A comparison of modern pollen rain collected by Hirst type and Tauber traps in Moscow, Russia
DOI:
https://doi.org/10.12775/EQ.2017.010Keywords
pollen deposition, airborne pollen, Tauber trap, Hirst type trap, correlationAbstract
Abstract. The present study compares the pollen spectra from the Hirst type pollen trap and nearby located Tauber traps installed in different vegetations in order to gain knowledge on the pollen vegetation relationship and to assess whether the deposited pollen is in accordance with airborne pollen concentrations. The modern pollen spectra have been monitored over 2016 year in Moscow Region, Russia. Four Tauber traps were installed in different vegetation types: in birch and mixed forests, in the semi-open area (spruce forest) and in open area on peat bog. A comparison between pollen percentages retrieved from Tauber and Hirst type pollen trap shows mostly similar pollen spectra. The spectra from both traps are mostly similar in regard to major taxa. Betula, Pinus and Alnus predominate in the spectra of both traps. The Tauber spectra are characterized by higher taxonomic variability due to greater occurrence of local herbaceous plants. The spectra from Tauber and Hirst type traps represent both local and regional vegetation well.
References
Fægri K. & Iversen J., 1989, Textbook of pollen analysis. Chichester, New York, Brisbane, Toronto, Singapore, John Wiley & Sons.
Galan C., Smith M., Thibaudon M., Frenguelli G., Oteros J., Gehrig R., Berger U., Clot B, Brandao R. & EAS QC Working Group, 2014, Pollen monitoring: Minimum requirements and reproducibility of analysis,
Aerobiologia 30: 385–395.
Hicks S., Ammann B., Latalowa M., Pardoe H., & Tinsley H., 1996, European Pollen Monitoring Programme: Project description and guidelines, Oulu University Press. Oulu, Finland.
Hicks S., Huusko A., Jensen C., Hatterstrand M., Gerasimides A. & Kvavadze E., 2001, Some comments on spatial variations in arboreal pollen deposition: First records from the Pollen Monitoring Programme (PMP), Review Palaeobotany Palynology 117: 183–194.
Hirst J., 1952, An automatic volumetric spore trap, Annals of Applied Biology 39: 257–265.
Levetin E., Rogers C.A. & Hall S.A., 2000, Comparison of pollen sampling with a Burkard spore trap and a Tauber trap in a warm temperate climate, Grana 39: 294–302.
Ranta H., Sokol C., Hicks S., Heino S. & Kubin E., 2008, How do airborne and deposition pollen samplers reflect the atmospheric dispersal of different pollen types? An example from northern Finland, Grana 47: 285–296.
Volkova O., Severova E. & Nosova M., 2016, Six years of observation of airborne and deposited pollen in central European Russia: first results, Grana 55: 311–318.
Stockmarr J., 1971, Tablets with spores used in absolute pollen analysis, Pollen et Spores 13: 615–621.
Downloads
Published
How to Cite
Issue
Section
Stats
Number of views and downloads: 543
Number of citations: 0
