Your search keyword '"Redondas, Alberto"' showing total 275 results

1. Analysis of the long-range transport of the volcanic plume from the 2021 Tajogaite/Cumbre Vieja eruption to Europe using TROPOMI and ground-based measurements

Author

Hedelt, Pascal, primary, Reichardt, Jens, additional, Lauermann, Felix, additional, Weiß, Benjamin, additional, Theys, Nicolas, additional, Redondas, Alberto, additional, Barreto, Africa, additional, Garcia, Omaira, additional, and Loyola, Diego, additional

Published

2024

2. Persistent extreme ultraviolet irradiance in Antarctica despite the ozone recovery onset

Author

Cordero, Raúl R., Feron, Sarah, Damiani, Alessandro, Redondas, Alberto, Carrasco, Jorge, Sepúlveda, Edgardo, Jorquera, Jose, Fernandoy, Francisco, Llanillo, Pedro, Rowe, Penny M., and Seckmeyer, Gunther

Published

2022

3. Evaluation of Antarctic Ozone Profiles derived from OMPS-LP by using Balloon-borne Ozonesondes

Author

Sepúlveda, Edgardo, Cordero, Raul R., Damiani, Alessandro, Feron, Sarah, Pizarro, Jaime, Zamorano, Felix, Kivi, Rigel, Sánchez, Ricardo, Yela, Margarita, Jumelet, Julien, Godoy, Alejandro, Carrasco, Jorge, Crespo, Juan S., Seckmeyer, Gunther, Jorquera, Jose A., Carrera, Juan M., Valdevenito, Braulio, Cabrera, Sergio, Redondas, Alberto, and Rowe, Penny M.

Published

2021

4. The transition to new ozone absorption cross sections for Dobson and Brewer total ozone measurements.

Author

Voglmeier, Karl, Velazco, Voltaire A., Egli, Luca, Gröbner, Julian, Redondas, Alberto, and Steinbrecht, Wolfgang

Subjects

ABSORPTION cross sections, OZONE layer, OZONE, INTERNET usage monitoring

Abstract

Comparisons between total ozone column (TOC) measurements from ground-based Dobson and Brewer spectrophotometers and from various satellite instruments generally reveal seasonally varying differences of a few percent. A large part of these differences has been attributed to the operationally used Bass and Paur ozone cross sections and the lack of accounting for varying stratospheric temperatures in the standard total ozone retrieval for Dobson. This paper demonstrates how the use of new ozone absorption cross sections from the University of Bremen (Weber et al., 2016), as recommended by the Absorption Cross Sections of Ozone (ACSO) committee; the application of appropriate slit functions, especially for the Dobson instrument (Bernhard et al., 2005); and the use of climatological values for the effective ozone layer temperature (Teff), e.g., from TEMIS (Tropospheric Emission Monitoring Internet Service), essentially eliminate these seasonally varying differences between Brewer and Dobson total ozone data (to generally less than ±0.5 %). For Hohenpeissenberg, the previous seasonal difference (close to 0 % in summer and up to 2.5 % in winter) is reduced to less than ±0.5 % year-round. Implementing this approach to the existing global network of Dobson spectrometers will reduce the overall uncertainty in their total ozone data from 3 % to 4 % previously to under 2 % at most locations. [ABSTRACT FROM AUTHOR]

Published

2024

5. Supplementary material to "The transition to new ozone absorption cross-sections for Dobson and Brewer total ozone measurements"

Author

Voglmeier, Karl, primary, Velazco, Voltaire, additional, Egli, Luca, additional, Gröbner, Julian, additional, Redondas, Alberto, additional, and Steinbrecht, Wolfgang, additional

Published

2023

6. The transition to new ozone absorption cross-sections for Dobson and Brewer total ozone measurements

Author

Voglmeier, Karl, primary, Velazco, Voltaire, additional, Egli, Luca, additional, Gröbner, Julian, additional, Redondas, Alberto, additional, and Steinbrecht, Wolfgang, additional

Published

2023

7. Surface Solar Extremes in the Most Irradiated Region on Earth, Altiplano

Author

Cordero, Raúl R., primary, Feron, Sarah, additional, Damiani, Alessandro, additional, Sepúlveda, Edgardo, additional, Jorquera, Jose, additional, Redondas, Alberto, additional, Seckmeyer, Gunther, additional, Carrasco, Jorge, additional, Rowe, Penny, additional, and Ouyang, Zutao, additional

Published

2023

8. Absorption cross-sections of ozone in the ultraviolet and visible spectral regions: Status report 2015

Author

Orphal, Johannes, Staehelin, Johannes, Tamminen, Johanna, Braathen, Geir, De Backer, Marie-Renée, Bais, Alkiviadis, Balis, Dimitris, Barbe, Alain, Bhartia, Pawan K., Birk, Manfred, Burkholder, James B., Chance, Kelly, von Clarmann, Thomas, Cox, Anthony, Degenstein, Doug, Evans, Robert, Flaud, Jean-Marie, Flittner, David, Godin-Beekmann, Sophie, Gorshelev, Viktor, Gratien, Aline, Hare, Edward, Janssen, Christof, Kyrölä, Erkki, McElroy, Thomas, McPeters, Richard, Pastel, Maud, Petersen, Michael, Petropavlovskikh, Irina, Picquet-Varrault, Benedicte, Pitts, Michael, Labow, Gordon, Rotger-Languereau, Maud, Leblanc, Thierry, Lerot, Christophe, Liu, Xiong, Moussay, Philippe, Redondas, Alberto, Van Roozendael, Michel, Sander, Stanley P., Schneider, Matthias, Serdyuchenko, Anna, Veefkind, Pepijn, Viallon, Joële, Viatte, Camille, Wagner, Georg, Weber, Mark, Wielgosz, Robert I., and Zehner, Claus

Published

2016

9. The transition to new ozone absorption cross-sections for Dobson and Brewer total ozone measurements.

Author

Voglmeier, Karl, Velazco, Voltaire A., Egli, Luca, Gröbner, Julian, Redondas, Alberto, and Steinbrecht, Wolfgang

Subjects

OZONE layer, OZONE, ABSORPTION cross sections, ABSORPTION

Abstract

Comparison of total ozone column (TOC) measurements from ground-based Dobson and Brewer spectrophotometers and from various satellite instruments generally reveals seasonally varying differences of a few percent. A large part of these differences has been attributed to the operationally used Bass & Paur ozone cross-sections and the lack of accounting for varying stratospheric temperatures in the standard total ozone retrieval for Dobson. This paper demonstrates how the use of new ozone absorption cross sections from the University of Bremen (Weber et al., 2016), as recommended by the committee on Absorption Cross-Sections of Ozone, the application of appropriate slit functions, especially for the Dobson instrument (Bernhard et al. 2005), and the use of climatological values for the effective ozone layer temperature (Teff), e.g. from TEMIS, essentially eliminate these seasonally varying differences between Dobson and Brewer total ozone data. Applying this approach to the existing global network of Dobson spectrometers will reduce the uncertainty of their total ozone data, from previously 3 to 4% to better than 2.0% at most locations. [ABSTRACT FROM AUTHOR]

Published

2023

10. The site-specified primary calibration conditions for the Brewer spectrophotometer

Author

Zhao, Xiaoyi, primary, Fioletov, Vitali, additional, Redondas, Alberto, additional, Gröbner, Julian, additional, Egli, Luca, additional, Zeilinger, Franz, additional, López-Solano, Javier, additional, Arroyo, Alberto Berjón, additional, Kerr, James, additional, Maillard Barras, Eliane, additional, Smit, Herman, additional, Brohart, Michael, additional, Sit, Reno, additional, Ogyu, Akira, additional, Abboud, Ihab, additional, and Lee, Sum Chi, additional

Published

2023

11. Impact of instrumental line shape characterization on ozone monitoring by FTIR spectrometry

Author

García, Omaira E., primary, Sanromá, Esther, additional, Hase, Frank, additional, Schneider, Matthias, additional, León-Luis, Sergio Fabián, additional, Blumenstock, Thomas, additional, Sepúlveda, Eliezer, additional, Torres, Carlos, additional, Prats, Natalia, additional, Redondas, Alberto, additional, and Carreño, Virgilio, additional

