2025
|
| 1. | J. C. Antuña-Marrero; R. Román; V. E. Cachorro; D. Mateos; C. Toledano; A. Calle; J. C. Antuña-Sánchez; R. Gonzalez; M. Antón; J. Vaquero-Martínez; Á. M. Frutos Baraja Comparing Integrated Water Vapor Sun Photometer Observations Over the Arctic With ERA5 and MERRA-2 Reanalyses Journal Article In: Journal of Geophysical Research: Atmospheres, vol. 130, no. 6, pp. e2024JD041120, 2025, (e2024JD041120 2024JD041120). @article{https://doi.org/10.1029/2024JD041120,
title = {Comparing Integrated Water Vapor Sun Photometer Observations Over the Arctic With ERA5 and MERRA-2 Reanalyses},
author = {J. C. Antuña-Marrero and R. Román and V. E. Cachorro and D. Mateos and C. Toledano and A. Calle and J. C. Antuña-Sánchez and R. Gonzalez and M. Antón and J. Vaquero-Martínez and Á. M. Frutos Baraja},
url = {https://agupubs.onlinelibrary.wiley.com/doi/abs/10.1029/2024JD041120},
doi = {https://doi.org/10.1029/2024JD041120},
year = {2025},
date = {2025-01-01},
urldate = {2025-01-01},
journal = {Journal of Geophysical Research: Atmospheres},
volume = {130},
number = {6},
pages = {e2024JD041120},
abstract = {Abstract Atmospheric water vapor, a greenhouse gas, is increasing in the Arctic. It is a scientific challenge to understand the causes for this increase and determine adaptation and mitigation actions to confront its climatic effects. During the last decades, spatial and temporal coverage of water vapor satellite observations increased notably, and reanalysis water vapor estimates have steadily improved. However, the scarce spatial and temporal coverage in the Arctic of integrated water vapor (IWV) surface-based observations limits the representativeness of satellite observations and reanalysis estimate validations. Recently, we validated sun photometer IWV (IWVsp) observations with IWV from radiosondes in the Arctic. Here, we compare the hourly means of IWVsp from 13 Arctic AERONET stations and the IWV from ERA-5 and MERRA-2 reanalyses. The comparison is conducted at hourly timescale for individual stations for two Arctic regions and for the whole Arctic. The comparison showed a moist bias of IWV from reanalyses with respect to IWVsp. The individual station wise pattern shows slightly better accuracy and precision for ERA5 than for MERRA-2 also evident at the selected subregional scale. The differences of IWV from ERA5 and MERRA-2 and IWVsp show no dependence on IWVsp nor the solar zenith angle. This study corroborates that IWVsp may be used for validations of satellite IWV observations and IWV reanalyses products.},
note = {e2024JD041120 2024JD041120},
keywords = {AERONET, Arctic, Integrated water vapor, reanalysis, sunphotometer},
pubstate = {published},
tppubtype = {article}
}
Abstract Atmospheric water vapor, a greenhouse gas, is increasing in the Arctic. It is a scientific challenge to understand the causes for this increase and determine adaptation and mitigation actions to confront its climatic effects. During the last decades, spatial and temporal coverage of water vapor satellite observations increased notably, and reanalysis water vapor estimates have steadily improved. However, the scarce spatial and temporal coverage in the Arctic of integrated water vapor (IWV) surface-based observations limits the representativeness of satellite observations and reanalysis estimate validations. Recently, we validated sun photometer IWV (IWVsp) observations with IWV from radiosondes in the Arctic. Here, we compare the hourly means of IWVsp from 13 Arctic AERONET stations and the IWV from ERA-5 and MERRA-2 reanalyses. The comparison is conducted at hourly timescale for individual stations for two Arctic regions and for the whole Arctic. The comparison showed a moist bias of IWV from reanalyses with respect to IWVsp. The individual station wise pattern shows slightly better accuracy and precision for ERA5 than for MERRA-2 also evident at the selected subregional scale. The differences of IWV from ERA5 and MERRA-2 and IWVsp show no dependence on IWVsp nor the solar zenith angle. This study corroborates that IWVsp may be used for validations of satellite IWV observations and IWV reanalyses products. |
