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Papers by Paolo Mandrioli

Journal of Applied Microbiology, 2018

Annals of Agricultural and Environmental Medicine, 2014

Aerobiologia, 2001

The pollination period and pollen concentrationof olive trees (Oleaeuropea L.) and olive producti... more The pollination period and pollen concentrationof olive trees (Oleaeuropea L.) and olive production were analysedfor Prato and Florenceusing a data set of 8 years (1991–1998).Meteorological data have been usedto obtain information about weather conditionsduring vegetative seasonsand correlations were found both for thephenology and yield.

Clinical & Experimental Allergy, 2010

Aerobiologia

The analysis of profilin Ole e 2 concentration and its relationship with pollen concentration was... more The analysis of profilin Ole e 2 concentration and its relationship with pollen concentration was carried out in the atmosphere of León (located in north-western of Spain) during 3 years. Moreover, we have studied the influence of some atmospheric pollutants and climatic parameters using Spearman rank correlation and principal components analysis. As a result, the presence in the atmosphere of Ole e 2 is demonstrated. We can observe that in April and until mid-May, the peaks of Ole e 2 correspond to the high concentrations of pollen from various tree plants, such as Quercus, Populus, Betula, Cupressaceae. From this date until the middle of June, where the presence of this profilin begins to be scarce in the air, the concentration of Ole e 2 is linked to herbaceous plants: Rumex, Plantago and species of the family Poaceae. Statistical analysis showed that the factors of temperature get influenced the most in the presence of Ole e 2 in the atmosphere, followed by the relative humidity and precipitation. In our study, there was no clear correlation with atmospheric pollutants; however, an increase in NO2 and SO2 causes a decrease in profilin in the atmosphere.

Ambiociencias

La finalidad de la investigación aplicada a la conservación de los bienes culturales es valorar l... more La finalidad de la investigación aplicada a la conservación de los bienes culturales es valorar los riesgos de alteración de los materiales de interés históricoartístico y arqueológico, provocados por organismos transportados a través del aire. Según el tipo de manufacturados y de las condiciones microclimáticas y de contaminación de los ambientes donde se conservan, las esporas y numerosos microorganismos aerotransportados pueden desarrollarse sobre diversas matrices y constituir un elemento de degradación. La valoración cualitativa y cuantitativa del bioaerosol, llevada a cabo mediante campañas de análisis específicos y teniendo en cuenta las características de los materiales y del ambiente, contribuyen a definir la situación de riesgo real de las obras de arte y proporcionan indicadores indispensables para realizar las oportunas intervenciones-

Atmospheric Environment

Abstract Most pollen allergens in the air are carried by pollen grains, but the presence of airbo... more Abstract Most pollen allergens in the air are carried by pollen grains, but the presence of airborne smaller respirable particles containing pollen allergens has also been demonstrated. Meteorological factors drastically affect the occurrence of pollen, allergen release in the air and diffusion of the latest. In order to shed light on this phenomenon, the dynamics of pollen and the pollen panallergen profilin in the air of two European cities (Leon, Spain and Bologna, Italy) having different weather conditions, were analyzed. Pollen sampling was performed continuously from March to June 2015 using two seven-day recording volumetric trap of Hirst-type, while the particles for aeroallergen quantification were sampled with a Burkard Cyclone sampler and the profilin content in aerosol samples was quantified using an indirect double-antibody sandwich ELISA. In both cities, pollen and profilin concentrations followed a similar trend and showed a significant correlation; however, peaks were often misaligned, with the profilin peaks following those of pollen. Several meteorological parameters, such as relative humidity, significantly influenced pollen and allergen dispersion. In vitro pollen tests were thus performed in order to mimic pollen rehydration, occurring in natural conditions and a massive protein release from allergenic pollen was detected during the early stages of pollen rehydration when profilin was also extruded from the grains. The different timing and protein amounts released from different pollen during hydration might explain, at least in part, the non-synchronous pollen and profilin peaks detected in the atmosphere.

