Seasonal variation of birch and grass pollen loads and allergen release at two sites in the German Alps

Less vegetated mountainous areas may provide better conditions for allergy sufferers. However, atmospheric transport can result in medically relevant pollen loads in such regions. The majority of investigations has focused on the pollen load, expressed as daily averages of pollen per cubic meter of...

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Published inAtmospheric environment (1994) Vol. 122; pp. 83 - 93
Main Authors Jochner, Susanne, Lüpke, Marvin, Laube, Julia, Weichenmeier, Ingrid, Pusch, Gudrun, Traidl-Hoffmann, Claudia, Schmidt-Weber, Carsten, Buters, Jeroen T.M., Menzel, Annette
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2015
Subjects
air
allergens
Alps region
altitude
atmospheric chemistry
Bet v 1
Betula
grasses
hypersensitivity
Long-range transport
Mountains
people
Phl p 5
pollen
Pollen concentration
Pollen potency
risk assessment
seasonal variation
wind direction
Alps region
Mountains
Pollen concentration
Phl p 5
Pollen potency
Long-range transport
Bet v 1
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Abstract Less vegetated mountainous areas may provide better conditions for allergy sufferers. However, atmospheric transport can result in medically relevant pollen loads in such regions. The majority of investigations has focused on the pollen load, expressed as daily averages of pollen per cubic meter of air (pollen grains/m³); however, the severity of allergic symptoms is also determined by the actual allergen content of this pollen, its pollen potency, which may differ between high and low altitudes. We analysed airborne birch and grass pollen concentrations along with allergen content (birch: Bet v 1, grass: Phl p 5) at two different altitudes (734 and 2650 m a.s.l.) in the Zugspitze region (2009–2010). Back-trajectories were calculated for the high altitude site and for specific days with abrupt increases in pollen potency. We observed several days with medically relevant pollen concentrations at the highest site. In addition, a few days with pollen were not associated with allergens and vice versa. The calculated seasonal mean allergen release per pollen grain was 1.8–3.3 pg Bet v 1 and 5.7 pg Phl p 5 in the valley and 1.1–3.7 pg Bet v 1 and 0.7–1.5 pg Phl p 5 at the high altitude site. Back-trajectories revealed that high pollen potency at the higher site was generally associated with south-westerly to south-easterly (birch), or northerly (grass) wind directions. By investigating days with sudden increases in pollen potency, however, it was difficult to draw definitive conclusions on long- or short-range transport. Our findings suggest that people allergic to pollen might suffer less at higher altitudes and further indicate that a risk assessment relying on the actual concentration of airborne pollen does not necessarily reflect the actual allergy exposure of individuals. •Pollen/allergen concentrations were comparably low at a high altitude station.•However, we also identified some days with relevant pollen/allergen concentrations.•Some days with sampled pollen were related to no allergen content and vice versa.•A risk assessment solely based on pollen concentrations is not inclusive.•More attention should be paid to the actual allergen content of pollen.