2024
|
| 2. | S. Herrero-Anta; D. Mateos; S. Graßl; C. Ritter; S. Gilardoni; M. Mazzola; K. Stebel; S. Eckhardt; C. Herrero del Barrio; D. González-Fernández; R. Román; C. Toledano Exceptional aerosol load observed in the arctic during summer 2019 Conference Oral presentation RICTA - 8th Iberian Meeting on Aerosol Science and Technology A Coruña, Spain, 2024. @conference{Herrero-Anta2024e,
title = {Exceptional aerosol load observed in the arctic during summer 2019},
author = {S. Herrero-Anta and D. Mateos and S. Graßl and C. Ritter and S. Gilardoni and M. Mazzola and K. Stebel and S. Eckhardt and C. Herrero del Barrio and D. González-Fernández and R. Román and C. Toledano},
year = {2024},
date = {2024-06-28},
address = {A Coruña, Spain},
organization = {RICTA - 8th Iberian Meeting on Aerosol Science and Technology},
series = {Oral presentation},
keywords = {Arctic, biomass burning},
pubstate = {published},
tppubtype = {conference}
}
|
| 3. | S. Herrero-Anta; C. Herrero del Barrio; D. Mateos; R. Román; D. González-Fernández; R. González; C. Toledano; V.E. Cachorro; A. Calle; Á.M. de Frutos Caracterización de eventos de alta turbiedad por fotometría solar en el Ártico europeo entre 2017-2020 y su correspondiente efecto radiativo Conference Poster presentation X Simposio de estudios polares 15-17 May 2024 Salamanca, Spain, 2024. @conference{Herrero-Anta2024c,
title = {Caracterización de eventos de alta turbiedad por fotometría solar en el Ártico europeo entre 2017-2020 y su correspondiente efecto radiativo},
author = {S. Herrero-Anta and C. Herrero del Barrio and D. Mateos and R. Román and D. González-Fernández and R. González and C. Toledano and V.E. Cachorro and A. Calle and Á.M. de Frutos},
year = {2024},
date = {2024-05-15},
urldate = {2024-05-15},
address = {Salamanca, Spain},
organization = {X Simposio de estudios polares 15-17 May 2024},
series = {Poster presentation},
keywords = {aerosol events, Arctic, Radiative forcing, sun photometry},
pubstate = {published},
tppubtype = {conference}
}
|
| 4. | S. Herrero-Anta; C. Herrero del Barrio; D. Mateos; R. Román; C. Ritter; D. González-Fernández; R. González; C. Toledano; V.E. Cachorro; A. Calle; Á.M. de Frutos Aerosol properties retrieved under high turbidity conditions and the corresponding aerosol radiative effect in the European Arctic in the period 2017-2022 by sun photometry Conference Poster presentation ACTRIS Science Conference 13-16 May 2024 Rennes, France, 2024. @conference{Herrero-Anta2024d,
title = {Aerosol properties retrieved under high turbidity conditions and the corresponding aerosol radiative effect in the European Arctic in the period 2017-2022 by sun photometry},
author = {S. Herrero-Anta and C. Herrero del Barrio and D. Mateos and R. Román and C. Ritter and D. González-Fernández and R. González and C. Toledano and V.E. Cachorro and A. Calle and Á.M. de Frutos},
year = {2024},
date = {2024-05-13},
urldate = {2024-05-13},
address = {Rennes, France},
organization = {ACTRIS Science Conference 13-16 May 2024},
series = {Poster presentation},
keywords = {aerosol events, Arctic, Radiative forcing, sun photometry},
pubstate = {published},
tppubtype = {conference}
}
|
| 5. | S. Herrero-Anta; D. Mateos; R. Román; D. González-Fernández; C. Herrero del Barrio; R. González; C. Toledano; V.E. Cachorro; A. Calle; Á.M. de Frutos Identificación de eventos de alta turbiedad de aerosol en el Ártico europeo mediante fotometría solar Conference Oral presentation 10 Jonadas de Investigadoras de Castilla y León, 18-19 Apr 2024 Valladolid, Spain, 2024. @conference{Herrero-Anta2024b,
