@inproceedings{dias_origem_2018, address = {Trás-os-Montes e Alto Douro, Portugal}, title = {A origem e evolução dos magmas graníticos de {Macao} à luz de dados de geoquímica elementar e isotópica / {Source} and evolution of {Macao} granitic magmas: insights from wholerock geochemistry and isotopic signatures.}, author = {Dias, Ágata and Quelhas, P and Mata, J and Lou, U T and Ribeiro, M L and Borges, R}, year = {2018}, } @inproceedings{ezeka_achieving_2010, address = {Macao SAR, China}, title = {Achieving acceptable air quality in {Macao} through sustainable transportation}, author = {Ezeka, Franklin A.N and Chan, Sek Kiu}, month = apr, year = {2010}, } @inproceedings{chan_crticial_2009, address = {Taipei, Taiwan}, title = {Crticial analysis of the policy and implementation of the environmental protection education of {Macao}}, author = {Chan, Sek Kiu and Li, Titus, Siu Pang and Ma, William}, month = nov, year = {2009}, pages = {17--31}, } @inproceedings{dias_diving_2019, address = {Macau}, title = {Diving into the unknown: robotics as tools to study the deep-sea. {Informed} {Scientific} {Sampling} in {Large}-scale {Outdoor} {Environments}}, author = {Dias, Ágata}, year = {2019}, } @inproceedings{dias_geochemistry_2019, address = {Barcelona}, title = {Geochemistry of {Fe}-{Si}-({Mn}) {Chimneys} from {Luso} {Vent} {Field}, {MAR}}, url = {https://goldschmidt.info/2019/abstracts/abstractView?id=2019003072}, author = {Dias, Ágata and Costa, P and Marques, A F and Ribeiro, L and Madureira, P and Calado, A and Gonçalves, E and Morato, T}, year = {2019}, } @inproceedings{dias_geochronological_2019, address = {Barcelona}, title = {Geochronological, geochemical and petrographic constraints on incremental pluton growth: the case of {Macao} granitic suite}, url = {https://goldschmidt.info/2019/abstracts/abstractView?id=2019004459}, author = {Dias, Ágata and Quelhas, P and Mata, J and Wayne, Davis}, year = {2019}, } @inproceedings{costa_hydrothermal_2019, address = {Hangzhou}, title = {Hydrothermal {Fe}-{Mn} deposits from low-temperature systems of the {Mid}-{Atlantic} {Ridge}}, author = {Costa, P and Dias, Ágata}, year = {2019}, } @inproceedings{vanessa_mangroves_2020, address = {Portugal}, title = {Mangroves as ecosystem services providers in an urban context: case study of {Macao}, {SAR} {China}}, publisher = {University of Porto}, author = {Vanessa, W. L. and Calheiros, Cristina S. C. and Tagulao, Karen}, year = {2020}, pages = {36}, } @inproceedings{vanessa_mangroves_2020, address = {Matosinhos}, title = {Mangroves as nature-based solution for coastal water eutrophication in {Macao}, {SAR} {China}}, isbn = {978-989-54-9650-1}, booktitle = {Blue {Think} {Conference}: {Share} {Science}, {Spread} {Knowledge}}, publisher = {CIIMAR}, author = {Vanessa, W. L. and Calheiros, Cristina S. C. and Tagulao, Karen}, year = {2020}, pages = {147}, } @inproceedings{dias_new_2017, title = {New geochemical constraints on {I}-type granites of {Macao}: evidences for fractional crystallization and petrogenetic affinities with {Jurassic}-{Cretaceous} granites in {SE} {China}}, url = {https://goldschmidtabstracts.info/2017/3248.pdf}, author = {Dias, Ágata and Quelhas, P and Mata, J and Lou, U T and Borges, R and Ribeiro, M. L}, year = {2017}, } @inproceedings{dias_ore-forming_2020, title = {Ore-{Forming} {Process} of the {Menez} {Gwen} {Hydrothermal} {Field}: \textit{{In} situ} {S} {Isotopes} and {Trace} {Metals} {Constraints}}, shorttitle = {Ore-{Forming} {Process} of the {Menez} {Gwen} {Hydrothermal} {Field}}, url = {https://goldschmidtabstracts.info/abstracts/abstractView?doi=10.46427/gold2020.2143}, doi = {10.46427/gold2020.2143}, language = {en}, urldate = {2021-03-30}, booktitle = {Goldschmidt {Abstracts}}, publisher = {Geochemical Society}, author = {Dias, Ágata and Qiu, Wenhong and Costa, Isabel Maria Amaral and Barriga, Fernando J A S}, year = {2020}, note = {0 citations (Crossref) [2022-09-21]}, pages = {2143--2143}, } @inproceedings{costa_oxyhydroxide_2020, title = {Oxyhydroxide {Hydrothermal} {Crusts} from {Saldanha} {Hydrothermal} {Field}}, url = {https://goldschmidtabstracts.info/abstracts/abstractView?doi=10.46427/gold2020.478}, doi = {10.46427/gold2020.478}, language = {en}, urldate = {2021-03-30}, booktitle = {Goldschmidt {Abstracts}}, publisher = {Geochemical Society}, author = {Costa, Pedro and Dias, Ágata}, year = {2020}, note = {0 citations (Crossref) [2022-09-21]}, pages = {478--478}, } @inproceedings{dias_petrology_2016, address = {Yokohama, Japan}, title = {Petrology and {Geochemistry} of {Granitic} {Rocks} from {Macao}}, url = {https://goldschmidtabstracts.info/2016/665.pdf}, author = {Dias, Ágata and Quelhas, P and Lou, U and Mata, J and Ribeiro, M L}, year = {2016}, } @inproceedings{relvas_replacement_2022, address = {New