Objective To study the genera and seasonal distribution of airborne pollen in Hubei province of China, and its relationship with pollinosis. Methods From November 2003 to October 2004, an airborne pollen investigation...Objective To study the genera and seasonal distribution of airborne pollen in Hubei province of China, and its relationship with pollinosis. Methods From November 2003 to October 2004, an airborne pollen investigation was performed in 16 chosen areas in 12 cities of Hubei province using gravity sedimentation technique. Meanwhile, univalent skin prick tests of pollens were performed and the invasion season was studied on 2 300 patients with pollinosis. Among them, 352 cases underwent the airway responsiveness measurements, and the correlation between airway responsiveness and results of pollen count was analyzed. Results A total of 61 pollen genera were observed and 257 520 pollens were collected. The peak of airborne pollen distribution occurred in two seasons each year: spring (March and April) and autumn (from August to October). The attack of pollinosis corresponded to the peak of pollen distribution. There was a significantly negative relationship between the provocation dose causing a 20% decrease of forced expiratory volume in one second (FEV1) from baseline and airborne pollen concentration (r = -0.6829, P < 0.05). Conclusion This study provides useful information for airborne pollen epidemiology of Hubei province, and it provides important insights to clinical prevention, diagnosis, and treatment of pollen-related allergic diseases.展开更多
A three-year aeropalynological study was carried out in the month of August for each of the three years 2005, 2006 and 2007 in the Beijing Olympic Park. A total of 19550 pollen grains were counted (15057 grains in 20...A three-year aeropalynological study was carried out in the month of August for each of the three years 2005, 2006 and 2007 in the Beijing Olympic Park. A total of 19550 pollen grains were counted (15057 grains in 2005, 2717 in 2006 and 1776 in 2007) for the following taxa: Gramineae, Chenopodiaceae, Humulus L., Artemisia L., Ambrosia L. and Pinus L. The analysis indicated that in the three consecutive years of 2005-007, airborne pollen types and daily number of pollen in August in the Beijing Olympic Park were closely related to environmental change and vegetation composition. The daily variations of airborne pollen displayed similar patterns in August in each of the three years, which were affected positively by periods of daily sunshine, negatively by daily relative humidity and daily precipitation. Continuously high daily temperatures and stable daily wind speeds seemed to have little effect on the fluctuation of airborne pollen.展开更多
In order to study the airborne pollen and Spores, a circular year airborne Samples werecollected at 10m height above ground from Taoyuan ecological station, which is located in TaoyuanCounty of Hunan Province. The ana...In order to study the airborne pollen and Spores, a circular year airborne Samples werecollected at 10m height above ground from Taoyuan ecological station, which is located in TaoyuanCounty of Hunan Province. The analytical results showed that there are 188 plant families and generain airborne pollen and spores. of them, 102 are xylophyte plants, 68 are herbase plat, and 18are pteridophyta plants. The plant families and genera account for 80% of the local plant families andgenera. Among them, 54 are specific families and genera, Which are peculiar tO tropics andsubtropics. The main pollen and spore families and genera are Pinus. Cunninghamia Juglans,Quercus, Cupressaceae, Urticaceac, and Gleicheniaceae. There are two peak stages of airbornepollen and spore concentration throughout the year. One is the peak stage of xylophyte plants fromMarch to May and the other, herbaceous plants from niddle dekad of August to early October. Themaximum year round value is 850 000 grains/1000m3.air in middle dekad of September and theminimum is 1500 grains/1000m3.air in early December. In the local district, the airbome pollen andSpores which can induce respiratory tract disease in spring are Taxodiaceae, Cupresaseeae, CastrieaCastanopsis, Queme, Juglans, Platycarya, and that can induce disease in autumn are Canabis,Gramineae, and Artmisia.展开更多
Objective Allergic disease caused by airborne pollen is a major health problem in China. Intensive study on pollen allergens can be of great help for preventing and treating pollinosis. Four aspects of the study on po...Objective Allergic disease caused by airborne pollen is a major health problem in China. Intensive study on pollen allergens can be of great help for preventing and treating pollinosis. Four aspects of the study on pollen allergens in China including major allergic pollen in our country, analysis and purification of pollen allergen composition, recombinant pollen allergens and clinical application of pollen allergens are described in this paper.展开更多
Airborne pollen is indicative of vegetation and climatic conditions.This study investigates airborne pollen trapping in the Betula microphylla-dominated wetland of Ebinur Lake in Northwestern China from September 2012...Airborne pollen is indicative of vegetation and climatic conditions.This study investigates airborne pollen trapping in the Betula microphylla-dominated wetland of Ebinur Lake in Northwestern China from September 2012 to August 2015 using Pearson correlation analysis and the Hybrid Single-particle Lagrangian Integrated Trajectory model.Higher temperatures and moderate precipitation during the flowering period facilitated an increase in birch pollen with more exotic spruce pollen carried from the Tianshan Mountains by airflows,leading to the highest arbor pollen concentrations from September 2012 to August 2013.Peak pollen concentrations from September 2013 to August 2014 were possibly due to an increase in herbaceous pollen resulting from higher temperatures,lower precipitation and more exotic pollen from the desert of southwest Ebinur Lake and Central Asia in summer and autumn.Between September 2014 and August 2015,unfavorable climate conditions in summer and autumn decreased the pollen dispersal of xerophytes such as Artemisia and Chenopodiaceae,with little pollen transported from the Kazakh hilly area in late summer,resulting in the lowest pollen concentrations.Climatic parameters and air mass movements both greatly affected the atmospheric pollen concentration.The results provide information concerning the dispersion and distribution of birch pollen,paleoenvironmental reconstruction and wetland conservation.展开更多
基金Supported by Science Research Foundation of Health Department of Hubei Province (LJ200220)
文摘Objective To study the genera and seasonal distribution of airborne pollen in Hubei province of China, and its relationship with pollinosis. Methods From November 2003 to October 2004, an airborne pollen investigation was performed in 16 chosen areas in 12 cities of Hubei province using gravity sedimentation technique. Meanwhile, univalent skin prick tests of pollens were performed and the invasion season was studied on 2 300 patients with pollinosis. Among them, 352 cases underwent the airway responsiveness measurements, and the correlation between airway responsiveness and results of pollen count was analyzed. Results A total of 61 pollen genera were observed and 257 520 pollens were collected. The peak of airborne pollen distribution occurred in two seasons each year: spring (March and April) and autumn (from August to October). The attack of pollinosis corresponded to the peak of pollen distribution. There was a significantly negative relationship between the provocation dose causing a 20% decrease of forced expiratory volume in one second (FEV1) from baseline and airborne pollen concentration (r = -0.6829, P < 0.05). Conclusion This study provides useful information for airborne pollen epidemiology of Hubei province, and it provides important insights to clinical prevention, diagnosis, and treatment of pollen-related allergic diseases.