title = {Identificación de eventos de alta turbiedad de aerosol en el Ártico europeo mediante fotometría solar},
author = {S. Herrero-Anta and D. Mateos and R. Román and D. González-Fernández and C. Herrero del Barrio and R. González and C. Toledano and V.E. Cachorro and A. Calle and Á.M. de Frutos},
year = {2024},
date = {2024-04-18},
urldate = {2024-04-18},
address = {Valladolid, Spain},
organization = {10 Jonadas de Investigadoras de Castilla y León, 18-19 Apr 2024},
series = {Oral presentation},
keywords = {aerosol events, Arctic, sun photometry},
pubstate = {published},
tppubtype = {conference}
}
|
| 6. | S. Herrero-Anta Identification of high turbidity aerosol events in the Arctic by sun-photometry: A case of study in Ny-Ålesund, Svalbard Conference Oral presentation. 8th High Latitude Dust Workshop, 13-14 Feb 2024 Reikjavik, Iceland, 2024. @conference{Herrero-Anta2024,
title = {Identification of high turbidity aerosol events in the Arctic by sun-photometry: A case of study in Ny-Ålesund, Svalbard },
author = {S. Herrero-Anta},
year = {2024},
date = {2024-02-13},
address = {Reikjavik, Iceland},
organization = {8th High Latitude Dust Workshop, 13-14 Feb 2024},
series = {Oral presentation.},
keywords = {aerosol events, Arctic, Ny-Alesund, sun photometry},
pubstate = {published},
tppubtype = {conference}
}
|
2022
|
| 7. | G.H. Hansen; T. Zielinski; P. Pakszys; C. Ritter; S. Gilardoni; K. Eleftheriadis; N. Kouremeti; D. Mateos; S. Herrero; S. Kazadzis; M. Mazzola; K. Stebel Re-evaluation and Homogenization of Aerosol Optical Depth Observations in Svalbard (ReHearsol) Technical Report 2022, ISBN: 978-82-425-3073-8. @techreport{Hansen2022,
title = {Re-evaluation and Homogenization of Aerosol Optical Depth Observations in Svalbard (ReHearsol)},
author = {G.H. Hansen and T. Zielinski and P. Pakszys and C. Ritter and S. Gilardoni and K. Eleftheriadis and N. Kouremeti and D. Mateos and S. Herrero and S. Kazadzis and M. Mazzola and K. Stebel},
isbn = {978-82-425-3073-8},
year = {2022},
date = {2022-02-21},
abstract = {The aim of this project was to collect, integrate and analyse observations of climate-relevant aerosol parameters (aerosol
optical depth (AOD), Ångstrøm exponent (AE), black carbon (BC)) in and around Svalbard. These observations have been
performed at different places and with different instrument types, the analysis procedures of which follow different
protocols.
Annual merged datasets of AOD, AE and BC have been provided to the SIOS Data Management System and are now
available for network-wide use in, e.g., Arctic climate and pollution studies. The analysis of the 2002-2020 data have
confirmed earlier results showing a good correlation between measurements in Ny-Ålesund and Hornsund, but not a high
degree of short-term agreement due to aerosol variability arising from geographical locations and local conditions. There is
also a clear link between the columnar AOD/AE-measurements and in-situ aerosol measurements at Gruvebadet
Observatory, while a comparison of in-situ measurements at Gruvebadet and Zeppelin Observatory shows deviations
varying with season.},
keywords = {aerosol, Arctic, SIOS},
pubstate = {published},
tppubtype = {techreport}
}
The aim of this project was to collect, integrate and analyse observations of climate-relevant aerosol parameters (aerosol
optical depth (AOD), Ångstrøm exponent (AE), black carbon (BC)) in and around Svalbard. These observations have been
performed at different places and with different instrument types, the analysis procedures of which follow different
protocols.