AbstractList Less vegetated mountainous areas may provide better conditions for allergy sufferers. However, atmospheric transport can result in medically relevant pollen loads in such regions. The majority of investigations has focused on the pollen load, expressed as daily averages of pollen per cubic meter of air (pollen grains/m³); however, the severity of allergic symptoms is also determined by the actual allergen content of this pollen, its pollen potency, which may differ between high and low altitudes. We analysed airborne birch and grass pollen concentrations along with allergen content (birch: Bet v 1, grass: Phl p 5) at two different altitudes (734 and 2650 m a.s.l.) in the Zugspitze region (2009–2010). Back-trajectories were calculated for the high altitude site and for specific days with abrupt increases in pollen potency. We observed several days with medically relevant pollen concentrations at the highest site. In addition, a few days with pollen were not associated with allergens and vice versa. The calculated seasonal mean allergen release per pollen grain was 1.8–3.3 pg Bet v 1 and 5.7 pg Phl p 5 in the valley and 1.1–3.7 pg Bet v 1 and 0.7–1.5 pg Phl p 5 at the high altitude site. Back-trajectories revealed that high pollen potency at the higher site was generally associated with south-westerly to south-easterly (birch), or northerly (grass) wind directions. By investigating days with sudden increases in pollen potency, however, it was difficult to draw definitive conclusions on long- or short-range transport. Our findings suggest that people allergic to pollen might suffer less at higher altitudes and further indicate that a risk assessment relying on the actual concentration of airborne pollen does not necessarily reflect the actual allergy exposure of individuals. •Pollen/allergen concentrations were comparably low at a high altitude station.•However, we also identified some days with relevant pollen/allergen concentrations.•Some days with sampled pollen were related to no allergen content and vice versa.•A risk assessment solely based on pollen concentrations is not inclusive.•More attention should be paid to the actual allergen content of pollen.
Less vegetated mountainous areas may provide better conditions for allergy sufferers. However, atmospheric transport can result in medically relevant pollen loads in such regions. The majority of investigations has focused on the pollen load, expressed as daily averages of pollen per cubic meter of air (pollen grains/m³); however, the severity of allergic symptoms is also determined by the actual allergen content of this pollen, its pollen potency, which may differ between high and low altitudes. We analysed airborne birch and grass pollen concentrations along with allergen content (birch: Bet v 1, grass: Phl p 5) at two different altitudes (734 and 2650 m a.s.l.) in the Zugspitze region (2009–2010). Back-trajectories were calculated for the high altitude site and for specific days with abrupt increases in pollen potency. We observed several days with medically relevant pollen concentrations at the highest site. In addition, a few days with pollen were not associated with allergens and vice versa. The calculated seasonal mean allergen release per pollen grain was 1.8–3.3 pg Bet v 1 and 5.7 pg Phl p 5 in the valley and 1.1–3.7 pg Bet v 1 and 0.7–1.5 pg Phl p 5 at the high altitude site. Back-trajectories revealed that high pollen potency at the higher site was generally associated with south-westerly to south-easterly (birch), or northerly (grass) wind directions. By investigating days with sudden increases in pollen potency, however, it was difficult to draw definitive conclusions on long- or short-range transport. Our findings suggest that people allergic to pollen might suffer less at higher altitudes and further indicate that a risk assessment relying on the actual concentration of airborne pollen does not necessarily reflect the actual allergy exposure of individuals.
Less vegetated mountainous areas may provide better conditions for allergy sufferers. However, atmospheric transport can result in medically relevant pollen loads in such regions. The majority of investigations has focused on the pollen load, expressed as daily averages of pollen per cubic meter of air (pollen grains/m super(3)); however, the severity of allergic symptoms is also determined by the actual allergen content of this pollen, its pollen potency, which may differ between high and low altitudes. We analysed airborne birch and grass pollen concentrations along with allergen content (birch: Bet v 1, grass: Phl p 5) at two different altitudes (734 and 2650 m a.s.l.) in the Zugspitze region (2009-2010). Back-trajectories were calculated for the high altitude site and for specific days with abrupt increases in pollen potency. We observed several days with medically relevant pollen concentrations at the highest site. In addition, a few days with pollen were not associated with allergens and vice versa. The calculated seasonal mean allergen release per pollen grain was 1.8-3.3 pg Bet v 1 and 5.7 pg Phl p 5 in the valley and 1.1-3.7 pg Bet v 1 and 0.7-1.5 pg Phl p 5 at the high altitude site. Back-trajectories revealed that high pollen potency at the higher site was generally associated with south-westerly to south-easterly (birch), or northerly (grass) wind directions. By investigating days with sudden increases in pollen potency, however, it was difficult to draw definitive conclusions on long- or short-range transport. Our findings suggest that people allergic to pollen might suffer less at higher altitudes and further indicate that a risk assessment relying on the actual concentration of airborne pollen does not necessarily reflect the actual allergy exposure of individuals.
