Allergenic pollen season variations in the past two decades under changing climate in the United States

Many diseases are linked with climate trends and variations. In particular, climate change is expected to alter the spatiotemporal dynamics of allergenic airborne pollen and potentially increase occurrence of allergic airway disease. Understanding the spatiotemporal patterns of changes in pollen sea...

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Bibliographic Details
Published in:Global change biology 2015-04, Vol.21 (4), p.1581-1589
Main Authors: Zhang, Yong, Bielory, Leonard, Mi, Zhongyuan, Cai, Ting, Robock, Alan, Georgopoulos, Panos
Format: Article
Language:English
Subjects:
Air Pollutants - analysis
allergenicity
Allergens - analysis
Allergies
allergy
Asteraceae - growth & development
climate
Climate Change
confidence interval
Environmental Monitoring
frost
Global warming
grass
grass weeds
heat sums
Humans
hypersensitivity
latitude
Poaceae - growth & development
Pollen
Precipitation
seasonal variation
Seasons
tree
trees
Trees - growth & development
United States
weed
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Summary:Many diseases are linked with climate trends and variations. In particular, climate change is expected to alter the spatiotemporal dynamics of allergenic airborne pollen and potentially increase occurrence of allergic airway disease. Understanding the spatiotemporal patterns of changes in pollen season timing and levels is thus important in assessing climate impacts on aerobiology and allergy caused by allergenic airborne pollen. Here, we describe the spatiotemporal patterns of changes in the seasonal timing and levels of allergenic airborne pollen for multiple taxa in different climate regions at a continental scale. The allergenic pollen seasons of representative trees, weeds and grass during the past decade (2001–2010) across the contiguous United States have been observed to start 3.0 [95% Confidence Interval (CI), 1.1–4.9] days earlier on average than in the 1990s (1994–2000). The average peak value and annual total of daily counted airborne pollen have increased by 42.4% (95% CI, 21.9–62.9%) and 46.0% (95% CI, 21.5–70.5%), respectively. Changes of pollen season timing and airborne levels depend on latitude, and are associated with changes of growing degree days, frost free days, and precipitation. These changes are likely due to recent climate change and particularly the enhanced warming and precipitation at higher latitudes in the contiguous United States.
ISSN:1354-1013
1365-2486
DOI:10.1111/gcb.12755