基金supported by the Beijing NOVA Program (No. 2005A41)the Mengya Project of the Beijing Academy of Science and Technology (No. MY2008)
文摘A three-year aeropalynological study was carried out in the month of August for each of the three years 2005, 2006 and 2007 in the Beijing Olympic Park. A total of 19550 pollen grains were counted (15057 grains in 2005, 2717 in 2006 and 1776 in 2007) for the following taxa: Gramineae, Chenopodiaceae, Humulus L., Artemisia L., Ambrosia L. and Pinus L. The analysis indicated that in the three consecutive years of 2005-007, airborne pollen types and daily number of pollen in August in the Beijing Olympic Park were closely related to environmental change and vegetation composition. The daily variations of airborne pollen displayed similar patterns in August in each of the three years, which were affected positively by periods of daily sunshine, negatively by daily relative humidity and daily precipitation. Continuously high daily temperatures and stable daily wind speeds seemed to have little effect on the fluctuation of airborne pollen.
文摘In order to study the airborne pollen and Spores, a circular year airborne Samples werecollected at 10m height above ground from Taoyuan ecological station, which is located in TaoyuanCounty of Hunan Province. The analytical results showed that there are 188 plant families and generain airborne pollen and spores. of them, 102 are xylophyte plants, 68 are herbase plat, and 18are pteridophyta plants. The plant families and genera account for 80% of the local plant families andgenera. Among them, 54 are specific families and genera, Which are peculiar tO tropics andsubtropics. The main pollen and spore families and genera are Pinus. Cunninghamia Juglans,Quercus, Cupressaceae, Urticaceac, and Gleicheniaceae. There are two peak stages of airbornepollen and spore concentration throughout the year. One is the peak stage of xylophyte plants fromMarch to May and the other, herbaceous plants from niddle dekad of August to early October. Themaximum year round value is 850 000 grains/1000m3.air in middle dekad of September and theminimum is 1500 grains/1000m3.air in early December. In the local district, the airbome pollen andSpores which can induce respiratory tract disease in spring are Taxodiaceae, Cupresaseeae, CastrieaCastanopsis, Queme, Juglans, Platycarya, and that can induce disease in autumn are Canabis,Gramineae, and Artmisia.
基金supported by National Natural Science Foundation,China (No.30070702)
文摘Objective Allergic disease caused by airborne pollen is a major health problem in China. Intensive study on pollen allergens can be of great help for preventing and treating pollinosis. Four aspects of the study on pollen allergens in China including major allergic pollen in our country, analysis and purification of pollen allergen composition, recombinant pollen allergens and clinical application of pollen allergens are described in this paper.
基金supported by the National Natural Science Foundation of China(Grant Nos.41971121&41572331)the Strategic Priority Research Program of the Chinese Academy of Sciences(Grant No.XDA19050103)the Basic Research Foundation of Institute of Hydrogeology and Environmental Geology,Chinese Academy of Geological Sciences(Grant No.SK202012).
文摘Airborne pollen is indicative of vegetation and climatic conditions.This study investigates airborne pollen trapping in the Betula microphylla-dominated wetland of Ebinur Lake in Northwestern China from September 2012 to August 2015 using Pearson correlation analysis and the Hybrid Single-particle Lagrangian Integrated Trajectory model.Higher temperatures and moderate precipitation during the flowering period facilitated an increase in birch pollen with more exotic spruce pollen carried from the Tianshan Mountains by airflows,leading to the highest arbor pollen concentrations from September 2012 to August 2013.Peak pollen concentrations from September 2013 to August 2014 were possibly due to an increase in herbaceous pollen resulting from higher temperatures,lower precipitation and more exotic pollen from the desert of southwest Ebinur Lake and Central Asia in summer and autumn.Between September 2014 and August 2015,unfavorable climate conditions in summer and autumn decreased the pollen dispersal of xerophytes such as Artemisia and Chenopodiaceae,with little pollen transported from the Kazakh hilly area in late summer,resulting in the lowest pollen concentrations.Climatic parameters and air mass movements both greatly affected the atmospheric pollen concentration.The results provide information concerning the dispersion and distribution of birch pollen,paleoenvironmental reconstruction and wetland conservation.
