjects

Forestry methods, Agriculture methods, Models, Biological, Crops, Agricultural growth & development, Crops, Agricultural physiology, Oryza growth & development, Oryza physiology, Arecaceae growth & development, Arecaceae physiology

Abstract

Monoculture systems in South East Asia are facing challenges due to climate change-induced extreme weather conditions, leading to significant annual production losses in rice and oil palm. To ensure the stability of these crops, innovative strategies like resilient agroforestry systems need to be explored. Converting oil palm (Elaeis guineensis) monocultures to rice (Oryza sativa)-based intercropping systems shows promise, but achieving optimal yields requires adjusting palm density and identifying rice varieties adapted to changes in light quantity and diurnal fluctuation. This paper proposes a methodology that combines a model of light interception with indoor experiments to assess the feasibility of rice-oil palm agroforestry systems. Using a functional-structural plant model of oil palm, the planting design was optimized to maximize transmitted light for rice. Simulation results estimated the potential impact on oil palm carbon assimilation and transpiration. In growth chambers, simulated light conditions were replicated with adjustments to intensity and daily fluctuation. Three light treatments independently evaluated the effects of light intensity and fluctuation on different rice accessions. The simulation study revealed intercropping designs that significantly increased light transmission for rice cultivation with minimal decrease in oil palm densities compared with conventional designs. The results estimated a loss in oil palm productivity of less than 10%, attributed to improved carbon assimilation and water use efficiency. Changes in rice plant architecture were primarily influenced by light quantity, while variations in yield components were attributed to light fluctuations. Different rice accessions exhibited diverse responses to light fluctuations, indicating the potential for selecting genotypes suitable for agroforestry systems., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Society for Experimental Biology. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

11. In situ dynamic rheological analysis of raw yam tubers: a potential phenotyping tool for quality evaluation.

Author

Otegbayo BO, Tran T, Ricci J, and Gibert O

Subjects

Starch chemistry, Starch analysis, Quality Control, Dioscorea chemistry, Rheology, Plant Tubers chemistry, Phenotype

Abstract

Background: Most rheological analyses in yam have been done on starch gels, which requires starch extraction from the tubers. In situ rheology bypasses the need of starch extraction and relies on the original cell structure and complex matrix organization under stress or strain. Dynamic rheological properties of tuber from 16 accessions belonging to four yam species (Dioscorea rotundata, D. alata. D. bulbifera and D. dumetorum) were investigated for potential use as a medium throughput phenotyping screening tool that can indicate the quality of yam food products or their industrial potentials., Results: Rheographs of the tubers illustrated differences in the structure of D. bulbifera compared to other yam species. High initial storage modulus (G') of yam parenchyma indicated tubers with strong and rigid structure which do not lose their structural integrity easily on heating. Dioscorea rotundata and D. alata varieties exhibited a lower temperature at which gelatinization took place (T gel ) equivalent to the irreversible transition during starch gelatinization (75.3 and 79.8 °C) and took shorter time (867 and 958 s, respectively) to reach the G' maximum, compared to other species. The stress relaxation test showed that the higher the dry matter of the tubers, the higher the work to rupture the structure., Conclusion: Rheological characteristics G', loss modulus (G″), swelling capacity and T gel showed potential as suitable quality indicators for yam products. In situ rheological characterization of yam tubers could be used as an instrumental screening tool to phenotype for quality in yam products. © 2023 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry., (© 2023 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.)

Published

2024

12. New insights into the rapid germination process of lentil and cowpea seeds: High thiamine and folate, and low α-galactoside content.

