Flowering Phenology and Characteristics of Pollen Aeroparticles of <i>Quercus</i> Species in Korea

Flowering Phenology and Characteristics of Pollen Aeroparticles of <i>Quercus</i> Species in Korea

In recent decades, airborne allergens for allergic respiratory diseases have been found to increase significantly by a process of converting coniferous forests into broad-leaved forests in Korea. This study was conducted to evaluate factors, including airborne pollen counts, micromorphology, and flo...

Full description

Bibliographic Details
Main Authors: Iereh Kim, Myeong Ja Kwak, Jong Kyu Lee, Yeaji Lim, Sanghee Park, Handong Kim, Keum-Ah Lee, Su Young Woo
Format: Article
Language:English
Published: MDPI AG 2020-02-01
Series:Forests
Subjects:
aeroparticles
allergen
phenology
pollen grains
pollenkitt
<i>quercus</i> spp.
Online Access:https://www.mdpi.com/1999-4907/11/2/232
Description
Summary:In recent decades, airborne allergens for allergic respiratory diseases have been found to increase significantly by a process of converting coniferous forests into broad-leaved forests in Korea. This study was conducted to evaluate factors, including airborne pollen counts, micromorphology, and flowering phenology, that can affect oak pollen-related allergic symptoms. The catkin of Mongolian oak (<i>Quercus</i> <i>mongolica</i> Fisch. ex Ledeb.) showed the most rapidly blooming catkin on Julian day 104 in flower development. Among six species, the last flowering was observed on Julian day 119 in Korean oak (<i>Quercus</i> <i>dentata</i> Thunb.). The pollen dispersal was persisted for about 32 days from Julian day 104 to Julian day 136. Airborne pollen was observed about 2 weeks after flowering phase H, the senescence phase. Pollen size varied by species, with the largest from <i>Q. mongolica</i> (polar axis length, PL = 31.72 &#181;m, equatorial axis length, EL = 39.05 &#181;m) and the smallest from Jolcham oak (<i>Quercus</i> <i>serrata</i> Murray) (PL = 26.47 &#181;m, EL = 32.32 &#181;m). Regarding pollen wall structure, endexine of <i>Q. dentata</i> was coarsely laminated or fragmented. The endexine thicknesses of Sawtooth oak (<i>Quercus</i> <i>acutissima</i> Carruth.) and <i>Q. serrata</i> were thick and stable, whereas Galcham oak (<i>Quercus</i> <i>aliena</i> Blume), <i>Q. mongolica</i>, and Oriental cork oak (<i>Quercus</i> <i>variabilis</i> Blume) had thinner endexines. The area occupied by pollenkitt of <i>Q. variabilis</i> was significantly larger than that of <i>Q. acutissima</i>. Importantly, <i>Q. variabilis</i> had a distinctly thick 17 kDa protein band, a presumed major allergen. Oak species differ in pollen protein composition, and thus there is a possibility that the allergenic activity of pollen proteins vary depending on oak species. This study highlights the fact that native oak species in Korea differ in flowering pattern of male flowers, pollen morphology, and pollen chemical constituents. These discrepancies in flowering and pollen properties imply variable allergic responses to oak pollen from different species.
ISSN:1999-4907

Similar Items