Published

2022

12. La erupción volcánica de La Palma y el papel de la Agencia Estatal de Meteorología

Author

García Rodríguez, Omaira Elena, Suárez Molina, David, Cuevas Agulló, Emilio, Ramos López, Ramón, Barreto Velasco, África, Hernández Martínez de la Peña, Miguel, Quintero, Víctor Jesús, Toledano, Carlos, Sicard, Michaël, Córdoba-Jabonero, Carmen, Rizi, Vicenzo, Roininen, Reijo, López, César, Vilches, Jon, Weiss, Maximilian, Carreño Corbella, Virgilio, Taquet, Noémie, Boulesteix, Thomas, Fraile Nuez, Eugenio, Torres, Carlos, Prats Porta, Natalia, Alcántara, Antonio, León-Luis, Sergio Fabián, Rivas Soriano, Pedro Pablo, Álvarez-Losada, Óscar, Parra Rojas, Francisco C., Luis Cuartero, Javier de, González Alejandre, César, Armas, Cristina, Romero Campos, Pedro Miguel, Bustos Seguela, Juan José de, Redondas, Alberto, Marrero, Carlos, Milford, Celia, Román, Roberto, González, Ramiro, López Cayuela, María Ángeles, Carvajal Pérez, Clara Violeta, Chinea, Nayra, García Cabrera, Rosa Delia, Almansa Rodríguez, Antonio Fernando, González Ramos, Yenny, Bullón Miró, Fernando, Poggio, Marta, Rivera, Clemente, Bayo Pérez, Concepción Isabel, and Rey, Fernando

Subjects

Agencia Estatal de Meteorología, Penacho volcánico, Monitorización, Predicción meteorológica, Emisiones de gases, La Palma, erupción volcánica, Volcán de Cumbre Vieja

Abstract

Durante la erupción del volcán de Cumbre Vieja, en la isla de La Palma en 2021, la Agencia Estatal de Meteorología (AEMET), en calidad de Servicio Nacional y Autoridad Meteorológica del Estado, prestó diferentes servicios de apoyo al Comité Científico y al Comité Asesor del Plan de Emergencias Volcánicas de Canarias (PEVOLCA). Parte de sus actividades abarcaron la vigilancia y predicción meteorológica, la monitorización y predicción del transporte del penacho volcánico, y la valoración del impacto de las emisiones de gases y cenizas de la erupción volcánica en la calidad del aire en la isla de La Palma y en la región de Canarias.

Published

2022

13. La erupción volcánica de La Palma y el papel de la Agencia Estatal de Meteorología

Author

García, Omaira, Suárez, David, Cuevas, Emilio, Ramos, Ramón, Barreto, Africa, Hernández, Miguel, Quintero, Víctor, Toledano, Carlos, Sicard, Michaël, Córdoba-Jabonero, Carmen, Riz, Vicenzo, Roininen, Reijo, López, César, Vilches, Jon, Weiss, Maximilian, Carreño, Virgilio, Taquet, Noemie, Boulesteix, Thomas, Fraile-Nuez, Eugenio, Torres, Carlos F., Prats, Natalia, Alcántara, Antonio, León, Sergio, Rivas, Pedro, Álvarez, Óscar, Parra, Francisco, de Luis, Javier, González, César, Armas, Cristina, Romero, Pedro, de Bustos, Juan, Redondas, Alberto, Marrero, Carlos, Milford, Celia, Román, Roberto, González, Ramiro, López-Cayuela, María, Carvajal-Pérez, Clara, Chinea, Nayra, García, Rosa, Almansa, Fernando, González, Yenny, Bullón, Fernando, Poggio, Marta, Rivera, Clemente, Bayo, Concepción, Rey, Fernando, García, Omaira, Suárez, David, Cuevas, Emilio, Ramos, Ramón, Barreto, Africa, Hernández, Miguel, Quintero, Víctor, Toledano, Carlos, Sicard, Michaël, Córdoba-Jabonero, Carmen, Riz, Vicenzo, Roininen, Reijo, López, César, Vilches, Jon, Weiss, Maximilian, Carreño, Virgilio, Taquet, Noemie, Boulesteix, Thomas, Fraile-Nuez, Eugenio, Torres, Carlos F., Prats, Natalia, Alcántara, Antonio, León, Sergio, Rivas, Pedro, Álvarez, Óscar, Parra, Francisco, de Luis, Javier, González, César, Armas, Cristina, Romero, Pedro, de Bustos, Juan, Redondas, Alberto, Marrero, Carlos, Milford, Celia, Román, Roberto, González, Ramiro, López-Cayuela, María, Carvajal-Pérez, Clara, Chinea, Nayra, García, Rosa, Almansa, Fernando, González, Yenny, Bullón, Fernando, Poggio, Marta, Rivera, Clemente, Bayo, Concepción, and Rey, Fernando

Abstract

Durante la erupción del volcán de Cumbre Vieja, en la isla de La Palma en 2021, la Agencia Estatal de Meteorología (AEMET), en calidad de Servicio Nacional y Autoridad Meteorológica del Estado, prestó diferentes servicios de apoyo al Comité Científico y al Comité Asesor del Plan de Emergencias Volcánicas de Canarias (PEVOLCA). Parte de sus actividades abarcaron la vigilancia y predicción meteorológica, la monitorización y predicción del transporte del penacho volcánico, y la valoración del impacto de las emisiones de gases y cenizas de la erupción volcánica en la calidad del aire en la isla de La Palma y en la región de Canarias.

Published

2022

14. The site-specific primary calibration conditions for the Brewer spectrophotometer.

Author

Zhao, Xiaoyi, Fioletov, Vitali, Redondas, Alberto, Gröbner, Julian, Egli, Luca, Zeilinger, Franz, López-Solano, Javier, Arroyo, Alberto Berjón, Kerr, James, Maillard Barras, Eliane, Smit, Herman, Brohart, Michael, Sit, Reno, Ogyu, Akira, Abboud, Ihab, and Lee, Sum Chi

Subjects

SPECTROPHOTOMETERS, CALIBRATION, DATA quality, CLIMATE change

Abstract

The Brewer ozone spectrophotometer (the Brewer) is one of the World Meteorological Organization (WMO) Global Atmosphere Watch (GAW)'s standard ozone-monitoring instruments since the 1980s. The entire global Brewer ozone-monitoring network is operated and maintained via a hierarchical calibration chain, which started from world reference instruments that are independently calibrated via the primary calibration method (PCM) at a premium site (National Oceanic and Atmospheric Administration's (NOAA) Mauna Loa Observatory, Hawaii). These world reference instruments have been maintained by Environment and Climate Change Canada (ECCC) in Toronto for the last 4 decades. Their calibration is transferred to the travelling standard instrument and then to network (field) Brewer instruments at their monitoring sites (all via the calibration transfer method; CTM). Thus, the measurement accuracy for the entire global network is dependent on the calibration of world reference instruments. In 2003, to coordinate regional calibration needs, the Regional Brewer Calibration Center for Europe (RBCC-E) was formed in Izaña, Spain. From that point, RBCC-E began calibrating regional references also via PCM instead of CTM. The equivalency and consistency of world and regional references are then assured during international calibration campaigns. In practice, these two calibration methods have different physical requirements, e.g., the PCM requires a stable ozone field in the short term (i.e., half-day), while the CTM would benefit from larger changes in slant ozone conditions for the calibration periods. This difference dictates that the PCM can only be implemented on Brewer instruments at certain sites and even in certain months of the year. This work is the first effort to use long-term observation records from 11 Brewer instruments at four sites to reveal the challenges in performing the PCM. By utilizing a new calibration simulation model and reanalysis ozone data, this work also quantifies uncertainties in the PCM due to short-term ozone variability. The results are validated by real-world observations and used to provide scientific advice on where and when the PCM can be performed and how many days of observations are needed to achieve the calibration goal (i.e., ensure the calibration uncertainty is within a determined criterion, i.e., ≤5 R6 units; R6 is a measurement-derived double ratio in the actual Brewer processing algorithm). This work also suggests that even if the PCM cannot be used to deliver final calibration results for mid- or high-latitude sites, the statistics of the long-term PCM fitting results can still provide key information for field Brewer instruments as stability indicators (which would provide performance monitoring and data quality assurance). [ABSTRACT FROM AUTHOR]

