9 results on '"Docampo S"'
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2. Influence of temperature, rainfall and wind trends on grass pollination in Malaga (western Mediterranean coast)
- Author
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Recio, M., Docampo, S., García-Sánchez, J., Trigo, M.M., Melgar, M., and Cabezudo, B.
- Published
- 2010
- Full Text
- View/download PDF
3. Atmospheric pollen dynamics in Münster, north-western Germany: a three-year study (2004–2006)
- Author
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Melgar, M., Trigo, M. M., Recio, M., Docampo, S., García-Sánchez, J., and Cabezudo, B.
- Published
- 2012
- Full Text
- View/download PDF
4. High incidence of Aspergillus and Penicillium spores in the atmosphere of the cave of Nerja (Malaga, southern Spain)
- Author
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Docampo, S., Trigo, M. M., Recio, M., Melgar, M., García-Sánchez, J., Calderón-Ezquerro, M. C., and Cabezudo, B.
- Published
- 2010
- Full Text
- View/download PDF
5. A three-year aeropalynological study in Estepona (southern Spain)
- Author
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Recio, Marta, Trigo, Maria del Mar, Toro, Francisco Javier, Docampo, Silvia, Garcia-Gonzalez, Juan, Cabezudo, Baltasar, [Recio,M, Trigo,MM, Toro,FJ, Docampo,S, Cabezudo,B] Department of Plant Biology, University of Malaga, Malaga, Spain. [García-González,JJ] Allergy Section, Complejo Hospitalario Carlos Haya, Malaga, Spain., and The Ministerio de Educación y Ciencia of Spain (DGICYT Proyect PB92-0814-02) and the Comisión Interministerial de Ciencia y Tecnología (CICYT Project AMB97-0457-CO7-05)
- Subjects
Geographicals::Geographic Locations::Europe::Spain [Medical Subject Headings] ,Health Care::Environment and Public Health::Public Health::Environmental Pollution::Environmental Exposure::Environmental Monitoring [Medical Subject Headings] ,Allergy ,Airborne pollen ,Contaminantes atmosféricos ,Pollen cadendar ,España ,Aerobiology ,Diseases::Immune System Diseases::Hypersensitivity [Medical Subject Headings] ,Anatomy::Plant Structures::Plant Components, Aerial::Flowering Tops::Flowers::Germ Cells, Plant::Pollen [Medical Subject Headings] ,Analytical, Diagnostic and Therapeutic Techniques and Equipment::Investigative Techniques::Epidemiologic Methods::Statistics as Topic::Probability::Risk::Risk Factors [Medical Subject Headings] ,Organisms::Eukaryota::Animals::Chordata::Vertebrates::Mammals::Primates::Haplorhini::Catarrhini::Hominidae::Humans [Medical Subject Headings] ,Spain ,Alérgenos ,Chemicals and Drugs::Chemical Actions and Uses::Toxic Actions::Environmental Pollutants::Air Pollutants [Medical Subject Headings] ,Phenomena and Processes::Biological Phenomena::Ecological and Environmental Phenomena::Environment::Climate [Medical Subject Headings] ,Clima ,Chemicals and Drugs::Biological Factors::Antigens::Allergens [Medical Subject Headings] ,Phenomena and Processes::Biological Phenomena::Ecological and Environmental Phenomena::Environment::Climate::Seasons [Medical Subject Headings] ,Health Care::Environment and Public Health::Public Health::Environmental Pollution::Air Pollution [Medical Subject Headings] ,Pollen spectrum - Abstract
Journal Article; Research Support, Non-U.S. Gov't; An aeropalynological study was carried out in the atmosphere of Estepona, a very popular tourist resort situated in the "Costa del Sol", (southern Spain) based on the data obtained during a three year air-monitoring programme (March 1995 to March 1998) using a volumetric pollen trap. The 34 taxa that reached a 10-day mean air pollen concentration equal to or greater than 1 grain of pollen/m(3) of air are reflected in the calendar. The first 10 taxa, in order of abundance, were: Cupressaceae, Olea europaea, Quercus, Poaceae, Urticaceae, Plantago, Pinus, Chenopodiaceae-Amaranthaceae, Ericaceae and Castanea, the first 3 of which accounted for approximately 56 % of the annual total pollen count. The greatest diversity of pollen type occurred during spring, while the highest pollen concentrations were reached from February-June, when approximately more than 80 % of the annual total pollen was registered. The lowest concentrations were obtaining during January, August and September. The annual quantity of pollen collected, the intensity and the dates on which the maximum peaks were recorded differed for the 3 years studied, which can be explained by reference to various meteorological parameters, especially rainfall and temperature. The pollen calendar spectrum is typically Mediterranean and similar to those of nearby localities, in which many pollen types are represented and the long tails indicating long flowering periods. Yes
- Published
- 2006
6. Turning cork by-products into smart and green materials for solid-phase extraction - gas chromatography tandem mass spectrometry analysis of fungicides in water.
