The long distance transport of airborne Ambrosia pollen to the UK and the Netherlands from Central and south Europe

Weger, Letty A. de; Pashley, Catherine H.; Šikoparija, Branko; Skjøth, Carsten Ambelas; Kasprzyk, Idalia; Grewling, Łukasz; Thibaudon, M.; Magyar, Donát; Smith, Matt

doi:10.1007/s00484-016-1170-7

Cited by 50 publications

(32 citation statements)

References 40 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…These atmospheric allergens may induce allergic rhinitis symptoms, but more research is needed to confirm this hypothesis. Furthermore, there has been documentation of ragweed pollen being transported by thunderstorms or wind currents hundreds or even thousands of kilometers into nonendemic areas, resulting in clinically relevant pollen levels . Modeling of birch pollen transport in Finland indicated the pollen sources included Baltic States, Russia, Germany, Poland, and Sweden .…”

Section: Introductionmentioning

confidence: 99%

Birch pollen allergy in Europe

Biedermann

Winther

Till

et al. 2019

Allergy

221

186

View full text Add to dashboard Cite

Birch and other related trees of the families Betulaceae and Fagaceae (alder, hazel, oak, hornbeam, chestnut, and beech) constitute the birch homologous group. This grouping is primarily based on the extensive IgE cross-reactivity of allergen homologs to the major birch allergen Bet v 1. Birch pollen is the most dominant tree pollen in Northern and Central Europe and is a major cause of allergic rhinitis and, possibly, asthma symptoms. Over the last few decades, levels of birch pollen have risen and the period of exposure has increased due to climate changes. Subsequently, the prevalence of birch pollen sensitization has also increased. The cross-reactivity and sequential pollen seasons within the birch homologous group create a prolonged symptomatic allergy period beyond birch pollen alone. Furthermore, many plant food allergens contain homologs to Bet v 1, meaning that the majority of patients with birch pollen allergy suffer from secondary pollen food syndrome (PFS). As a result, the negative impact on health-related quality of life (HRQoL) in patients allergic to birch pollen is significant. The purpose of this manuscript was to narratively review topics of interest such as taxonomy, cross-reactivity, prevalence, clinical relevance, PFS, and HRQoL with regard to birch pollen allergy from a European perspective.

show abstract

Section: Introductionmentioning

confidence: 99%

Birch pollen allergy in Europe

Biedermann

Winther

Till

et al. 2019

Allergy

221

186

View full text Add to dashboard Cite

show abstract

“…However, to date, the results of collected data, gained by automatic real-time devices, differ [10,11,17,18], and these differences may be determined not only by peculiarities of devices but also by conditions of the environment affecting identified pollen [19][20][21][22]. This fact is confirmed by scientific studies that are targeted at long-distance pollen transport analysis [23][24][25][26][27][28][29]. It is assumed that pollen suspended in the air is affected by environmental conditions (air temperature, humidity, radiation, chemical compounds), and the effect may change pollen fluorescence results (intensity, colour, etc.).…”

Section: Introductionmentioning

confidence: 87%

Detection and Microscopy of Alnus glutinosa Pollen Fluorescence Peculiarities

Šaulienė

Šukienė

Daunys

et al. 2019

Forests

View full text Add to dashboard Cite

Alnus glutinosa is an important woody plant in Lithuanian forest ecosystems. Knowledge of fluorescence properties of black alder pollen is necessary for scientific and practical purposes. By the results of the study, we aimed to evaluate possibilities of identifying Alnus glutinosa pollen fluorescence properties by modeling ozone effect and applying two different fluorescence-based devices. To implement the experiments, black alder pollen was collected in a typical habitat during the annual flowering period in 2018–2019. There were three groups of experimental variants, which differed in the duration of exposure to ozone, conditions of pollen storage before the start of the experiment, and the exposure time. Data for pollen fluorescence analysis were collected using two methods. The microscopy method was used in order to evaluate the possibility of employing image analysis systems for investigation of pollen fluorescence. The second data collection method is related to an automatic device identifying pollen in real time, which uses the fluorescence method in the pollen recognition process. Data were assessed employing image analysis and principal component analysis (PCA) methods. Digital images of ozone-exposed pollen observed under the fluorescence microscope showed the change of the dominant green colour toward the blue spectrum. Meanwhile, the automatic detector detects more pollen whose fluorescence is at the blue light spectrum. It must be noted that assessing pollen fluorescence several months after exposure to ozone, no effect of ozone on fluorescence remains.

show abstract

“…The transport of pollen from the south of Europe is especially visible in periods before the local pollen season starts in Central and Northern Europe (Ranta et al 2006;Skjøth et al 2007). Source regions of various pollens have been determined with the use of back trajectory from the HYSPLIT model (Makra et al 2010;Hernández-Ceballos et al 2014;de Weger et al 2016;Bilińska et al 2017). However, examples from Poland show that long-range transport plays a significant role in the concentrations of pollen that are rare in the Polish environment, especially Ambrosia Smith et al 2008;Kasprzyk et al 2011;Bilińska et al 2017).…”

Section: Introductionmentioning

confidence: 99%

The influence of atmospheric circulation conditions on Betula and Alnus pollen concentrations in Wrocław, Poland

et al. 2020

View full text Add to dashboard Cite

The influence of atmospheric circulation conditions on pollen concentrations of two taxons (Betula and Alnus) in Wroclaw, Poland, for the years 2005-2014 was analysed. Pollen concentration was analysed separately for twenty circulation types that were determined using objective classification. The results indicate the atmospheric circulation conditions favourable for both low and high pollen concentrations over Central Europe. Pollen concentrations vary significantly according to circulation types. The highest pollen concentrations for both taxons are typical for warm, sunny, and dry anticyclonic circulation types with anticyclone in the lower and upper troposphere, especially for types with advection from the SW. The lowest pollen concentrations are observed for cold, wet, and cloudy cyclonic types with advection from the northern sectors. There is also a positive and statistically significant trend in the frequency of circulation types favourable for high concentrations of Betula and Alnus.

show abstract

The long distance transport of airborne Ambrosia pollen to the UK and the Netherlands from Central and south Europe

Cited by 50 publications

References 40 publications

Birch pollen allergy in Europe

Birch pollen allergy in Europe

Detection and Microscopy of Alnus glutinosa Pollen Fluorescence Peculiarities

The influence of atmospheric circulation conditions on Betula and Alnus pollen concentrations in Wrocław, Poland

Contact Info

Product

Resources

About