Published

2023

15. Improved ozone monitoring by ground-based FTIR spectrometry

Author

García, Omaira Elena, primary, Sanromá, Esther, additional, Schneider, Matthias, additional, Hase, Frank, additional, León-Luis, Sergio Fabián, additional, Blumenstock, Thomas, additional, Sepúlveda, Eliezer, additional, Redondas, Alberto, additional, Carreño, Virgilio, additional, Torres, Carlos, additional, and Prats, Natalia, additional

Published

2022

16. Impact of instrumental line shape characterisation on ozone monitoring by FTIR spectrometry

Author

García, Omaira Elena, primary, Sanromá, Esther, additional, Hase, Frank, additional, Schneider, Matthias, additional, León-Luis, Sergio Fabián, additional, Blumenstock, Thomas, additional, Sepúlveda, Eliezer, additional, Torres, Carlos, additional, Prats, Natalia, additional, Redondas, Alberto, additional, and Carreño, Virgilio, additional

Published

2022

17. Izaña Atmospheric Research Center. Activity Report 2019-2020

Author

Cuevas Agulló, Emilio, Milford, Celia, Barreto Velasco, África, Bustos Seguela, Juan José de, García Rodríguez, Omaira Elena, García Cabrera, Rosa Delia, Marrero, Carlos, Prats Porta, Natalia, Ramos López, Ramón, Redondas, Alberto, Reyes, Enrique, Rivas Soriano, Pedro Pablo, Romero Campos, Pedro Miguel, Torres, Carlos, Schneider, Matthias, Yela, Margarita, Belmonte, Jordina, Almansa Rodríguez, Antonio Fernando, López Solano, César, Basart, Sara, Werner, Ernest, Rodríguez González, Sergio, Afonso Gómez, Sergio, Alcántara, Antonio, Álvarez-Losada, Óscar, Bayo Pérez, Concepción Isabel, Berjón, Alberto, Carreño Corbella, Virgilio, Castro Quintero, Nestor Jesús, Chinea, Nayra, Cruz, A. M., Damas, Marcos, Gómez-Trueba, Vanessa, González Ramos, Yenny, Guirado-Fuentes, Carmen, Hernández Hernández, Cándida, León-Luis, Sergio Fabián, López Fernández, Rocío, López Solano, Javier, Parra Rojas, Francisco C., Pérez de la Puerta, J., Rodríguez Valido, Manuel, Sálamo, C., Santana-Díaz, Daniel, Santo Tomás, Félix, Sepúlveda Hernández, Eliezer, and Serrano de la Torre, Antonio Ángel

Subjects

Centro de Investigación Atmosférica de Izaña, Informe de actividad

Abstract

Editors: Emilio Cuevas, Celia Milford and Oksana Tarasova. [EN]The Izaña Atmospheric Research Center (IARC), which is part of the State Meteorological Agency of Spain (AEMET), is a site of excellence in atmospheric science. It manages four observatories in Tenerife including the high altitude Izaña Atmospheric Observatory. The Izaña Atmospheric Observatory was inaugurated in 1916 and since that date has carried out uninterrupted meteorological and climatological observations, contributing towards a unique 100-year record in 2016. This reports are a summary of the many activities at the Izaña Atmospheric Research Center to the broader community. The combination of operational activities, research and development in state-of-the-art measurement techniques, calibration and validation and international cooperation encompass the vision of WMO to provide world leadership in expertise and international cooperation in weather, climate, hydrology and related environmental issues. [ES]El Centro de Investigación Atmosférica de Izaña (CIAI), que forma parte de la Agencia Estatal de Meteorología de España (AEMET), representa un centro de excelencia en ciencias atmosféricas. Gestiona cuatro observatorios en Tenerife, incluido el Observatorio de Izaña de gran altitud, inaugurado en 1916 y que desde entonces ha realizado observaciones meteorológicas y climatológicas ininterrumpidas y se ha convertido en una estación centenaria de la OMM. Estos informes resumen las múltiples actividades llevadas a cabo por el Centro de Investigación Atmosférica de Izaña. El liderazgo del Centro en materia de investigación y desarrollo con respecto a las técnicas de medición, calibración y validación de última generación, así como la cooperación internacional, le han otorgado una reputación sobresaliente en lo que se refiere al tiempo, el clima, la hidrología y otros temas ambientales afines.

Published

2022

18. The site-specified primary calibration conditions for the Brewer spectrophotometer.

Author

Xiaoyi Zhao, Fioletov, Vitali, Redondas, Alberto, Gröbner, Julian, Egli, Luca, Zeilinger, Franz, López-Solano, Javier, Arroyo, Alberto Berjon, Kerr, James, Barras, Eliane Maillard, Smit, Herman, Brohart, Michael, Sit, Reno, Ogyu, Akira, Abboud, Ihab, and Sum Chi Lee

Subjects

SPECTROPHOTOMETERS, CALIBRATION, DATA quality, OZONE, CLIMATE change

Abstract

The Brewer ozone spectrophotometer (the Brewer) is one of the World Meteorological Organization (WMO) Global Atmosphere Watch (GAW) standard ozone monitoring instruments since the 1980s. The entire global Brewer ozone monitoring network is operated and maintained via a hierarchical calibration chain, which started from world reference instruments that are independently calibrated via the primary calibration method (PCM) at a premium site (National Oceanic and Atmospheric Administration’s (NOAA) Mauna Loa Observatory, Hawaii). These world reference instruments have been maintained by Environment and Climate Change Canada (ECCC) in Toronto for the last four decades. Their calibration is transferred to the travelling standard instrument and then to network (field) Brewer instruments at their monitoring sites (all via the calibration transfer method; CTM). Thus, the measurement accuracy for the entire global network is dependent on the calibration of world reference instruments. In 2003, to coordinate regional calibration needs, the Regional Brewer Calibration Center-Europe (RBCC-E) was formed in Izaña, Spain. From that point, RBCC-E began calibrating regional references also via PCM, instead of CTM. The equivalency and consistency of world and regional references are then assured during international calibration campaigns. In practice, these two calibration methods have different physical requirements, e.g., the PCM requires a stable short-term ozone field, while CTM would benefit from larger changes in slant ozone conditions for the calibration periods. This difference dictates that the PCM can only be implemented on Brewers at certain sites and even in certain months of the year. This work is the first effort to use long-term observation records from 11 Brewers at four sites to reveal the challenges in performing PCM. By utilizing a new calibration simulation model and reanalysis ozone data, this work also quantifies uncertainties in the PCM due to short-term ozone variability. The results are validated by real-world observations and used to provide scientific advice on where and when the PCM can be performed and how many days of observations are needed to achieve the calibration goal (i.e., ensure the calibration uncertainty is within a determined criterion, i.e., ≤5 R6 unit; R6 is a measurement derived double ratio in the actual Brewer processing algorithm). This work also suggests that even if the PCM cannot be used to deliver final calibration results for mid- or high-latitude sites, the statistics of the long-term PCM fitting results can still provide key information for field Brewers as stability indicators (which would provide performance monitoring and data quality assurance). [ABSTRACT FROM AUTHOR]

Published

2023

19. Twenty years of ground-based NDACC FTIR spectrometry at Izaña Observatory – overview and long-term comparison to other techniques

Author

García, Omaira E., primary, Schneider, Matthias, additional, Sepúlveda, Eliezer, additional, Hase, Frank, additional, Blumenstock, Thomas, additional, Cuevas, Emilio, additional, Ramos, Ramón, additional, Gross, Jochen, additional, Barthlott, Sabine, additional, Röhling, Amelie N., additional, Sanromá, Esther, additional, González, Yenny, additional, Gómez-Peláez, Ángel J., additional, Navarro-Comas, Mónica, additional, Puentedura, Olga, additional, Yela, Margarita, additional, Redondas, Alberto, additional, Carreño, Virgilio, additional, León-Luis, Sergio F., additional, Reyes, Enrique, additional, García, Rosa D., additional, Rivas, Pedro P., additional, Romero-Campos, Pedro M., additional, Torres, Carlos, additional, Prats, Natalia, additional, Hernández, Miguel, additional, and López, César, additional