Annual merged datasets of AOD, AE and BC have been provided to the SIOS Data Management System and are now
available for network-wide use in, e.g., Arctic climate and pollution studies. The analysis of the 2002-2020 data have
confirmed earlier results showing a good correlation between measurements in Ny-Ålesund and Hornsund, but not a high
degree of short-term agreement due to aerosol variability arising from geographical locations and local conditions. There is
also a clear link between the columnar AOD/AE-measurements and in-situ aerosol measurements at Gruvebadet
Observatory, while a comparison of in-situ measurements at Gruvebadet and Zeppelin Observatory shows deviations
varying with season. |
| 8. | Juan Carlos Antuña-Marrero; Roberto Román; Victoria E. Cachorro; David Mateos; Carlos Toledano; Abel Calle; Juan Carlos Antuña-Sánchez; Javier Vaquero-Martínez; Manuel Antón; Ángel M. Frutos Baraja Integrated water vapor over the Arctic: Comparison between radiosondes and sun photometer observations Journal Article In: Atmospheric Research, vol. 270, pp. 106059, 2022, ISSN: 0169-8095. @article{Antuña-Marrero2022,
title = {Integrated water vapor over the Arctic: Comparison between radiosondes and sun photometer observations},
author = {Juan Carlos Antuña-Marrero and Roberto Román and Victoria E. Cachorro and David Mateos and Carlos Toledano and Abel Calle and Juan Carlos Antuña-Sánchez and Javier Vaquero-Martínez and Manuel Antón and Ángel M. Frutos Baraja},
url = {https://www.sciencedirect.com/science/article/pii/S016980952200045X},
doi = {https://doi.org/10.1016/j.atmosres.2022.106059},
issn = {0169-8095},
year = {2022},
date = {2022-02-02},
urldate = {2022-01-01},
journal = {Atmospheric Research},
volume = {270},
pages = {106059},
abstract = {The amplification of global warming because of the feedbacks associated with the increase in atmospheric moisture and the decrease in sea ice and snow cover in the Arctic is currently the focus of scientists, policy makers and society. The amplification of global warming is the response to increases in precipitation originally caused by climate change. Arctic predominant increases in specific humidity and precipitation have been documented by observations. In comparison, evapotranspiration in the Arctic is poorly known, in part, because the spatial and temporal sparsity of accurate in situ and remote sensing observations. Although more than 20 observations sites in the Arctic are available, where AERONET sun photometer integrated water vapor (IWV) measurements have been conducted, that information have been barely used. Here, we present a comparison of IWV observations from radiosondes and AERONET sun photometers at ten sites located across the Arctic with the goal to document the feasibility of that set of observations to contribute to the ongoing and future research on polar regions. Sun photometer IWV observations are averaged for three-time windows; 30 min, 6 and 24 h. The predominant dry bias of AERONET IWV observations with respect to radiosondes, identified at tropical and midlatitudes, is also present in the Arctic. The statistics of the comparison show robust results at eight of the ten sites, with precision and accuracy magnitudes below 8 and 2% respectively. The possible causes of the less robust results at the other two sites are discussed. In addition, the impact of selecting other temporal coincidence windows in the average sun photometer IWV used in the comparison were tested. Auto-correlation in diurnal sun photometer IWV could produce appreciable bias in the statistics used for the comparison. We suggest using only one pair of values per day, consisting in the daily mean IWV sun photometer and the IWV radiosonde observation value. This feature should be valid also for comparison of IWV from sun photometer and other instruments. Maximum 10% error level of IWV from sun photometer observations, when compared with radiosondes, have been found for the Arctic. It is in the same order of magnitude than at tropical and middle latitudes locations. It has been demonstrated the feasibility of AERONET IWV observations in the Arctic for research on this variable. AERONET standard instruments and its centralized-standard processing algorithm allow its IWV observations to be considered a relative standard dataset for the re-calibration of other instrumental IWV observations assuming radiosondes as the absolute standard dataset.},