Author Buters, Jeroen T.M.
Jochner, Susanne
Laube, Julia
Schmidt-Weber, Carsten
Pusch, Gudrun
Menzel, Annette
Lüpke, Marvin
Weichenmeier, Ingrid
Traidl-Hoffmann, Claudia
Author_xml – sequence: 1
  givenname: Susanne
  surname: Jochner
  fullname: Jochner, Susanne
  email: susanne.jochner@ku.de
  organization: Physical Geography/Landscape Ecology and Sustainable Ecosystem Development, Catholic University Eichstätt-Ingolstadt, Ostenstraße 18, 85072 Eichstätt, Germany
– sequence: 2
  givenname: Marvin
  surname: Lüpke
  fullname: Lüpke, Marvin
  organization: Technische Universität München, Department of Ecology and Ecosystem Management, Ecoclimatology, Hans-Carl-von-Carlowitz-Platz 2, 85354 Freising, Germany
– sequence: 3
  givenname: Julia
  surname: Laube
  fullname: Laube, Julia
  organization: Technische Universität München, Department of Ecology and Ecosystem Management, Ecoclimatology, Hans-Carl-von-Carlowitz-Platz 2, 85354 Freising, Germany
– sequence: 4
  givenname: Ingrid
  surname: Weichenmeier
  fullname: Weichenmeier, Ingrid
  organization: Center of Allergy & Environment (ZAUM), Technische Universität München and Helmholtz Center Munich, Biedersteiner Straße 29, 80802 Munich, Germany
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  givenname: Gudrun
  surname: Pusch
  fullname: Pusch, Gudrun
  organization: Center of Allergy & Environment (ZAUM), Technische Universität München and Helmholtz Center Munich, Biedersteiner Straße 29, 80802 Munich, Germany
– sequence: 6
  givenname: Claudia
  surname: Traidl-Hoffmann
  fullname: Traidl-Hoffmann, Claudia
  organization: Technische Universität München, Environmental Medicine, Universitäres Zentrum am Klinikum Augsburg (UNIKA-T), Neusässer Straße 47, 86150 Augsburg, Germany
– sequence: 7
  givenname: Carsten
  surname: Schmidt-Weber
  fullname: Schmidt-Weber, Carsten
  organization: Center of Allergy & Environment (ZAUM), Technische Universität München and Helmholtz Center Munich, Biedersteiner Straße 29, 80802 Munich, Germany
– sequence: 8
  givenname: Jeroen T.M.
  surname: Buters
  fullname: Buters, Jeroen T.M.
  organization: Center of Allergy & Environment (ZAUM), Technische Universität München and Helmholtz Center Munich, Biedersteiner Straße 29, 80802 Munich, Germany
– sequence: 9
  givenname: Annette
  surname: Menzel
  fullname: Menzel, Annette
  organization: Technische Universität München, Department of Ecology and Ecosystem Management, Ecoclimatology, Hans-Carl-von-Carlowitz-Platz 2, 85354 Freising, Germany
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Keywords Mountains
Pollen concentration
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Long-range transport
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Snippet Less vegetated mountainous areas may provide better conditions for allergy sufferers. However, atmospheric transport can result in medically relevant pollen...
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StartPage 83
SubjectTerms air
allergens
Alps region
altitude
atmospheric chemistry
Bet v 1
Betula
grasses
hypersensitivity
Long-range transport
Mountains
people
Phl p 5
pollen
Pollen concentration
Pollen potency
risk assessment
seasonal variation
wind direction
Title Seasonal variation of birch and grass pollen loads and allergen release at two sites in the German Alps
URI https://dx.doi.org/10.1016/j.atmosenv.2015.08.031
https://www.proquest.com/docview/1758245506
https://www.proquest.com/docview/2000126171
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