- Author
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Celeiro M, Vazquez L, Sergazina M, Docampo S, Dagnac T, Vilar VJP, and Llompart M
- Subjects
- Adsorption, Analysis of Variance, Particle Size, Rain, Rivers chemistry, Tandem Mass Spectrometry methods, Water chemistry, Fungicides, Industrial analysis, Gas Chromatography-Mass Spectrometry methods, Solid Phase Extraction methods, Water Pollutants, Chemical analysis
- Abstract
During stoppers production, large amounts of cork by-products (CBPs) are generated, being used as low-value material. This project aims to turn CBPs into smart, natural and sustainable materials (sorbent) for solid-phase extraction (SPE) of pesticides from water. The study describes the use of CBPs for the extraction of 17 fungicides (metalaxyl, cyprodinil, tolylfluanid, procymidone, folpet, fludioxonil, myclobutanil, kresoxim methyl, iprovalicarb, benalaxyl, trifloxystrobin, fenhexamid, tebuconazole, iprodione, pyraclostrobin, azoxystrobin and dimethomorph) followed by gas chromatography-tandem mass spectrometry (GC-MS/MS) analysis. The most critical parameters affecting SPE were optimized by experimental design methodology. Under the optimal conditions, the method was successfully validated in terms of linearity, repeatability, and intermediate precision. Fungicide recovery was assessed in different real water samples including river, fountain, rainwater and spring water at 3 concentration levels (0.1, 0.5 and 10 µg L
-1 ). Recoveries ranged between 70-118% with RSD values lower than 20%, and matrix effects were not observed. Finally, the method was applied to samples from irrigation, rain, and river water, all collected in vineyards areas, revealing the presence of 10 of the 17 fungicides, at concentration up to hundreds of µg L-1 . The use of CBPs seems to be a promising low-cost and ecofriendly alternative to be employed as sorbent in SPE techniques to extract fungicides from the aquatic environment., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)- Published
- 2020
- Full Text
- View/download PDF
7. Analysis of the predicting variables for daily and weekly fluctuations of two airborne fungal spores: Alternaria and Cladosporium.
- Author
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Recio M, Trigo Mdel M, Docampo S, Melgar M, García-Sánchez J, Bootello L, and Cabezudo B
- Subjects
- Air Microbiology, Environmental Monitoring, Spain, Temperature, Time Factors, Alternaria isolation & purification, Cladosporium isolation & purification, Spores, Fungal isolation & purification
- Abstract
Alternaria and Cladosporium are two fungal taxa whose spores (conidia) are included frequently in aerobiological studies of outdoor environments. Both spore types are present in the atmosphere of Malaga (Spain) throughout almost the entire year, although they reach their highest concentrations during spring and autumn. To establish predicting variables for daily and weekly fluctuations, Spearman's correlations and stepwise multiple regressions between spore concentrations (measured using a volumetric 7-day recorder) and meteorological variables were made with results obtained for both spore types in 1996 and 1997. Correlations and regressions were also made between the different taxa and their concentrations in different years. Significant and positive correlation coefficients were always obtained between spore concentrations of both taxa, followed by temperature, their concentrations in different years, sunshine hours and relative humidity (this last in a negative sense). For the two spore types we obtained higher correlation and regression coefficients using weekly data. We showed different regression models using weekly values. From the results and a practical point of view, it was concluded that weekly values of the atmospheric concentration of Alternaria spores can be predicted from the maximum temperature expected and its concentrations in the years sampled. As regards the atmospheric concentration of Cladoposrium spores, the weekly values can be predicted based on the concentration of Alternaria spores, thus saving the time and effort that would otherwise be employed in counting them by optical microscopy.