Zeland}, title = {Replacement or plume fallout? {Both}, please! {Evidence} from active and fossil {VMS} systems}, booktitle = {The critical role of minerals in the carbon-neutral future}, author = {Relvas, J M R S and Barriga, F and Pinto, A and Marques, A F and Carvalho, J and Dias, A Á}, year = {2022}, } @inproceedings{dias_saldanha_2015, address = {Hangzhou, China}, title = {Saldanha hydrothermal field: the role of the sediment-cover in the preservation of ore-forming minerals}, author = {Dias, Ágata and Barriga, F}, year = {2015}, } @inproceedings{cruz_sr_2014, title = {Sr and {Nd} isotopic composition of {Jan} {Mayen} and {Loki}’s {Castle}: a progress report}, author = {Cruz, M I and Marques, F A M and Dias, Ágata and Pedersen, R and Barriga, F}, year = {2014}, } @inproceedings{lei_statistical_2021, address = {Berlin, Heidelberg}, series = {Springer {Proceedings} in {Complexity}}, title = {Statistical {Methods} to {Forecast} {Air} {Quality} in {Taipa} {Ambient} and {Taipa} {Residential} of {Macao}}, isbn = {978-3-662-63760-9}, doi = {10.1007/978-3-662-63760-9_25}, abstract = {Air pollution is a major concern issue on Macao since the concentration levels of several of the most common pollutants are frequently above the internationally recommended values. The low air quality episodes impacts on human health paired with highly populated urban areas are important motivations to develop forecast methodologies in order to anticipate pollution episodes, allowing establishing warnings to the local community to take precautionary measures and avoid outdoor activities during this period. Using statistical methods (multiple linear regression (MLR) and classification and regression tree (CART) analysis) we were able to develop forecasting models for the main pollutants (NO2, PM2.5, and O3) enabling us to know the next day concentrations with a good skill, translated by high coefficients of determination (0.82–0.90) on a 95\% confidence level. The model development was based on six years of historical data, 2013 to 2018, consisting of surface and upper-air meteorological observations and surface air quality observations. The year of 2019 was used for model validation. From an initially large group of meteorological and air quality variables only a few were identified as significant dependent variables in the model. The selected meteorological variables included geopotential height, relative humidity and air temperature at different altitude levels and atmospheric stability characterization parameters. The air quality predictors used included recent past hourly levels of mean concentrations for NO2 and PM2.5 and maximum concentrations for O3. The application of the obtained models provides the expected daily mean concentrations for NO2 and PM2.5 and maximum hourly concentrations O3 for the next day in Taipa Ambient air quality monitoring stations. The described methodology is now operational, in Macao, since 2020.}, language = {en}, booktitle = {Air {Pollution} {Modeling} and its {Application} {XXVII}}, publisher = {Springer}, author = {Lei, Man Tat and Monjardino, Joana and Mendes, Luisa and Gonçalves, David and Ferreira, Francisco}, editor = {Mensink, Clemens and Matthias, Volker}, year = {2021}, note = {0 citations (Crossref) [2022-09-21]}, pages = {167--173}, } @inproceedings{dias_sub-seafloor_2020, title = {Sub-{Seafloor} {Sulfide} {Mineralization} in the {Saldanha} {Hydrothermal} {Field}, {Mid}-{Atlantic} {Ridge} ({MAR})}, url = {https://goldschmidtabstracts.info/abstracts/abstractView?doi=10.46427/gold2020.44}, doi = {10.46427/gold2020.44}, language = {en}, urldate = {2021-03-30}, booktitle = {Goldschmidt {Abstracts}}, publisher = {Geochemical Society}, author = {Dias, Ágata and Qiu, Wenhong and Barriga, Fernando J A S and Tao, Chunhui}, year = {2020}, note = {0 citations (Crossref) [2022-09-21]}, pages = {44--44}, } @inproceedings{dias_sulfide_2019, address = {Hangzhou}, title = {Sulfide mineralization of the {Saldanha} hydrothermal field ({MAR}): constraints from sulfur isotope in-situ microanalysis}, author = {Dias, Ágata and Qiu, W and Barriga, F and Tao, C}, year = {2019}, } @inproceedings{cruz_sulfide_2013, title = {Sulfide {Sites} in the {Arctic} {Ocean}: {Jan} {Mayen} and {Loki}’s {Castle}, {Mineralogical} {Magazine}}, url = {https://goldschmidtabstracts.info/abstracts/abstractView?id=2013003606}, author = {Cruz, M I and Marques, A F and Dias, Ágata and Pedersen, R and Relvas, J M R S and Barriga, F J A S}, year = {2013}, } @inproceedings{cruz_sulphide_2013, title = {Sulphide mineralization in {Arctic} seafloor hydrothermal fields: extending the {European} exploration area to the {Far} {North}}, author = {Cruz, M I and Dias, Ágata and Pedersen, R B and Relvas, J M R S and Fonseca, R and Barriga, F J A S}, year = {2013}, }