Published

2021

20. New observations of NO2 in the upper troposphere from TROPOMI

Author

Marais, Eloise A., Roberts, John F., Ryan, Robert G., Eskes, Henk J., Boersma, K. Folkert, Choi, Sungyeon, Joiner, Joanna, Abuhassan, Nader, Redondas, Alberto, Grutter, Michel, Cede, Alexander, Gómez Martín, Laura, and Navarro Comas, Mónica

Subjects

Upper troposphere, WIMEK, Life Science, TROPOMI, Luchtkwaliteit, Cloud-slicing, Air Quality

Abstract

Nitrogen oxides (NOx≡NO+NO2) in the NOx-limited upper troposphere (UT) are long-lived and so have a large influence on the oxidizing capacity of the troposphere and formation of the greenhouse gas ozone. Models misrepresent NOx in the UT, and observations to address deficiencies in models are sparse. Here we obtain a year of near-global seasonal mean mixing ratios of NO2 in the UT (450–180 hPa) at 1∘×1∘ by applying cloud-slicing to partial columns of NO2 from TROPOMI. This follows refinement of the cloud-slicing algorithm with synthetic partial columns from the GEOS-Chem chemical transport model. TROPOMI, prior to cloud-slicing, is corrected for a 13 % underestimate in stratospheric NO2 variance and a 50 % overestimate in free-tropospheric NO2 determined by comparison to Pandora total columns at high-altitude free-tropospheric sites at Mauna Loa, Izaña, and Altzomoni and MAX-DOAS and Pandora tropospheric columns at Izaña. Two cloud-sliced seasonal mean UT NO2 products for June 2019 to May 2020 are retrieved from corrected TROPOMI total columns using distinct TROPOMI cloud products that assume clouds are reflective boundaries (FRESCO-S) or water droplet layers (ROCINN-CAL). TROPOMI UT NO2 typically ranges from 20–30 pptv over remote oceans to >80 pptv over locations with intense seasonal lightning. Spatial coverage is mostly in the tropics and subtropics with FRESCO-S and extends to the midlatitudes and polar regions with ROCINN-CAL, due to its greater abundance of optically thick clouds and wider cloud-top altitude range. TROPOMI UT NO2 seasonal means are spatially consistent (R=0.6–0.8) with an existing coarser spatial resolution (5∘ latitude × 8∘ longitude) UT NO2 product from the Ozone Monitoring Instrument (OMI). UT NO2 from TROPOMI is 12–26 pptv more than that from OMI due to increase in NO2 with altitude from the OMI pressure ceiling (280 hPa) to that for TROPOMI (180 hPa), but possibly also due to altitude differences in TROPOMI and OMI cloud products and NO2 retrieval algorithms. The TROPOMI UT NO2 product offers potential to evaluate and improve representation of UT NOx in models and supplement aircraft observations that are sporadic and susceptible to large biases in the UT.

Published

2021

21. EUBREWNET Updates

Author

Berjón, Alberto, Redondas, Alberto, Rimmer, John, López Solano, Javier, Parra Rojas, Francisco C., Carreño Corbella, Virgilio, and León-Luis, Sergio Fabián

Subjects

Eubrewnet, Calibration, Brewer spectrometer

Abstract

Presentación realizada en: Nordic Ozone Group Meeting (2021), celebrado el 21 de abril de 2021 de manera virtual.

Published

2021

22. Improved ozone monitoring by ground-based FTIR spectrometry

Author

García, Omaira E., primary, Sanromá, Esther, additional, Schneider, Matthias, additional, Hase, Frank, additional, León-Luis, Sergio Fabián, additional, Blumenstock, Thomas, additional, Sepúlveda, Eliezer, additional, Redondas, Alberto, additional, Carreño, Virgilio, additional, Torres, Carlos, additional, and Prats, Natalia, additional

Published

2021

23. A new data set for the Brewer spectrophotometer uncertainty budget in the total ozone column measurements

Author

Parra-Rojas, Francisco Carlos, primary, Redondas, Alberto, additional, Berjón, Alberto, additional, and López-Solano, Javier, additional

Published

2021

24. New Observations of Upper Tropospheric NO2 from TROPOMI

Author

Marais, Eloise A., Roberts, John F., Ryan, Robert G., Eskes, Henk, Boersma, K. Folkert, Choi, Sungyeon, Joiner, Joanna, Abuhassan, Nader, Redondas, Alberto, Grutter, Michel, Cede, Alexander, Gomez, Laura, and Navarro-Comas, Monica

Abstract

Nitrogen oxides (NOx ≡ NO + NO2) in the NOx-limited upper troposphere (UT) are long-lived and so have a large influence on the oxidizing capacity of the troposphere and formation of the greenhouse gas ozone. Models misrepresent NOx in the UT and observations to address deficiencies in models are sparse. Here we obtain a year of near-global seasonal mean mixing ratios of NO2 in the UT (450–180 hPa) at 1 ° x 1° by applying cloud-slicing to partial columns of NO2 from TROPOMI. This follows refinement of the cloud-slicing algorithm with synthetic partial columns from the GEOS-Chem chemical transport model. We find that synthetic cloud-sliced UT NO2 are spatially consistent (R = 0.64) with UT NO2 calculated across the same cloud pressure range and scenes as are cloud-sliced (“true” UT NO2), but the cloud-sliced UT NO2 is 11–22 % more than the "true" all-sky seasonal mean. The largest contributors to differences between synthetic cloud-sliced and “true” UT NO2 are target resolution of the cloud-sliced product and uniformity of overlying stratospheric NO2. TROPOMI, prior to cloud-slicing, is corrected for a 13 % underestimate in stratospheric NO2 variance and a 50 % overestimate in free tropospheric NO2 determined by comparison to Pandora total columns at high-altitude sites in Mauna Loa, Izaña and Altzomoni, and MAX-DOAS and Pandora tropospheric columns at Izaña. Two cloud-sliced seasonal mean UT NO2 products for June 2019 to May 2020 are retrieved from corrected TROPOMI total columns using distinct TROPOMI cloud products that assume clouds are reflective boundaries (FRESCO-S) or water droplet layers (ROCINN-CAL). TROPOMI UT NO2 typically ranges from 20-30 pptv over remote oceans to > 80 pptv over locations with intense seasonal lightning. Spatial coverage is mostly in the tropics and subtropics with FRESCO-S and extends to the midlatitudes and polar regions with ROCINN-CAL, due to its greater abundance of optically thick clouds and wider cloud top altitude range. TROPOMI UT NO2 seasonal means are spatially consistent (R = 0.6–0.8) with an existing coarser spatial resolution (5° latitude x 8° longitude) UT NO2 product from the Ozone Monitoring Instrument (OMI). UT NO2 from TROPOMI is 12–26 pptv more than that from OMI due to increase in NO2 with altitude from the OMI pressure ceiling (280 hPa) to that for TROPOMI (180 hPa), but possibly also systematic altitude differences between the TROPOMI and OMI cloud products. The TROPOMI UT NO2 product offers potential to evaluate and improve representation of UT NOx in models and supplement aircraft observations that are sporadic and susceptible to large biases in the UT.