Aerobiologia

While pollen sampling has been standardised in the last decades, allergen extraction from aerobio... more While pollen sampling has been standardised in the last decades, allergen extraction from aerobiological samples still needs standardisation. With the aim to identify the most practical, efficient and reproducible method, in this study, protein extraction protocols from Poaceae pollen, i.e. Lolium perenne, Phleum pratense and Dactylis glomerata, were evaluated. Three extraction protocols were selected and compared in terms of protein yield and allergen extraction. The methods were based on the use of: (1) lysis buffer; (2) pollen hydration in PBS buffer followed by sonication; and (3) pollen hydration in PBS buffer. After extraction, protein concentration was measured. Results indicated that the different extraction protocols could extract significantly different protein amounts, being the lysis buffer-based protocol the most efficient in terms of total protein extraction. However, when allergen extraction was compared, no significant differences were detectable among the different protocols. Results afforded the selection of a suitable extraction protocol for Poaceae pollen allergens. In particular, results suggested a PBS extraction followed by sonication; as it allowed the highest allergen extraction, it might be the most reproducible protocol minimising any possible interference with proteomics and immunological studies when compared to lysis buffer method.

Atmospheric Aerosols, 2016

Science of The Total Environment, 2017

Mapping pollen concentrations is of great interest to study the health impact and ecological impl... more Mapping pollen concentrations is of great interest to study the health impact and ecological implications or for forestry or agronomical purposes. A deep knowledge about factors affecting airborne pollen is essential for predicting and understanding its dynamics. The present work sought to predict annual Quercus pollen over the Castilla and León region (Central and Northern Spain). Also to understand the relationship between airborne pollen and landscape. Records of Quercus and Quercus pyrenaica pollen types were collected at 13 monitoring sites over a period of 8years. They were analyzed together with land use data applying the Concentric Ring Method (CRM), a technique that we developed to study the relationship between airborne particle concentrations and emission sources in the region. The maximum correlation between the Quercus pollen and forms of vegetation was determined by shrubland and "dehesa" areas. For the specific Qi pyrenaica model (Q. pyrenaica pollen and Q. pyrenaica forest distribution), the maximum influence of emission sources on airborne pollen was observed at 14km from the pollen trap location with some positive correlations up to a distance of 43km. Apart from meteorological behavior, the local features of the region can explain pollen dispersion patterns. The method that we develop here proved to be a powerful tool for multi-source pollen mapping based on land use.

Journal of Applied Microbiology, 2018

Annals of Agricultural and Environmental Medicine, 2014

Aerobiologia, 2001

The pollination period and pollen concentrationof olive trees (Oleaeuropea L.) and olive producti... more The pollination period and pollen concentrationof olive trees (Oleaeuropea L.) and olive production were analysedfor Prato and Florenceusing a data set of 8 years (1991–1998).Meteorological data have been usedto obtain information about weather conditionsduring vegetative seasonsand correlations were found both for thephenology and yield.

Clinical & Experimental Allergy, 2010

Aerobiologia

The analysis of profilin Ole e 2 concentration and its relationship with pollen concentration was... more The analysis of profilin Ole e 2 concentration and its relationship with pollen concentration was carried out in the atmosphere of León (located in north-western of Spain) during 3 years. Moreover, we have studied the influence of some atmospheric pollutants and climatic parameters using Spearman rank correlation and principal components analysis. As a result, the presence in the atmosphere of Ole e 2 is demonstrated. We can observe that in April and until mid-May, the peaks of Ole e 2 correspond to the high concentrations of pollen from various tree plants, such as Quercus, Populus, Betula, Cupressaceae. From this date until the middle of June, where the presence of this profilin begins to be scarce in the air, the concentration of Ole e 2 is linked to herbaceous plants: Rumex, Plantago and species of the family Poaceae. Statistical analysis showed that the factors of temperature get influenced the most in the presence of Ole e 2 in the atmosphere, followed by the relative humidity and precipitation. In our study, there was no clear correlation with atmospheric pollutants; however, an increase in NO2 and SO2 causes a decrease in profilin in the atmosphere.