Author

Avezum L, Madode YE, Mestres C, Achir N, Delpech C, Chapron M, Gibert O, Rajjou L, and Rondet E

Subjects

Folic Acid, Thiamine, Seeds, Galactosides, Germination, Lens Plant, Vigna

Abstract

During germination sensu-stricto in pulses, an increase in the content of thiamine (B1) and folate (B9) vitamins is expected, along with a reduction in α-galactoside levels. The aim of our study was to optimize germination to increase the nutritional quality of lentils and cowpeas. An experimental design was carried out at 12 h and 24 h of imbibition to analyze the effects of temperature, light, and water content on thiamine, folate, and α-galactoside content. Germination increased thiamine content by 152% in lentils, while in cowpeas, the increase was only 10%. Folate content in cowpea increased by 33%, while α-galactoside content decreased by 99% in cowpeas and by 48% in lentils. Germination sensu-stricto can be safely implemented by any food company worldwide as it is simple and involves less sanitary risk than sprouting. This opens up opportunities for enhancing food nutrient content and new ways of processing pulses., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2024

13. Thermal Properties and Dynamic Rheological Characterization of Dioscorea Starch Gels.

Author

Otegbayo BO, Tanimola AR, Ricci J, and Gibert O

Abstract

Yam ( Dioscorea . sp.) is an edible starchy tuber with potential for being a commercial source of starch for industrial purposes, but yam starch is underutilized. The dynamic oscillatory and thermal properties of yam starches from sixteen varieties each of Dioscorea. rotundata , Dioscora. alata , Dioscorea. bulbifera and one variety of Dioscorea. dumetorum from Nigeria were studied to determine their potential for industrial utilization. The storage modulus, loss modulus, damping factor and complex viscosity as a function of frequency (ω) of the dioscorea gels, as well as the onset temperature ( T o ), peak gelatinization temperature ( T p ), end of gelatinization ( T C ), and gelatinization enthalpy of the starches were determined by standard procedures. Results showed that all the dioscorea starches showed a typical elastic behavior with the magnitude of G' greater than G″ while tan δ < 1 in all varieties. Thus, the starch gels were more elastic than viscous. All the starch gels exhibited shear thinning characteristics and showed frequency (ω) independence characteristics of weak gels. D. rotundata varieties had the lowest ∆ H gel , while D. bulbifera varieties had the highest. The diversity of the visco-elastic and thermal properties of the yam starch gels from different varieties and species can be an advantage in their utilization in both food and non-food industries.

Published

2024

14. High-frequency synthetic apomixis in hybrid rice.

Author

Vernet A, Meynard D, Lian Q, Mieulet D, Gibert O, Bissah M, Rivallan R, Autran D, Leblanc O, Meunier AC, Frouin J, Taillebois J, Shankle K, Khanday I, Mercier R, Sundaresan V, and Guiderdoni E

Subjects

Plants genetics, Seeds genetics, Mutation, Oryza genetics, Apomixis genetics

Abstract

Introducing asexual reproduction through seeds - apomixis - into crop species could revolutionize agriculture by allowing F1 hybrids with enhanced yield and stability to be clonally propagated. Engineering synthetic apomixis has proven feasible in inbred rice through the inactivation of three genes (MiMe), which results in the conversion of meiosis into mitosis in a line ectopically expressing the BABYBOOM1 (BBM1) parthenogenetic trigger in egg cells. However, only 10-30% of the seeds are clonal. Here, we show that synthetic apomixis can be achieved in an F1 hybrid of rice by inducing MiMe mutations and egg cell expression of BBM1 in a single step. We generate hybrid plants that produce more than 95% of clonal seeds across multiple generations. Clonal apomictic plants maintain the phenotype of the F1 hybrid along successive generations. Our results demonstrate that there is no barrier to almost fully penetrant synthetic apomixis in an important crop species, rendering it compatible with use in agriculture., (© 2022. The Author(s).)

Published

2022

15. Removal of nitrate and pesticides from groundwater by nano zero-valent iron injection pulses under biostimulation and bioaugmentation scenarios in continuous-flow packed soil columns.