Published

2020

25. Izaña Atmospheric Research Center. Activity Report 2017-2018

Author

Cuevas Agulló, Emilio, Milford, Celia, Bustos Seguela, Juan José de, García Rodríguez, Omaira Elena, García Cabrera, Rosa Delia, Gómez Peláez, Ángel Jesús, Guirado-Fuentes, Carmen, Marrero, Carlos, Prats Porta, Natalia, Ramos López, Ramón, Redondas, Alberto, Reyes, Enrique, Rivas Soriano, Pedro Pablo, Rodríguez González, Sergio, Romero Campos, Pedro Miguel, Torres, Carlos, Schneider, Matthias, Yela, Margarita, Belmonte, Jordina, Campo Hernández, Rubén del, Almansa Rodríguez, Antonio Fernando, Barreto Velasco, África, López Solano, César, Basart, Sara, Terradellas, Enric, Werner, Ernest, Afonso Gómez, Sergio, Bayo Pérez, Concepción Isabel, Berjón, Alberto, Carreño Corbella, Virgilio, Castro Quintero, Nestor Jesús, Chinea, Nayra, Cruz, A. M., Damas, Marcos, Ory Ajamil, Fernando de, García, María Isabel, Gómez-Trueba, Vanessa, Hernández Hernández, Cándida, Hernández González, Yeray, Hernández Cruz, Bentorey, León-Luis, Sergio Fabián, López Fernández, Rocío, López Solano, Javier, Parra Rojas, Francisco C., Rodríguez, E., Rodríguez Valido, Manuel, Sálamo, C., Sanromá, Esther, Santana-Díaz, Daniel, Santo Tomás, Félix, Sepúlveda Hernández, Eliezer, and Sosa, Elisa

Subjects

Centro de Investigación Atmosférica de Izaña, Informe de actividad

Published

2020

26. Centro de InvestigaciónAtmosférica de Izaña. Informe de actividades 2017-2018

Author

Cuevas Agulló, Emilio, Milford, Celia, Bustos Seguela, Juan José de, García Rodríguez, Omaira Elena, García Cabrera, Rosa Delia, Gómez Peláez, Ángel Jesús, Guirado-Fuentes, Carmen, Marrero, Carlos, Prats Porta, Natalia, Ramos López, Ramón, Redondas, Alberto, Reyes, Enrique, Rivas Soriano, Pedro Pablo, Rodríguez González, Sergio, Romero Campos, Pedro Miguel, Torres, Carlos, Schneider, Matthias, Yela, Margarita, Belmonte, Jordina, Campo Hernández, Rubén del, Almansa Rodríguez, Antonio Fernando, Barreto Velasco, África, López-Solano, C., Basart, Sara, Terradellas, Enric, Werner, Ernest, Afonso Gómez, Sergio, Bayo Pérez, Concepción Isabel, Berjón, Alberto, Carreño Corbella, Virgilio, Castro Quintero, Nestor Jesús, Chinea, N., Cruz, A. M., Damas, Marcos, Ory Ajamil, Fernando de, García, María Isabel, Gómez-Trueba, Vanessa, Hernández, C., Hernández González, Yeray, Hernández Cruz, Bentorey, León-Luis, Sergio F., López Fernández, R., López-Solano, Javier, Parra Rojas, Francisco C., Rodríguez, E., Rodríguez Valido, M., Sálamo, C., Sanromá, Esther, Santana-Díaz, Daniel, Santo Tomás, Félix, Sepúlveda Hernández, Eliezer, and Sosa, Elisa

Subjects

Centro de Investigación Atmosférica de Izaña, Informe de actividad

Published

2020

27. Comment on amt-2020-497

Author

Redondas, Alberto, primary

Published

2021

28. Validation of the TROPOspheric Monitoring Instrument (TROPOMI) surface UV radiation product

Author

Lakkala, Kaisa, primary, Kujanpää, Jukka, additional, Brogniez, Colette, additional, Henriot, Nicolas, additional, Arola, Antti, additional, Aun, Margit, additional, Auriol, Frédérique, additional, Bais, Alkiviadis F., additional, Bernhard, Germar, additional, De Bock, Veerle, additional, Catalfamo, Maxime, additional, Deroo, Christine, additional, Diémoz, Henri, additional, Egli, Luca, additional, Forestier, Jean-Baptiste, additional, Fountoulakis, Ilias, additional, Garane, Katerina, additional, Garcia, Rosa Delia, additional, Gröbner, Julian, additional, Hassinen, Seppo, additional, Heikkilä, Anu, additional, Henderson, Stuart, additional, Hülsen, Gregor, additional, Johnsen, Bjørn, additional, Kalakoski, Niilo, additional, Karanikolas, Angelos, additional, Karppinen, Tomi, additional, Lamy, Kevin, additional, León-Luis, Sergio F., additional, Lindfors, Anders V., additional, Metzger, Jean-Marc, additional, Minvielle, Fanny, additional, Muskatel, Harel B., additional, Portafaix, Thierry, additional, Redondas, Alberto, additional, Sanchez, Ricardo, additional, Siani, Anna Maria, additional, Svendby, Tove, additional, and Tamminen, Johanna, additional

Published

2020

29. New Observations of Upper Tropospheric NO<sub>2</sub> from TROPOMI

Author

Marais, Eloise A., primary, Roberts, John F., additional, Ryan, Robert G., additional, Eskes, Henk, additional, Boersma, K. Folkert, additional, Choi, Sungyeon, additional, Joiner, Joanna, additional, Abuhassan, Nader, additional, Redondas, Alberto, additional, Grutter, Michel, additional, Cede, Alexander, additional, Gomez, Laura, additional, and Navarro-Comas, Monica, additional

Published

2020

30. Supplementary material to "New Observations of Upper Tropospheric NO<sub>2</sub> from TROPOMI"

Author

Marais, Eloise A., primary, Roberts, John F., additional, Ryan, Robert G., additional, Eskes, Henk, additional, Boersma, K. Folkert, additional, Choi, Sungyeon, additional, Joiner, Joanna, additional, Abuhassan, Nader, additional, Redondas, Alberto, additional, Grutter, Michel, additional, Cede, Alexander, additional, Gomez, Laura, additional, and Navarro-Comas, Monica, additional

Published

2020

31. Supplementary material to "Validation of TROPOMI Surface UV Radiation Product"

Author

Lakkala, Kaisa, primary, Kujanpää, Jukka, additional, Brogniez, Colette, additional, Henriot, Nicolas, additional, Arola, Antti, additional, Aun, Margit, additional, Auriol, Frédérique, additional, Bais, Alkiviadis F., additional, Bernhard, Germar, additional, De Bock, Veerle, additional, Catalfamo, Maxime, additional, Deroo, Christine, additional, Diémoz, Henri, additional, Egli, Luca, additional, Forestier, Jean-Baptiste, additional, Fountoulakis, Ilias, additional, Garcia, Rosa Delia, additional, Gröbner, Julian, additional, Hassinen, Seppo, additional, Heikkilä, Anu, additional, Henderson, Stuart, additional, Hülsen, Gregor, additional, Johnsen, Bjørn, additional, Kalakoski, Niilo, additional, Karanikolas, Angelos, additional, Karppinen, Tomi, additional, Lamy, Kevin, additional, León-Luis, Sergio F., additional, Lindfors, Anders V., additional, Metzger, Jean-Marc, additional, Minvielle, Fanny, additional, Muskatel, Harel B., additional, Portafaix, Thierry, additional, Redondas, Alberto, additional, Sanchez, Ricardo, additional, Siani, Anna Maria, additional, Svendby, Tove, additional, and Tamminen, Johanna, additional

Published

2020

32. Validation of TROPOMI Surface UV Radiation Product

Author

Lakkala, Kaisa, primary, Kujanpää, Jukka, additional, Brogniez, Colette, additional, Henriot, Nicolas, additional, Arola, Antti, additional, Aun, Margit, additional, Auriol, Frédérique, additional, Bais, Alkiviadis F., additional, Bernhard, Germar, additional, De Bock, Veerle, additional, Catalfamo, Maxime, additional, Deroo, Christine, additional, Diémoz, Henri, additional, Egli, Luca, additional, Forestier, Jean-Baptiste, additional, Fountoulakis, Ilias, additional, Garcia, Rosa Delia, additional, Gröbner, Julian, additional, Hassinen, Seppo, additional, Heikkilä, Anu, additional, Henderson, Stuart, additional, Hülsen, Gregor, additional, Johnsen, Bjørn, additional, Kalakoski, Niilo, additional, Karanikolas, Angelos, additional, Karppinen, Tomi, additional, Lamy, Kevin, additional, León-Luis, Sergio F., additional, Lindfors, Anders V., additional, Metzger, Jean-Marc, additional, Minvielle, Fanny, additional, Muskatel, Harel B., additional, Portafaix, Thierry, additional, Redondas, Alberto, additional, Sanchez, Ricardo, additional, Siani, Anna Maria, additional, Svendby, Tove, additional, and Tamminen, Johanna, additional