- Published
- 2012
- Full Text
- View/download PDF
8. Fungal spore content of the atmosphere of the Cave of Nerja (southern Spain): diversity and origin.
- Author
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Docampo S, Trigo MM, Recio M, Melgar M, García-Sánchez J, and Cabezudo B
- Subjects
- Air Pollutants isolation & purification, Air Pollution statistics & numerical data, Environment, Environmental Monitoring, Seasons, Spain, Spores, Fungal isolation & purification, Air Microbiology, Air Pollutants analysis, Atmosphere chemistry, Spores, Fungal classification
- Abstract
Fungal spores are of great interest in aerobiology and allergy due to their high incidence in both outdoor and indoor environments and their widely recognized ability to cause respiratory diseases and other pathologies. In this work, we study the spore content of the atmosphere of the Cave of Nerja, a karstic cavity and an important tourist attraction situated on the eastern coast of Malaga (southern Spain), which receives more than half a million visitors every year. This study was carried out over an uninterrupted period of 4 years (2002-2005) with the aid of two Hirst-type volumetric pollen traps (Lanzoni VPPS 2000) situated in different halls of the cave. In the atmosphere of the Cave of Nerja, 72 different spore types were detected during the studied period and daily mean concentrations of up to 282,195 spores/m(3) were reached. Thirty-five of the spore types detected are included within Ascomycota and Basidiomycota (19 and 16 types, respectively). Of the remaining spore types, 32 were categorized within the group of so-called imperfect fungi, while Oomycota and Myxomycota were represented by 2 and 3 spore types, respectively. Aspergillus/Penicillium was the most abundant spore type with a yearly mean percentage that represented 50% of the total, followed by Cladosporium. Finally, the origin of the fungal spores found inside the cave is discussed on the basis of the indoor/outdoor concentrations and the seasonal behaviour observed., (Copyright © 2010 Elsevier B.V. All rights reserved.)
- Published
- 2011
- Full Text
- View/download PDF
9. A three-year aeropalynological study in Estepona (southern Spain).
- Author
-
Recio M, Del Mar Trigo M, Toro F, Docampo S, Garcia-Gonzalez J, and Cabezudo B
- Subjects
- Air Pollutants toxicity, Climate, Humans, Hypersensitivity etiology, Hypersensitivity prevention & control, Risk Factors, Seasons, Spain, Air Pollutants analysis, Air Pollution analysis, Allergens analysis, Environmental Monitoring methods, Pollen toxicity
- Abstract
An aeropalynological study was carried out in the atmosphere of Estepona, a very popular tourist resort situated in the "Costa del Sol", (southern Spain) based on the data obtained during a three year air-monitoring programme (March 1995 to March 1998) using a volumetric pollen trap. The 34 taxa that reached a 10-day mean air pollen concentration equal to or greater than 1 grain of pollen/m(3) of air are reflected in the calendar. The first 10 taxa, in order of abundance, were: Cupressaceae, Olea europaea, Quercus, Poaceae, Urticaceae, Plantago, Pinus, Chenopodiaceae-Amaranthaceae, Ericaceae and Castanea, the first 3 of which accounted for approximately 56 % of the annual total pollen count. The greatest diversity of pollen type occurred during spring, while the highest pollen concentrations were reached from February-June, when approximately more than 80 % of the annual total pollen was registered. The lowest concentrations were obtaining during January, August and September. The annual quantity of pollen collected, the intensity and the dates on which the maximum peaks were recorded differed for the 3 years studied, which can be explained by reference to various meteorological parameters, especially rainfall and temperature. The pollen calendar spectrum is typically Mediterranean and similar to those of nearby localities, in which many pollen types are represented and the long tails indicating long flowering periods.
- Published
- 2006
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