Alder pollen in Finland ripens after a short exposure to warm days in early spring, showing biennial variation in the onset of pollen ripening

Linkosalo, Tapio; Tortorec, Eric Le; Prank, Marje; Pessi, Anna-Mari; Saarto, Annika

doi:10.1016/j.agrformet.2017.08.030

Cited by 7 publications

(5 citation statements)

References 21 publications

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“…However, increasing aridity in upper river basins, as a consequence of climate change, would potentially trigger the reduction of alder tree distribution in the Mediterranean region (Attorre et al, 2011). While the precipitation rate and aridity index are the main limiting factors for the distribution of alder, the temperature is the main factor influencing the seasonal life cycle of the black alder as well as other deciduous trees (Fu et al, 2019;Linkosalo et al, 2017;Picornell et al, 2019). The most important finding from our phenological modeling of alder flowering was the strong positive relationship between the timing of flowering and temperatures from the previous autumn.…”

Section: Discussionmentioning

confidence: 75%

The effects of climate change on the flowering phenology of alder trees in southwestern Europe

et al. 2021

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Global warming impacts plant phenology and the effect of climate change will be more intensely experienced at the edges of a plant's distribution. This work focuses on Iberian alder's climatic range (Alnus lusitanica Vít, Douda & Mandák). The Iberian Peninsula constitutes the Southwestern edge of the global chorological distribution of European black alder (Alnus glutinosa (L.) Gaertn. s.l.), and some of the warmest and driest conditions for the alder population are located in the center of Spain. The critical temperature-relevant periods that regulate the reproductive phenology of alder were analyzed using a statistical-based method for modeling chilling and forcing accumulation periods in temperate trees. Our results reveal that autumn chilling was the most important thermal accumulation period for alder in a Mediterranean climate while forcing requirements are satisfied in a short period of time. Autumn temperatures were significantly correlated with the timing of flowering, and chill units during this season directly influence start-dates of alder flowering. A positive trend was observed in pollen seasons' timing, meaning a slight delay of alder flowering in central Spain. It coincided with autumn warming during the period 2004-2018. If this warming trend continues, our results predict a delay in the start-date of flowering by around 3-days for every degree increase in maximum autumn temperatures according to the most optimistic emission scenarios.

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Section: Discussionmentioning

confidence: 75%

The effects of climate change on the flowering phenology of alder trees in southwestern Europe

et al. 2021

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“…al. 2000;González-Parrado et al 2006;Piotrowska and Kubik-Komar 2012;Linkosalo et al 2017). According to this method, thecae open only after absorbing a specific amount of thermal energy (cumulative temperature), which differs among various taxa of trees.…”

Section: Discussionmentioning

confidence: 99%

The impact of weather conditions on hazel pollen concentration in Sosnowiec (Poland) in 1997–2019

Dąbrowska-Zapart

Niedźwiedź

2020

Aerobiologia

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The goal of this study was to compare hazel pollen seasons in Sosnowiec in 1997–2019 and to analyse the impact of weather conditions on these seasons. The measurements were conducted using a volumetric method with a Burkard spore trap. The duration of pollen seasons was determined using the 98% method. SPI (Seasonal Pollen Index) was calculated as the sum of daily pollen concentrations in a given season. The measurements showed that high temperatures in January and February had an impact on the beginning of the hazel pollen season. They revealed that there are positive correlations with temperatures and sunshine hours long before the season, i.e. 210–180 days before. The daily hazel pollen concentration in Sosnowiec showed a positive and statistically significant correlation with air temperature, sunshine hours, and average and maximum wind speed. Negative correlation was demonstrated for snow cover depth and relative humidity of the air. Daily concentration levels depend also on the type of weather front as well as direction of air mass flow and its type. Variance analysis showed that the highest concentrations of hazel pollen grains were recorded when warm air moves from the south and south–western direction, whereas the lowest ones were noted for air moving from the east, south–east, north and north–east directions. Atmospheric precipitation, snow cover depth, and average, maximum, minimum and near-the-ground temperatures in the season also had an impact on the SPI of hazel pollen grains. High positive correlation coefficients were also observed in the case of thermal conditions, sunshine hours, relative humidity and precipitation from July to September in the year preceding a given pollen season. The duration of the hazel pollen season depends on precipitation, snow cover depth and temperature during a given season.

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“…The evaluation of 15-year trends in pollen dispersal in Lithuania has revealed that in the Betulaceae family, which forms the largest SPIn, the main allergenic pollen source plants are Alnus and Betula. This is common for Nordic countries (Linkosalo et al, 2017;Ritenberga et al, 2018). Higher amounts of Corylus pollen are characteristic to Croatia (Peternel et al, 2005), Italy (Rizzi Longo & Pizzulin Sauli, (Puc & Kasprzyk, 2013), while in Lithuania, more abundant amounts of airborne pollen are recorded at the Vilnius station.…”

Section: Discussionmentioning

confidence: 97%

Analysis of allergenic pollen data, focusing on a pollen load threshold statement

et al. 2021

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Airborne allergenic pollen affects a significant part of the population and the information on pollen load is a valuable tool for public health prevention. The messages should be provided in a form easily understandable for the population. The study provides new insight for the categorisation of pollen load by defining thresholds solely from aerobiological data. Using the long-term airborne pollen data of Corylus, Alnus, Betula, Poaceae, and Artemisia have been evaluated the regionality of pollen concentrations in Lithuania. SPIn and peak values of the main pollen season highlighted as regionality indicators. The largest differences between stations were found in the cases of Corylus and Artemisia.The principle enabling a group of pollen concentrations into levels has been analysed based on retrospective aerobiological data of five pollen types. Thresholds were determined by employing the lowest peak value of the pollen season and applying the 25% principle for selected pollen types. The results were verified by performing associations of defined thresholds with retrospective morbidity data of allergic rhinitis and allergic asthma in Lithuania. Determined pollen thresholds can be used in epidemiological studies requiring associations with pollen concentration. Thresholds could also complement air quality information by integrating pollen load data into public messages or contribute to the development of mHealth systems.

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Alder pollen in Finland ripens after a short exposure to warm days in early spring, showing biennial variation in the onset of pollen ripening

Cited by 7 publications

References 21 publications

The effects of climate change on the flowering phenology of alder trees in southwestern Europe

The effects of climate change on the flowering phenology of alder trees in southwestern Europe

The impact of weather conditions on hazel pollen concentration in Sosnowiec (Poland) in 1997–2019

Analysis of allergenic pollen data, focusing on a pollen load threshold statement

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