Published

2020

33. 2.5 years of TROPOMI S5P total ozone column data: geophysical global ground-based validation and inter-comparison with other satellite missions

Author

Garane, Katerina, primary, Koukouli, Maria-Elissavet, additional, Verhoelst, Tijl, additional, Lerot, Christophe, additional, Heue, Klaus-Peter, additional, Balis, Dimitrios, additional, Redondas, Alberto, additional, Pazmino, Andrea, additional, Bazureau, Ariane, additional, Romahn, Fabian, additional, Zimmer, Walter, additional, Xu, Jian, additional, Lambert, Jean-Christopher, additional, Loyola, Diego, additional, Van Roozendael, Michel, additional, Goutail, Florence, additional, and Pommereau, Jean-Pierre, additional

Published

2020

34. Consistency and quality assessment of the Metop-A/IASI and Metop-B/IASI operational trace gas products (O3, CO, N2O, CH4, and CO2) in the subtropical North Atlantic

Author

Garcia, Omaira Elena, Sepulveda, Eliezer, Schneider, Matthias, Hase, Frank, August, Thomas, Blumenstock, Thomas, Kuhl, Sven, Munro, Rosemary, Gomez-Pelaez, Angel Jesus, Hultberg, Tim, Redondas, Alberto, Barthlott, Sabine, Wiegele, Andreas, Gonzalez, Yenny, and Sanroma, Esther

Subjects

Earth sciences, Monitoring, Gases traza, Satélites meteorológicos, lcsh:TA715-787, Infrared Atmospheric Sounding Interferometer, lcsh:Earthwork. Foundations, ddc:550, Trace gas products, lcsh:TA170-171, Interferómetro Espacial Infrarrojo, lcsh:Environmental engineering

Abstract

This paper presents the tools and methodology for performing a routine comprehensive monitoring of consistency and quality of IASI (Infrared Atmospheric Sounding Interferometer) trace gas Level 2 (L2) products (O3, CO, N2O, CH4, and CO2) generated at EUMETSAT (European Organisation for the Exploitation of Meteorological Satellites) using ground-based observations at the Izaña Atmospheric Observatory (IZO, Tenerife). As a demonstration the period 2010–2014 was analysed, covering the version 5 of the IASI L2 processor. Firstly, we assess the consistency between the total column (TC) observations from the IASI sensors on board the EUMETSAT Metop-A and Metop-B meteorological satellites (IASI-A and IASI-B respectively) in the subtropical North Atlantic region during the first 2 years of IASI-B operations (2012–2014). By analysing different timescales, we probe the daily and annual consistency of the variability observed by IASI-A and IASI-B and thereby assess the suitability of IASI-B for continuation of the IASI-A time series. The continuous intercomparison of both IASI sensors also offers important diagnostics for identifying inconsistencies between the data records and for documenting their temporal stability. Once the consistency of IASI sensors is documented we estimate the overall accuracy of all the IASI trace gas TC products by comparing to coincident ground-based Fourier transform infrared spectrometer (FTS) measurements performed at IZO from 2010 to 2014. The IASI L2 products reproduce the ground-based FTS observations well at the longest temporal scales, i.e. annual cycles and long-term trends for all the trace gases considered (Pearson correlation coefficient, R, larger than 0.95 and 0.75 for long-term trends and annual cycles respectively) with the exception of CO2. For CO2 acceptable agreement is only achieved for long-term trends (R ∼ 0.70). The differences observed between IASI and FTS observations can be in part attributed to the different vertical sensitivities of the two remote sensing instruments and also to the degree of maturity of the IASI products: O3 and CO are pre-operational, while N2O, CH4, and CO2 are, for the period covered by this study, aspirational products only and are not considered mature. Regarding shorter timescales (single or daily measurements), only the O3 product seems to show good sensitivity to actual atmospheric variations (R ∼ 0.80), while the CO product is only moderately sensitive (R ∼ 0.50). For the remainder of the trace gases, further improvements would be required to capture the day-to-day real atmospheric variability.

Published

2016

35. Spectral UV measurements within the EUropean BREWer NETwork: COST Action ES1207 (2013-2017)

Author

Gröbner, Julian, Redondas, Alberto, Lakkala, Kaisa, Serrano, A., Vilaplana Guerrero, José Manuel, León-Luis, Sergio F., Karppinen, Tomi, Fountoulakis, Ilias, Hülsen, Gregor, Egli, Luca, and Rimmer, John

Subjects

Spectral UV, EUBREWNET, Spectroradiometer, UV measurements

Abstract

Presentación realizada en: European Conference on Solar UV Monitoring-ECUVM, celebrada en Viena del 12 al 14 de septiembre de 2018.

Published

2018

36. Description of the Baseline Surface Radiation Network (BSRN) station at the Izaña Observatory (2009–2017): measurements and quality control/assurance procedures [Discussion]

Author

García Cabrera, Rosa Delia, Cuevas Agulló, Emilio, Ramos López, Ramón, Cachorro, Victoria E., Redondas, Alberto, and Moreno Ruiz, José A.

Subjects

Solar radiation, Quality control, Radiation measurements, Baseline Surface Radiation Network

Abstract

The Baseline Surface Radiation Network (BSRN) was implemented by the World Climate Research Programme (WRCP) starting observations with 9 stations in 1992, under the auspices of the World Meteorological Organization (WMO). Currently, 59 BSRN stations submit their data to the WRCP. One of these stations is the Izaña station (Station: IZA, #61) that enrolled in this network in 2009. This is a high-mountain station located in Tenerife (Canary Islands, Spain; at 28.3°N, 16.5°W, 2373ma.s.l.) and is a representative site of the subtropical North Atlantic free troposphere. It contributes with basic-BSRN radiation measurements, such as, global shortwave radiation (SWD), direct radiation (DIR), diffuse radiation (DIF) and longwave downward radiation (LWD) and extended-BSRN measurements, including ultraviolet ranges (UV-A and UV-B), shortwave upward radiation (SWU) and longwave upward radiation (LWU) and other ancillary measurements, such as vertical profiles of temperature, humidity and wind obtained from radiosonde (WMO, station #60018) and total column ozone from Brewer spectrophotometer. The IZA measurements present high quality standards since more than 98% of the data are within the limits recommended by the BSRN. There is an excellent agreement in the comparison between SWD, DIR and DIF (instantaneous and daily) measurements with simulations obtained with the LibRadtran radiative transfer model. The root mean square error (RMSE) for SWD is 2.28% for instantaneous values and 1.58% for daily values, while the RMSE for DIR is 2.00% for instantaneous values and 2.07% for daily values. IZA is a unique station that provides very accurate solar radiation data in very contrasting scenarios: most of the time under pristine sky conditions, and periodically under the effects of the Saharan Air Layer characterized by a high content of mineral dust. A detailed description of the BSRN program at IZA, including quality control and quality assurance activities, is given in this work. The IZA BSRN program has benefited from results obtained within POLARMOON project funded by the Ministerio de Economía y Competividad from Spain, CTM2015-66742-R.