keywords = {AERONET, Arctic, Integrated water vapor, radiosonde, Sun photometer},
pubstate = {published},
tppubtype = {article}
}
The amplification of global warming because of the feedbacks associated with the increase in atmospheric moisture and the decrease in sea ice and snow cover in the Arctic is currently the focus of scientists, policy makers and society. The amplification of global warming is the response to increases in precipitation originally caused by climate change. Arctic predominant increases in specific humidity and precipitation have been documented by observations. In comparison, evapotranspiration in the Arctic is poorly known, in part, because the spatial and temporal sparsity of accurate in situ and remote sensing observations. Although more than 20 observations sites in the Arctic are available, where AERONET sun photometer integrated water vapor (IWV) measurements have been conducted, that information have been barely used. Here, we present a comparison of IWV observations from radiosondes and AERONET sun photometers at ten sites located across the Arctic with the goal to document the feasibility of that set of observations to contribute to the ongoing and future research on polar regions. Sun photometer IWV observations are averaged for three-time windows; 30 min, 6 and 24 h. The predominant dry bias of AERONET IWV observations with respect to radiosondes, identified at tropical and midlatitudes, is also present in the Arctic. The statistics of the comparison show robust results at eight of the ten sites, with precision and accuracy magnitudes below 8 and 2% respectively. The possible causes of the less robust results at the other two sites are discussed. In addition, the impact of selecting other temporal coincidence windows in the average sun photometer IWV used in the comparison were tested. Auto-correlation in diurnal sun photometer IWV could produce appreciable bias in the statistics used for the comparison. We suggest using only one pair of values per day, consisting in the daily mean IWV sun photometer and the IWV radiosonde observation value. This feature should be valid also for comparison of IWV from sun photometer and other instruments. Maximum 10% error level of IWV from sun photometer observations, when compared with radiosondes, have been found for the Arctic. It is in the same order of magnitude than at tropical and middle latitudes locations. It has been demonstrated the feasibility of AERONET IWV observations in the Arctic for research on this variable. AERONET standard instruments and its centralized-standard processing algorithm allow its IWV observations to be considered a relative standard dataset for the re-calibration of other instrumental IWV observations assuming radiosondes as the absolute standard dataset. |
2018
|
| 9. | C. Toledano; M. Gausa; C. Velasco; S. Blindheim; R. Román; I. Hanssen; D. Mateos; M. Herreras; R. González; A. Calle; V. E. Cachorro; A. M. de Frutos Sun photometer and lidar collocated aerosol measurements at ALOMAR: a long-term comparison Conference ISF Kiruna, Sweden, 2018, (45th Annual European Meeting on Atmospheric Studies by Optical Methods). @conference{Toledano2018b,
title = {Sun photometer and lidar collocated aerosol measurements at ALOMAR: a long-term comparison},
author = {C. Toledano and M. Gausa and C. Velasco and S. Blindheim and R. Román and I. Hanssen and D. Mateos and M. Herreras and R. González and A. Calle and V. E. Cachorro and A. M. de Frutos},
year = {2018},
date = {2018-08-27},
address = {Kiruna, Sweden},
organization = {ISF},
note = {45th Annual European Meeting on Atmospheric Studies by Optical Methods},
keywords = {Arctic},
pubstate = {published},
tppubtype = {conference}
}
|
2017
|
| 10. | S. Mogo; E. Conceição; R. Zocca; A. Barroso; R. Monteiro; V. Cachorro In situ characterization of aerosol particles at the ALOMAR station, Andenes, Norway Conference Covilhã, Portugal, 2017, (9a Conferência Portuguesa de Ciências Polares). @conference{MogoetalPOLAR2017,
title = {In situ characterization of aerosol particles at the ALOMAR station, Andenes, Norway},
author = {S. Mogo and E. Conceição and R. Zocca and A. Barroso and R. Monteiro and V. Cachorro},
year = {2017},
date = {2017-11-06},
address = {Covilhã, Portugal},
note = {9a Conferência Portuguesa de Ciências Polares},
keywords = {Arctic, POLARUBI, SEM},
pubstate = {published},
tppubtype = {conference}
}
|
