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Czasopismo

2010 | 63 | 2 |

Tytuł artykułu

Using the results of a nationwide phenological network to examine the impact of changes in phenology of plant species on the concentration of plant pollen in the air

Treść / Zawartość

Warianty tytułu

PL
Wykorzystanie wyników ogólnopolskiej sieci obserwacji fenologicznych roślin do badania wpływu zmian w fenologii gatunków na stężenie pyłku roślin w powietrzu

Języki publikacji

EN

Abstrakty

EN
The application of phenological data together with meteorological and pollen data in a comprehensive analysis gives an opportunity to draw conclusions on variability of the starting date of the pollen season and its dynamics in terms of meteorological factors. It is quite important especially due to the fact that studies conducted all over Europe have proved that species phenology responds to climate warming trends. There has been observed a tendency to an earlier onset of spring flowering and leafing as well as the lengthening of the growing season. Although phenological network studies differ with regard to regions, species, events observed and applied methods, their data show a clear temperature-driven extension of the growing season by up to 2 weeks in the second half of the 20th century in mid- and high northern latitudes; for example, in Germany changes in timing of phenological spring events have been estimated at about -1.6 days / decade, while in Switzerland: -2.3 days / decade. Despite interannual variability in flowering date, caused by specific meteorological conditions each year, long-time series of phenological data from the area of Poland have proved that hazel flowering occurred in the surroundings of Warsaw later in the 50’s (third decade of March) than it is observed at the beginning of the 21st century (second decade of March). There is a lack of such long time series of pollen data, but we can suspect that the hazel pollen season has changed similarly to the time pattern of its flowering. Plants are very sensitive to weather conditions, therefore it is important to know as precisely as possible the impact of meteorological conditions on a plant’s reactions. The determination of thermal thresholds for a specific plant’s reactions may be beneficial for this purpose. The estimated value of Positive Degree Days (PDD> 50), which caused the first Corylus flowers (F2 phenophase) to bloom in the study years, requires testing in future years to make the threshold values credible.
PL

Wydawca

-

Czasopismo

Rocznik

Tom

63

Numer

2

Opis fizyczny

p.69-74,fig.,ref.

Twórcy

autor
  • Institute of Meteorology and Water Management, Centre for Poland’s Climate Monitoring, Podlesna 61, 01-673 Warsaw, Poland
autor

Bibliografia

  • J a t c z a k K., 2007. Fenologiczna odpowiedź na tendencje zmian klimatu w Polsce na tle zmian zachodzących w Europie. / The phenological response to climate change trends in Poland against the background of changes taking place in Europe. Wiadomości Met. Hydr. Gosp. Wod. 1: 37-48 (in Polish).
  • Ka s p r z y k I., Wa l a n u s A., 2007. Flowering and airborne pollen – a novel statistical approach. Acta Agrobot. 60 (2): 51-55.
  • L i p i e c A., M a l k i ewi c z M., C h ł o p e k K., P u c M., My s z k ows k a D., P i o t r ows k a K., Weryszko-Chmielewska E., Z i e l n i k- J u r k i ewi c z B., Mod r z y ń s k i M., Dmo c h ows k a D., K r ó l i k ows k a G., J a k u b ows k a K., R a p i e j k o P., 2009. Analiza stężenia pyłku leszczyny w wybranych miastach Polski w 2009 r. / An analysis of hazel pollen concentrations in some cities of Poland in 2009. Alergoprofil, 5 (1): 44-48 (in Polish).
  • M e n z e l A., S p a r k s T. , E s t r e l l a N., K o c h E., A a s a A., A h a s R., A lm-Kü b l e r K., B i s s o l l i P., Br a s l a v s k á O., B r i e d e A., C hm i e l ews k i F., Cr e p i n s e k Z., C u r n e l Y., D a h l A., D e f i l a C., Do n n e l l y A, F i l e l l a Y., J a t c z a k K., M å g e F., Me s t r e A., N o r d l i Ø., P e ñ u e l a s J., P i r i n e n P., R em i š o v á V., S c h e i f i n g e r H., S t r i z M., S u s n i k A., van V l i e t A., W i e l g o l a s k i F. E., Z a c h S., Z u s t A., 2006. European phenological response to climate change matches the warming pattern. Global Change Biology, 12 (10): 1969-1976.
  • Na i k G., 2007. Global Warming may be spurring allergies, The Wall Street Journal, May 4-6: 9. Pa ł c z y ń s k i C., 2004. Alergia w miejscu pracy – prognozy epidemiologiczne i perspektywy profilaktyki higienicznej. / Allergies at the workplace – epidemiological forecasts and health prevention prospects. Medycyna Pracy, 55 (1): 41-45 (in Polish).
  • P i d e k I. A., 2007. Nine-year record of Alnus pollen deposition in the Roztocze region (SE Poland) with relation to vegetation data. Acta Agrobot. 60 (2): 57-64.
  • P i o t r ows k a K., 2008. Ecological features of flowers and the amount of pollen released in Corylus avellana (L.) and Alnus glutinosa (L.) Gaertn., Acta Agrobot. 61 (1): 33-39.
  • P u c M., 2007. The effect of meteorological conditions on hazel (Corylus spp.) and alder (Alnus spp.) pollen concentration in the air of Szczecin. Acta Agrobot. 60 (2): 65-70.
  • R a p i e j k o P., L i p i e c A., Wo j d a s A., J u r k i ewi c z D., 2004. Threshold pollen concentration necessary to evoke allergenic symptoms. Int. Rev. Allergol. Clin. Immunol. 10 (3): 91-94.
  • S i l j amo P., 2007. Development and Application of Biogenic Emission Terms as a Basic of Long-Range Transport of Allergenic Pollen. Air Pollution Modeling and Its Application XIX: 155-162.
  • St u d e r S., S t ö c k l i R., Ap p e n z e l l e r C., V i d a l e P. L., 2007. A comparative study of satellite and groundbased phenology. Int. J. Biometeorol. 5: 405-414.
  • S z c z e p a n e k K., 1994. Pollen fall in Kraków in 1982-1991. Zeszyty Naukowe UJ, Prace Geograficzne, 97: 9-22.
  • S z c z e p a n e k K., 2003. Wytwarzanie i rozprzestrzenianie spor i ziaren pyłku. [In:] Palinologia. / Production and dispersal of spores and pollen grains. [In:] S. Dybova-Jachowicz, A. Sadowska (Eds.) Palynology, Wyd. Inst. Botaniki PAN, Kraków: 16-28 (in Polish).
  • Wa l a n u s A., 1995. Statistical analysis of correlations between pollen rain and the weather, Zeszyty Naukowe UJ, Prace Geograficzne, 97: 33-47.
  • We r y s z k o - C hm i e l ews k a E., R a p i e j k o P., 2007. Analysis of Alnus spp. pollen seasons in Lublin and Warszawa (Poland), 2001-2007, Acta Agrobot. 60 (2): 87-97.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.dl-catalog-2cada6a5-08b0-46c1-bc6a-756bfd877991
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