Published

2018

37. UV Aerosol Optical Depth in the European Brewer Network

Author

López-Solano, Javier, Redondas, Alberto, Carlund, Thomas, Rodríguez Franco, Juan José, Diémoz, Henri, León-Luis, Sergio F., Hernández Cruz, Bentorey, Guirado-Fuentes, Carmen, Kouremeti, Natalia, Gröbner, Julian, Kazadzis, Stelios, Carreño Corbella, Virgilio, Berjón, Alberto, Santana-Díaz, Daniel, Rodríguez Valido, M., Bock, Veerle de, Moreta González, Juan Ramón, Rimmer, John, Smedley, Andrew R. D., Boulkelia, Lamine, Jepsen, Nis, Eriksen, Paul, Bais, Alkiviadis F., Shirotov, Vadim, Vilaplana Guerrero, José Manuel, Wilson, Keith M., and Karppinen, Tomi

Subjects

EUBREWNET, Aerosol optical depth, European Brewer Network, Brewer spectrophotometer

Abstract

Póster presentado en: 9th International Workshop on Sand/Duststorms and Associated Dustfall, celebrado en Tenerife del 22 al 24 de mayo de 2018. This work has been performed within the framework of COST Action ES1207 “The European Brewer Network” (EUBREWNET), supported by COST (European Cooperation in Science and Technology). Part of this work has been developed within the IDEAS+ project of the European Space Agency, in collaboration with LuftBlick Earth Observation Technologies. This work has been supported by the European Metrology Research Programme (EMRP) within the joint research project ENV59 “Traceability for atmospheric total column ozone” (ATMOZ). The EMRP is jointly funded by the EMRP participating countries within EURAMET and the European Union. These activities have been partially developed in the WMO-CIMO Testbed for Aerosols and Water Vapor Remote Sensing Instruments (Izaña, Spain). We also acknowledge the support of the Ministry of Economy and Competitiveness of Spain and the European Regional Development Fund (ERDF) under the POLARMOON (CTM2015-66742-R) and AEROATLAN (CGL2015-66299-P) projects. Stratospheric ozone and spectral UV baseline monitoring in the United Kingdom is supported by DEFRA, The Department for the Environment, Food, and Rural Affairs, since 2003. Some of the AERONET sun photometers used in this work have been calibrated within the AERONET Europe TNA, supported by the European Community-Research Infrastructure Action under the Horizon 2020 research and innovation program, ACTRIS-2 grant agreement No. 654109. We gratefully the acknowledge the PIs of the Madrid, Izaña, and Tamanrasset AERONET stations.

Published

2018

38. Almost one year of TROPOMI/S5P Total Ozone Column data: global ground-based validation

Author

Garane, Katerina, Balis, Dimitris, Koukouli, Maria-Elissavet, Bais, Alkiviadis F., Fioletov, Vitali, Pazmino, Andrea, Lambert, Jean-Christopher, Verhoelst, T., Granville, Jose, Bazureau, Ariane, Goutail, Florence, Pommereau, Jean-Pierre, McLinden, Chris, Heue, Klaus-Peter, Loyola, Diego, Xu, Jian, Zimmer, Walter, Romahn, Fabian, Lerot, Christophe, Roozendael, Michel Van, Redondas, Alberto, and Zerefos, Christos S.

Subjects

Tropospheric Monitoring Instrument, Ozone column, Brewer measurements

Abstract

Póster presentado en: ATMOS 2018, celebrado en Salzburgo (Austria) del 26 al 29 de noviembre de 2018. In this work we present the validation results of almost one year of TROPOMI Near Real Time (NRTI) and OFFLine (OFFL) data against ground-based quality-assured Brewer and Dobson total ozone column (TOC) measurements deposited in the World Ozone and Ultraviolet Radiation Data Center (WOUDC). Additionally, comparisons to Brewer measurements from the European Brewer Network (EUBREWNET) and the Canadian Network are performed, as well as to twilight zenith-sky measurements obtained with ZSL-DOAS (Zenith Scattered Light Differential Optical Absorption Spectroscopy) instruments, that form part of the SAOZ network (Système d'Analyse par Observation Zénitale) of the Network for the Detection of Atmospheric Composition Change (NDACC). Through the comparison of the TROPOMI measurements to the total ozone ground-based measurements from stations that are distributed globally, as the background truth, the dependence of the new instrument on latitude, cloud properties, solar zenith and viewing angles, among others, is examined. Validation results show that the mean bias and the standard deviation of the percentage difference between TROPOMI and QA ground TOC meet the product requirements.

Published

2018

39. Comparison of observed and modelled longwave downward radiation (2010-2016) at the high mountain BSRN Izaña station [Discussion paper]

Author

García Cabrera, Rosa Delia, Barreto Velasco, África, Cuevas Agulló, Emilio, Gröbner, Julian, García Rodríguez, Omaira Elena, Gómez Peláez, Ángel Jesús, Romero Campos, Pedro Miguel, Redondas, Alberto, Cachorro, Victoria E., and Ramos López, Ramón

Subjects

Longwave downward radiation, Radiative transfer models, Baseline Surface Radiation Network

Abstract

A 7-year comparison study between measured and simulated LDR under cloud-free conditions has been performed at the BSRN Izaña. Results show an excellent agreement with a mean bias (simulated-measured)

Published

2018

40. TROPOMI/S5P total ozone column data: global ground-based validation and consistency with other satellite missions

Author

Garane, Katerina, primary, Koukouli, Maria-Elissavet, additional, Verhoelst, Tijl, additional, Lerot, Christophe, additional, Heue, Klaus-Peter, additional, Fioletov, Vitali, additional, Balis, Dimitrios, additional, Bais, Alkiviadis, additional, Bazureau, Ariane, additional, Dehn, Angelika, additional, Goutail, Florence, additional, Granville, Jose, additional, Griffin, Debora, additional, Hubert, Daan, additional, Keppens, Arno, additional, Lambert, Jean-Christopher, additional, Loyola, Diego, additional, McLinden, Chris, additional, Pazmino, Andrea, additional, Pommereau, Jean-Pierre, additional, Redondas, Alberto, additional, Romahn, Fabian, additional, Valks, Pieter, additional, Van Roozendael, Michel, additional, Xu, Jian, additional, Zehner, Claus, additional, Zerefos, Christos, additional, and Zimmer, Walter, additional

Published

2019

41. TROPOMI/S5ptotal ozone column data: global ground-based validation & consistency with other satellite missions

Author

Garane, Katerina, primary, Koukouli, Maria-Elissavet, additional, Verhoelst, Tijl, additional, Fioletov, Vitali, additional, Lerot, Christophe, additional, Heue, Klaus-Peter, additional, Bais, Alkiviadis, additional, Balis, Dimitrios, additional, Bazureau, Ariane, additional, Dehn, Angelika, additional, Goutail, Florence, additional, Granville, Jose, additional, Griffin, Debora, additional, Hubert, Daan, additional, Keppens, Arno, additional, Lambert, Jean-Christopher, additional, Loyola, Diego, additional, McLinden, Chris, additional, Pazmino, Andrea, additional, Pommereau, Jean-Pierre, additional, Redondas, Alberto, additional, Romahn, Fabian, additional, Valks, Pieter, additional, Van Roozendael, Michel, additional, Xu, Jian, additional, Zehner, Claus, additional, Zerefos, Christos, additional, and Zimmer, Walter, additional

Published

2019

42. Supplementary material to "TROPOMI/S5ptotal ozone column data: global ground-based validation & consistency with other satellite missions"

Author

Garane, Katerina, primary, Koukouli, Maria-Elissavet, additional, Verhoelst, Tijl, additional, Fioletov, Vitali, additional, Lerot, Christophe, additional, Heue, Klaus-Peter, additional, Bais, Alkiviadis, additional, Balis, Dimitrios, additional, Bazureau, Ariane, additional, Dehn, Angelika, additional, Goutail, Florence, additional, Granville, Jose, additional, Griffin, Debora, additional, Hubert, Daan, additional, Keppens, Arno, additional, Lambert, Jean-Christopher, additional, Loyola, Diego, additional, McLinden, Chris, additional, Pazmino, Andrea, additional, Pommereau, Jean-Pierre, additional, Redondas, Alberto, additional, Romahn, Fabian, additional, Valks, Pieter, additional, Van Roozendael, Michel, additional, Xu, Jian, additional, Zehner, Claus, additional, Zerefos, Christos, additional, and Zimmer, Walter, additional

Published

2019

43. Description of the Baseline Surface Radiation Network (BSRN) station at the Izaña Observatory (2009–2017): measurements and quality control/assurance procedures

Author

García, Rosa Delia, primary, Cuevas, Emilio, additional, Ramos, Ramón, additional, Cachorro, Victoria Eugenia, additional, Redondas, Alberto, additional, and Moreno-Ruiz, José A., additional