Author

Gibert O, Sánchez D, and Cortina JL

Subjects

Dieldrin, Hexachlorocyclohexane, Iron, Nitrates, Nitrogen Oxides, Soil, Groundwater, Pesticides, Water Pollutants, Chemical

Abstract

This study evaluates the NO 3 - removal from groundwater through Heterotrophic Denitrification (HDN) (promoted by the addition of acetate and/or an inoculum rich in denitrifiers) and Abiotic Chemical Nitrate Reduction (ACNR) (promoted by pulse injection of zerovalent iron nanoparticles (nZVI)). HDN and ACNR were applied, separately or combined, in packed soil column experiments to complement the scarce research on pulse-injected nZVI in continuous-flow systems mimicking a Well-based Denitrification Barrier. Together with NO 3 - , the removal of two common pesticides (dieldrin and lindane) was evaluated. Results showed that total NO 3 - removal (>97%) could be achieved by either bioestimulation with acetate (converting NO 3 - to N 2 (g) via HDN) or by injecting nZVI (removing NO 3 - via ACNR). In the presence of nZVI, NO 3 - was partially converted to N 2 (g) and to a lower extent NO 2 - , with unreacted NO 3 - being likely adsorbed onto Fe-(oxy)hydroxides. Combination of both HDN and ACNR resulted in even a higher NO 3 - removal (>99%). Interestingly, nZVI did not seem to pose any toxic effect on denitrifiers. These results showed that both processes can be alterned or combined to take advantage of the benefits of each individual process while overcoming their disadvantages if applied alone. With regard to the target pesticides, the removal was high for dieldrin (>93%) and moderate for lindane (38%), and it was not due to biodegradation but to adsorption onto soil. When nZVI was applied, the removal increased (generally >91%) due to chemical degradation by nZVI and/or adsorption onto formed Fe-(oxy)hydroxides., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2022

16. Removal of nitrate from groundwater by nano-scale zero-valent iron injection pulses in continuous-flow packed soil columns.

Author

Gibert O, Abenza M, Reig M, Vecino X, Sánchez D, Arnaldos M, and Cortina JL

Subjects

Iron, Nitrates analysis, Soil, Environmental Restoration and Remediation, Groundwater, Water Pollutants, Chemical analysis

Abstract

Injection of zero-valent iron nanoparticles (nZVI) into aquifers has gained increasing attention of researchers for in-situ treatment of NO 3 - -contaminated groundwater. nZVI has proved efficient in chemically reducing NO 3 - and, according to recent research efforts, in supporting biological denitrification under favoured conditions. Given the scarce research on nZVI pulsed injection in continuous-flow systems, the objective of this study was to evaluate the effect of nZVI pulses on the removal of NO 3 - from groundwater in packed soil columns and, more particularly, to elucidate whether or not biotic NO 3 - removal processes were promoted by nZVI. Three identical columns were filled with aquifer soil samples and fed with the same nitrate polluted groundwater but operated under different conditions: (A) with application of nZVI pulses and biocide spiked in groundwater, (B) without application of nZVI pulses and (C) with application of nZVI pulses. Results showed that the application of nZVI (at 30 mg/L and 78 mg/L doses) resulted in an immediate and sharp removal of NO 3 - (88-94%), accompanied by an increase in pH (from 7.0 to 9.0-10.0), a drop in redox potential (Eh) (from +420 mV to <100 mV) and a release of Fe(II) and Total Organic Carbon (TOC) in the effluent (to 200 mg/L and 150-200 mg/L, respectively). The released TOC came from the organic polymer used as stabilizer of the nZVI particles. Comparison against the sterilized control column revealed that, under the experimental conditions, no biological denitrification developed and that the removal of NO 3 - was due to chemical reduction by nZVI. The main by-product of the NO 3 - removal was NH 4 + , which at the prevailing pH was partially converted to NH 3 , which dissipated from the aqueous solution resulting in a net removal of total dissolved N. A mass balance of Fe permitted to quantify the percentage of injected nZVI trapped in the column (>98%) and the NO 3 - retention capacity of the nZVI particles (13.2-85.5 mg NO 3 - /g nZVI)., Competing Interests: Declaration of competing interest Hereby, the authors declare that the content of this article is subject to no conflict of interest., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2022