International Journal of Biometeorology

, Volume 56, Issue 1, pp 183–194

Spatial and temporal modeling of daily pollen concentrations

  • Curt T. DellaValle
  • Elizabeth W. Triche
  • Michelle L. Bell
Original Paper

DOI: 10.1007/s00484-011-0412-y

Cite this article as:
DellaValle, C.T., Triche, E.W. & Bell, M.L. Int J Biometeorol (2012) 56: 183. doi:10.1007/s00484-011-0412-y


Accurate assessments of pollen counts are valuable to allergy sufferers, the medical industry, and health researchers; however, monitoring stations do not exist in most areas. In addition, the degree of spatial reliability provided by the limited number of monitoring stations is poorly understood. We developed and compared spatial models to estimate pollen concentrations in locations without monitoring stations. Daily Acer, Quercus, and overall tree, grass, and weed pollen counts, in grains/m3, were obtained from 14 aeroallergen monitoring stations located in the northeastern and mid-Atlantic region of the United States from 2003 to 2006. Pollen counts were spatially interpolated using ordinary kriging. Mixed effects and generalized estimating equations incorporating daily and seasonal weather characteristics, pollen season characteristics and land-cover information were also developed to estimate daily pollen concentrations. We then compared observed values from a monitoring station to model estimates for that location. Observed counts and kriging estimates for tree pollen differed (p = 0.04), but not when peak periods were removed (p = 0.29). No differences between observed and kriging estimates of Acer (p = 0.46), Quercus (p = 0.24), grass (p = 0.31) or weed pollen (p = 0.29) were found. Estimates from longitudinal models also demonstrated good agreement with observed counts, except for the extremes of pollen distributions. Our results demonstrate that spatial interpolation techniques as well as regression methods incorporating both weather and land-cover characteristics can provide reliable estimates of daily pollen concentrations in areas where monitors do not exist for all but periods of extremely high pollen.


Pollen Allergy Allergens Spatial modeling 

Copyright information

© ISB 2011

Authors and Affiliations

  • Curt T. DellaValle
    • 1
  • Elizabeth W. Triche
    • 2
  • Michelle L. Bell
    • 1
  1. 1.School of Forestry and Environmental StudiesYale UniversityNew HavenUSA
  2. 2.Department of Community Health/EpidemiologyBrown University School of MedicineProvidenceUSA

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