| 11. | David Mateos; Cristian Velasco-Merino; Chritoph Ritter; Carlos Toledano; Roland Neuber; Victoria E. Cachorro; Ramiro González; Marcos Herreras; Sergio Retuerto; Carmen Oraá; Santiago M. Goizueta; Ángel M. de Frutos Starting of new Sun-Sky-Lunar photometer aerosol observations in the Artic Ny-Ålesund base Conference Research Council of Norway & Svalbard Science Forum Oslo, Norway, 2017, (Svalbard Science Conference). @conference{Mateos2017,
title = {Starting of new Sun-Sky-Lunar photometer aerosol observations in the Artic Ny-Ålesund base },
author = {David Mateos; Cristian Velasco-Merino; Chritoph Ritter; Carlos Toledano; Roland Neuber; Victoria E. Cachorro; Ramiro González; Marcos Herreras; Sergio Retuerto; Carmen Oraá; Santiago M. Goizueta; Ángel M. de Frutos},
year = {2017},
date = {2017-11-06},
address = {Oslo, Norway},
organization = {Research Council of Norway & Svalbard Science Forum},
note = {Svalbard Science Conference},
keywords = {?ngström exponent, aerosol optical depth, Arctic},
pubstate = {published},
tppubtype = {conference}
}
|
| 12. | S. Mogo; E. Conceição; R. Rocca; A. Barroso; R. Monteiro; V. Cachorro Preliminary results of the POLARUBI 2016 and 2017 field campaigns – morphological characterization of aerosol particles at the ALOMAR station, Andenes, Norway Conference Universitat Politècnica de Catalunya Barcelona, Spain, 2017, (44th Annual European Meeting on Atmospheric Studies by Optical Methods). @conference{Mogo2017,
title = {Preliminary results of the POLARUBI 2016 and 2017 field campaigns – morphological characterization of aerosol particles at the ALOMAR station, Andenes, Norway},
author = {S. Mogo and E. Conceição and R. Rocca and A. Barroso and R. Monteiro and V. Cachorro},
url = {https://atmosopt2017.upc.edu/en/abstract-submission/44AM_Abstracts_1sep2017.pdf},
year = {2017},
date = {2017-09-04},
address = {Barcelona, Spain},
organization = {Universitat Politècnica de Catalunya},
note = {44th Annual European Meeting on Atmospheric Studies by Optical Methods},
keywords = {Arctic, Morphological characterization of aerosol, POLARUBI, SEM},
pubstate = {published},
tppubtype = {conference}
}
|
| 13. | C. Velasco-Merino, D. Mateos, C. Toledano, V. Cachorro, R. González, M.A. Burgos, S. Blindheim, M. Gausa, A. Berjón, C. Guirado, A. Calle,; A.M. de Frutos Overview of sun photometer measurements of aerosol radiative properties in a pristine Sub-Arctic area Conference 2017, (5th Iberian Meeting on Aerosol Science and Technology). @conference{Velasco-Merino2017b,
title = {Overview of sun photometer measurements of aerosol radiative properties in a pristine Sub-Arctic area},
author = {C. Velasco-Merino, D. Mateos, C. Toledano, V. Cachorro, R. González, M.A. Burgos, S. Blindheim, M. Gausa, A. Berjón, C. Guirado, A. Calle, and A.M. de Frutos},
year = {2017},
date = {2017-07-04},
note = {5th Iberian Meeting on Aerosol Science and Technology},
keywords = {AERONET, aerosol optical depth, Arctic},
pubstate = {published},
tppubtype = {conference}
}
|
| 14. | S. Mogo; V. Cachorro; E. Conceição; A. Barroso; R. Zocca; A.M. de Frutos POLARUBI field campaign: individual particle analysis of atmospheric aerosols collected at the ALOMAR station, Andenes, Norway Conference Lund, Sweden, 2017, (NOSA Aerosol Symposium 2017). @conference{MogoetalNOSA2017,
title = {POLARUBI field campaign: individual particle analysis of atmospheric aerosols collected at the ALOMAR station, Andenes, Norway},
author = {S. Mogo and V. Cachorro and E. Conceição and A. Barroso and R. Zocca and A.M. de Frutos},
year = {2017},
date = {2017-03-20},
address = {Lund, Sweden},
note = {NOSA Aerosol Symposium 2017},
keywords = {Arctic, POLARUBI, SEM},
pubstate = {published},
tppubtype = {conference}
}
|
| 15. | D. Mateos, V. Cachorro, C. Toledano, C. Velasco-Merino, M.A. Burgos, R. González, S. Blindheim, M. Gausa, A. Berjón, C. Guirado, A. Calle,; A.M. de Frutos Aerosol radiative effect in the shortwave range for the extreme aerosol events registered with Sun photometry in a pristine subarctic area Conference Consortium for Aerosol Science and Technology Lund, Sweden, 2017, (NOSA Aerosol Symposium 2017). @conference{Mateos2017c,
title = {Aerosol radiative effect in the shortwave range for the extreme aerosol events registered with Sun photometry in a pristine subarctic area},
author = {D. Mateos, V. Cachorro, C. Toledano, C. Velasco-Merino, M.A. Burgos, R. González, S. Blindheim, M. Gausa, A. Berjón, C. Guirado, A. Calle, and A.M. de Frutos},
