sg:pub.10.1007/s00484-014-0866-9 - Springer Nature SciGraph

Article Info

DATE

2015-05

AUTHORS

ABSTRACT

Juniperus pollen is highly allergenic and is produced in large quantities across Texas, Oklahoma, and New Mexico. The pollen negatively affects human populations adjacent to the trees, and since it can be transported hundreds of kilometers by the wind, it also affects people who are far from the source. Predicting and tracking long-distance transport of pollen is difficult and complex. One parameter that has been understudied is the hygroscopic weight gain of pollen. It is believed that juniper pollen gains weight as humidity increases which could affect settling rate of pollen and thus affect pollen transport. This study was undertaken to examine how changes in relative humidity affect pollen weight, diameter, and settling rate. Juniperus ashei, Juniperus monosperma, and Juniperus pinchotii pollen were applied to greased microscope slides and placed in incubation chambers under a range of temperature and humidity levels. Pollen on slides were weighed using an analytical balance at 2- and 6-h intervals. The size of the pollen was also measured in order to calculate settling rate using Stokes' Law. All pollen types gained weight as humidity increased. The greatest settling rate increase was exhibited by J. pinchotii which increased by 24 %. More... »

PAGES

533-540

References to SciGraph publications

1993-01. Pollen-handling protocol and hydration/dehydration characteristics of pollen for application to long-term storage in EUPHYTICA

1997-12. A comparative biochemical study of conifer pollen allergens in AEROBIOLOGIA

1999-03. Ripe pollen structure and histochemistry of some gymnosperms in PLANT SYSTEMATICS AND EVOLUTION

1985-07. Pollen allergens and their interrelationships in CLINICAL REVIEWS IN ALLERGY & IMMUNOLOGY

1998-12. Evidence of long-distance transport of mountain cedar pollen into Tulsa, Oklahoma in INTERNATIONAL JOURNAL OF BIOMETEOROLOGY

1977-01. The influence of relative humidity on the swelling of pollen grains in vitro in PLANTA

1998-03. A long-term study of winter and early spring tree pollen in the Tulsa, Oklahoma atmosphere in AEROBIOLOGIA

2008-01. Significance of exine shedding in Cupressaceae-type pollen in JOURNAL OF PLANT RESEARCH

2008-02. Cupressus arizonica pollen wall zonation and in vitro hydration in PLANT SYSTEMATICS AND EVOLUTION

1978-03. Distribution of airborne pollen and spores and their long distance transport in PURE AND APPLIED GEOPHYSICS

Journal

TITLE

International Journal of Biometeorology

ISSUE

VOLUME

Subjects

FOR: Genetics

FOR: Biological Sciences

MESH: Adsorption

MESH: Air Pollutants

MESH: Computer Simulation

MESH: Humidity

MESH: Juniperus

MESH: Materials Testing

MESH: Models, Chemical

MESH: Particle Size

MESH: Pollen

MESH: Species Specificity

MESH: Temperature

MESH: Wettability

Author Affiliations

Iowa State University

University of Tulsa

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/s00484-014-0866-9

DOI

http://dx.doi.org/10.1007/s00484-014-0866-9

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1002490492

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/25008113

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47	″	schema:description	Juniperus pollen is highly allergenic and is produced in large quantities across Texas, Oklahoma, and New Mexico. The pollen negatively affects human populations adjacent to the trees, and since it can be transported hundreds of kilometers by the wind, it also affects people who are far from the source. Predicting and tracking long-distance transport of pollen is difficult and complex. One parameter that has been understudied is the hygroscopic weight gain of pollen. It is believed that juniper pollen gains weight as humidity increases which could affect settling rate of pollen and thus affect pollen transport. This study was undertaken to examine how changes in relative humidity affect pollen weight, diameter, and settling rate. Juniperus ashei, Juniperus monosperma, and Juniperus pinchotii pollen were applied to greased microscope slides and placed in incubation chambers under a range of temperature and humidity levels. Pollen on slides were weighed using an analytical balance at 2- and 6-h intervals. The size of the pollen was also measured in order to calculate settling rate using Stokes' Law. All pollen types gained weight as humidity increased. The greatest settling rate increase was exhibited by J. pinchotii which increased by 24 %.
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