Published

2019

44. Improved ozone monitoring by ground-based FTIR spectrometry.

Author

García, Omaira E., Sanromá, Esther, Schneider, Matthias, Hase, Frank, León-Luis, Sergio F., Blumenstock, Thomas, Sepúlveda, Eliezer, Redondas, Alberto, Carreño, Virgilio, Torres, Carlos, and Prats, Natalia

Subjects

ATMOSPHERIC temperature, ATMOSPHERIC chemistry, ATMOSPHERIC composition, SPECTROMETRY, OZONE, SOLAR spectra, ATMOSPHERIC ozone

Abstract

Accurate observations of atmospheric ozone (O3) are essential to monitor in detail the key role of O3 in the atmospheric chemistry. The present paper examines the performance of different O3 retrieval strategies from FTIR (Fourier Transform InfraRed) spectrometry by using the 20-year time series of the high-resolution solar spectra acquired from 1999 to 2018 at the subtropical Izaña Observatory (IZO, Spain) within NDACC (Network for the Detection of Atmospheric Composition Change). In particular, the effect of two of the most influential factors have been investigated: the spectral region used for O3 retrievals and inclusion of an atmospheric temperature profile fit. The theoretical and experimental quality assessments of the different FTIR O3 products (total column, TC, amounts and volume mixing ratio, VMR, profiles) provide consistent results. Combining an optimal selection of spectral O3 absorption lines and a simultaneous temperature retrieval results in superior FTIR O3 products, with a precision greater than 0.6-0.7% for O3 TCs as compared to coincident NDACC Brewer observations used as reference. However, this improvement can be only achieved provided the FTIR spectrometer is properly characterised and stable over time. For unstable instruments, the temperature fit has been found to exhibit a strong negative influence on O3 retrievals by increasing the cross-interference between instrumental performance and temperature retrieval. This cross-interference becomes especially noticeable beyond the upper troposphere/lower stratosphere as documented theoretically, as well as experimentally by comparing FTIR O3 profiles to those measured using Electrochemical Concentration Cell (ECC) sondes within NDACC. Consequently, it should be taken into account for the reliable monitoring of O3 vertical distribution, especially on long-term timescales. [ABSTRACT FROM AUTHOR]

Published

2021

45. Aerosol optical depth in the European Brewer Network

Author

Lopez-Solano, Javier, Redondas, Alberto, Carlund, Thomas, Rodriguez-Franco, Juan J., Diemoz, Henri, Leon-Luis, Sergio F., Hernandez-Cruz, Bentorey, Guirado-Fuentes, Carmen, Kouremeti, Natalia, Grobner, Julian, Kazadzis, Stelios, Carreno, Virgilio, Berjon, Alberto, Santana-Diaz, Daniel, Rodriguez-Valido, Manuel, De Bock, Veerle, Moreta, Juan R., Rimmer, John, Smedley, Andrew R. D., Boulkelia, Lamine, Jepsen, Nis, Eriksen, Paul, Bais, Alkiviadis F., Shirotov, Vadim, Vilaplana, Jose M., Wilson, Keith M., Karppinen, Tomi, Lopez-Solano, Javier, Redondas, Alberto, Carlund, Thomas, Rodriguez-Franco, Juan J., Diemoz, Henri, Leon-Luis, Sergio F., Hernandez-Cruz, Bentorey, Guirado-Fuentes, Carmen, Kouremeti, Natalia, Grobner, Julian, Kazadzis, Stelios, Carreno, Virgilio, Berjon, Alberto, Santana-Diaz, Daniel, Rodriguez-Valido, Manuel, De Bock, Veerle, Moreta, Juan R., Rimmer, John, Smedley, Andrew R. D., Boulkelia, Lamine, Jepsen, Nis, Eriksen, Paul, Bais, Alkiviadis F., Shirotov, Vadim, Vilaplana, Jose M., Wilson, Keith M., and Karppinen, Tomi

Published

2018

46. Uncertainties in TOC retrieval for Brewer and Dobson data and the role of cross-correlations among influence parameters

Author

el-Gawhary‏, Omar‏, Parra Rojas, Francisco C., Redondas, Alberto, and Marrero, Carlos

Subjects

Brewer, Total Column Ozone, Dobson

Abstract

Presentación realizada en: ATMOZ workshop at 11th RBCC-E, celebrado en El Arenosillo, Huelva, el 1 de junio de 2017.

Published

2017

47. Temperature characterisation of Brewer determined in the laboratory

Author

Berjón, Alberto, Redondas, Alberto, Sildoja, Meelis-Mait, Nevas, Saulius, Carreño Corbella, Virgilio, Santana-Díaz, Daniel, León-Luis, Sergio F., Hernández Cruz, Bentorey, and López-Solano, Javier

Subjects

Effect of temperature, Brewer, Spectroradiometer, Measurements, Brewer measurements, Brewer spectrophotometer

Abstract

Comunicación presentada en: Brewer Ozone Spectrophotometer/Metrology Open Workshop celebrado del 17 al 20 de mayo de 2016 en Ponta Delgada, Azores, Portugal. This work has been supported by the European Metrology Research Programme (EMRP) within the joint research project ENV59 "Traceability for atmospheric total column ozone" (ATMOZ)

Published

2017

48. Traceability for atmospheric total column ozone

Author

Gröbner, Julian, Redondas, Alberto, Weber, Mark, and Bais, Alkiviadis F.

Subjects

Ultraviolet radiation, Ozone, Brewer spectrophotometers, Dobson spectrophotometers

Abstract

Final Publishable JRP Report. Issued: November 2017. Version V1.0 Ozone in the earth’s upper atmosphere absorbs ultraviolet radiation, preventing most of it reaching the ground.This is important because ultraviolet radiation can harm life on earth, and for example lead to skin cancer.Since the 1980s, it has been known that human-produced chlorofluorocarbons (CFCs) have led to recurring losses of total ozone in the Antarctic (the ozone hole), and these have also been recently observed in the Arctic, while in middle-latitudes, moderate ozone depletion has been observed. The Montreal Protocol on Substances that Deplete the Ozone Layer is an international treaty signed in 1994 designed to protect the ozone layer by phasing out the production of substances that are responsible for ozone depletion, and it has been successful in reducing the emission of ozone-depleting substances. However, monitoring of the recovery of the ozone layer requires accurate long-term observations with reliable and well understood instruments and the development of future instrumentation. This project characterised key reference and network instruments for the traceability of ozone retrievals (or measurements), developed new instruments and devices for in-field characterisation of the existing network instruments and new ozone monitoring instruments, and generated new datasets for ozone absorption crosssections and extra-terrestrial solar reference spectrum. The EMRP is jointly funded by the EMRP participating countries within EURAMET and the European Union.

Published

2017

49. Intercomparison of ozone measurements with Brewer and Pandora instruments at Izaña

Author

Redondas, Alberto, Santana-Díaz, Daniel, Cede, Alexander, and Tiefengraber, Martin

Subjects

Brewer, Pandora calibration, Gasses

Abstract

Presentación realizada en: ATMOZ workshop at 11th RBCC-E, celebrado en El Arenosillo, Huelva, el 1 de junio de 2017. This work has been supported by the European Metrology Research Programme (EMRP) within the joint research project ENV59 “Traceability for atmospheric total column ozone” (ATMOZ). The EMRP is jointly funded by the EMRP participating countries within EURAMET and the European Union.

Published

2017

50. Characterization of Dobsons instruments within EMRP ATMOZ Project

Author

Nevas, Saulius, Sildoja, Meelis-Mait, Köhler, Ulf, Schönenborn, Fritz, Heinen, M., McConville, Glen, Evans, Robert, Smid, Marek, Porrovecchio, Geiland, Stanek, Martin, Redondas, Alberto, Stübi, Rene, and Siegrist, W.

Subjects

Spectrophotometers, Dobson instrument, Measurements

Abstract

Presentación realizada en: ATMOZ workshop at 11th RBCC-E, celebrado en El Arenosillo, Huelva, el 1 de junio de 2017.

Published

2017