year = {2017},
date = {2017-03-20},
address = {Lund, Sweden},
organization = {Consortium for Aerosol Science and Technology},
note = {NOSA Aerosol Symposium 2017},
keywords = {?ngström exponent, AERONET, aerosol optical depth, Arctic},
pubstate = {published},
tppubtype = {conference}
}
|
| 16. | C. Velasco-Merino, D. Mateos, C. Toledano, V. Cachorro, R. González, M.A. Burgos, S. Blindheim, M. Gausa, A. Berjón, C. Guirado, A. Calle,; A.M. de Frutos Long-term aerosol characterization in a sub-Arctic area using sun photometer data: columnar optical and microphysical properties Conference Consortium for Aerosol Science and Technology Lund, Sweden, 2017, (NOSA Aerosol Symposium 2017). @conference{Velasco-Merino2017b,
title = {Long-term aerosol characterization in a sub-Arctic area using sun photometer data: columnar optical and microphysical properties},
author = {C. Velasco-Merino, D. Mateos, C. Toledano, V. Cachorro, R. González, M.A. Burgos, S. Blindheim, M. Gausa, A. Berjón, C. Guirado, A. Calle, and A.M. de Frutos },
year = {2017},
date = {2017-03-20},
address = {Lund, Sweden},
organization = {Consortium for Aerosol Science and Technology},
note = {NOSA Aerosol Symposium 2017},
keywords = {AERONET, aerosol optical depth, Arctic},
pubstate = {published},
tppubtype = {conference}
}
|
| 17. | M.A. Burgos, D. Mateos, V.E. Cachorro, C. Toledano, C. Velasco-Merino, R. Gonzalez, A. Calle, A.M. De Frutos, S. , Blindheim, M. Gausa Quantification of high turbidity atmospheric episodes at the subarctic site Andenes (Norway) Conference 2017, (NOSA Aerosol Symposium 2017). @conference{Burgos2017,
title = {Quantification of high turbidity atmospheric episodes at the subarctic site Andenes (Norway)},
author = {M.A. Burgos, D. Mateos, V.E. Cachorro, C. Toledano, C. Velasco-Merino, R. Gonzalez, A. Calle, A.M. De Frutos, S. , Blindheim, M. Gausa},
year = {2017},
date = {2017-03-20},
note = {NOSA Aerosol Symposium 2017},
keywords = {AERONET, aerosol optical depth, Arctic, Quality Assurance},
pubstate = {published},
tppubtype = {conference}
}
|
| 18. | M.A. Burgos, C. Ritter, D. Mateos, V.E. Cachorro Aerosol Radiative Effect of the Biomass Burning Outbreak Registered in the European Arctic site of Ny-Ålesund Conference Consortium for Aerosol Science and Technology Lund, Sweden, 2017, (NOSA Aerosol Symposium 2017). @conference{Burgos2017b,
title = {Aerosol Radiative Effect of the Biomass Burning Outbreak Registered in the European Arctic site of Ny-Ålesund},
author = {M.A. Burgos, C. Ritter, D. Mateos, V.E. Cachorro},
year = {2017},
date = {2017-03-20},
address = {Lund, Sweden},
organization = {Consortium for Aerosol Science and Technology},
note = {NOSA Aerosol Symposium 2017},
keywords = {aerosol optical depth, Arctic, Radiative forcing},
pubstate = {published},
tppubtype = {conference}
}
|
2016
|
| 19. | S. Mogo; A. Barroso; R. Zocca; E. Conceição; J. Rodrigues; V. Cachorro Individual particle analysis of atmospheric aerosols at a remote site, north of the Arctic Circle Conference Forthcoming Lisboa, Portugal, Forthcoming, (8a Conferência Portuguesa de Ciências Polares,). @conference{MogoetalPOLAR2016,
title = {Individual particle analysis of atmospheric aerosols at a remote site, north of the Arctic Circle},
author = {S. Mogo and A. Barroso and R. Zocca and E. Conceição and J. Rodrigues and V. Cachorro},
year = {2016},
date = {2016-10-26},
address = {Lisboa, Portugal},
note = {8a Conferência Portuguesa de Ciências Polares,},
keywords = {Arctic, POLARUBI, SEM},
pubstate = {forthcoming},
tppubtype = {conference}
}
|
| 20. | S. Mogo; M. Medeiros; R. Martins; V. Cachorro; A. de Frutos; R. Lyngra; E. Conceição; L. Neves POLARUBI campaign --- Individual particle analysis of atmospheric aerosols at a remote site, north of the Arctic Circle Conference Forthcoming Aveiro, Portugal, Forthcoming, (4th Iberian Meeting on Aerosol Science and Technology). @conference{MogoetalRICTA2016,
title = {POLARUBI campaign --- Individual particle analysis of atmospheric aerosols at a remote site, north of the Arctic Circle},
author = {S. Mogo and M. Medeiros and R. Martins and V. Cachorro and A. de Frutos and R. Lyngra and E. Conceição and L. Neves},
year = {2016},
date = {2016-06-29},
address = {Aveiro, Portugal},
note = {4th Iberian Meeting on Aerosol Science and Technology},
keywords = {Arctic, POLARUBI, SEM},
pubstate = {forthcoming},
tppubtype = {conference}
}
|