Ambiociencias

La finalidad de la investigación aplicada a la conservación de los bienes culturales es valorar l... more La finalidad de la investigación aplicada a la conservación de los bienes culturales es valorar los riesgos de alteración de los materiales de interés históricoartístico y arqueológico, provocados por organismos transportados a través del aire. Según el tipo de manufacturados y de las condiciones microclimáticas y de contaminación de los ambientes donde se conservan, las esporas y numerosos microorganismos aerotransportados pueden desarrollarse sobre diversas matrices y constituir un elemento de degradación. La valoración cualitativa y cuantitativa del bioaerosol, llevada a cabo mediante campañas de análisis específicos y teniendo en cuenta las características de los materiales y del ambiente, contribuyen a definir la situación de riesgo real de las obras de arte y proporcionan indicadores indispensables para realizar las oportunas intervenciones-

Atmospheric Environment

Abstract Most pollen allergens in the air are carried by pollen grains, but the presence of airbo... more Abstract Most pollen allergens in the air are carried by pollen grains, but the presence of airborne smaller respirable particles containing pollen allergens has also been demonstrated. Meteorological factors drastically affect the occurrence of pollen, allergen release in the air and diffusion of the latest. In order to shed light on this phenomenon, the dynamics of pollen and the pollen panallergen profilin in the air of two European cities (Leon, Spain and Bologna, Italy) having different weather conditions, were analyzed. Pollen sampling was performed continuously from March to June 2015 using two seven-day recording volumetric trap of Hirst-type, while the particles for aeroallergen quantification were sampled with a Burkard Cyclone sampler and the profilin content in aerosol samples was quantified using an indirect double-antibody sandwich ELISA. In both cities, pollen and profilin concentrations followed a similar trend and showed a significant correlation; however, peaks were often misaligned, with the profilin peaks following those of pollen. Several meteorological parameters, such as relative humidity, significantly influenced pollen and allergen dispersion. In vitro pollen tests were thus performed in order to mimic pollen rehydration, occurring in natural conditions and a massive protein release from allergenic pollen was detected during the early stages of pollen rehydration when profilin was also extruded from the grains. The different timing and protein amounts released from different pollen during hydration might explain, at least in part, the non-synchronous pollen and profilin peaks detected in the atmosphere.

Aerobiologia

While pollen sampling has been standardised in the last decades, allergen extraction from aerobio... more While pollen sampling has been standardised in the last decades, allergen extraction from aerobiological samples still needs standardisation. With the aim to identify the most practical, efficient and reproducible method, in this study, protein extraction protocols from Poaceae pollen, i.e. Lolium perenne, Phleum pratense and Dactylis glomerata, were evaluated. Three extraction protocols were selected and compared in terms of protein yield and allergen extraction. The methods were based on the use of: (1) lysis buffer; (2) pollen hydration in PBS buffer followed by sonication; and (3) pollen hydration in PBS buffer. After extraction, protein concentration was measured. Results indicated that the different extraction protocols could extract significantly different protein amounts, being the lysis buffer-based protocol the most efficient in terms of total protein extraction. However, when allergen extraction was compared, no significant differences were detectable among the different protocols. Results afforded the selection of a suitable extraction protocol for Poaceae pollen allergens. In particular, results suggested a PBS extraction followed by sonication; as it allowed the highest allergen extraction, it might be the most reproducible protocol minimising any possible interference with proteomics and immunological studies when compared to lysis buffer method.

Atmospheric Aerosols, 2016

Science of The Total Environment, 2017

Mapping pollen concentrations is of great interest to study the health impact and ecological impl... more Mapping pollen concentrations is of great interest to study the health impact and ecological implications or for forestry or agronomical purposes. A deep knowledge about factors affecting airborne pollen is essential for predicting and understanding its dynamics. The present work sought to predict annual Quercus pollen over the Castilla and León region (Central and Northern Spain). Also to understand the relationship between airborne pollen and landscape. Records of Quercus and Quercus pyrenaica pollen types were collected at 13 monitoring sites over a period of 8years. They were analyzed together with land use data applying the Concentric Ring Method (CRM), a technique that we developed to study the relationship between airborne particle concentrations and emission sources in the region. The maximum correlation between the Quercus pollen and forms of vegetation was determined by shrubland and "dehesa" areas. For the specific Qi pyrenaica model (Q. pyrenaica pollen and Q. pyrenaica forest distribution), the maximum influence of emission sources on airborne pollen was observed at 14km from the pollen trap location with some positive correlations up to a distance of 43km. Apart from meteorological behavior, the local features of the region can explain pollen dispersion patterns. The method that we develop here proved to be a powerful tool for multi-source pollen mapping based on land use.