Ingrida Šaulienė
Ingrida Šaulienė
Other namesIngrida Sauliene, Ingrida Šauliene
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Cited by
Cited by
Effects of the COVID-19 pandemic on the use and perceptions of urban green space: An international exploratory study
F Ugolini, L Massetti, P Calaza-Martínez, P Cariñanos, C Dobbs, ...
Urban forestry & urban greening 56, 126888, 2020
Recommended terminology for aerobiological studies
C Galán, A Ariatti, M Bonini, B Clot, B Crouzy, A Dahl, ...
Aerobiologia 33, 293-295, 2017
Variation of the group 5 grass pollen allergen content of airborne pollen in relation to geographic location and time in season
J Buters, M Prank, M Sofiev, G Pusch, R Albertini, I Annesi-Maesano, ...
Journal of Allergy and Clinical Immunology 136 (1), 87-95. e6, 2015
Release of Bet v 1 from birch pollen from 5 European countries. Results from the HIALINE study
JTM Buters, M Thibaudon, M Smith, R Kennedy, A Rantio-Lehtimäki, ...
Atmospheric Environment 55, 496-505, 2012
Geographic and temporal variations in pollen exposure across E urope
M Smith, S Jäger, U Berger, B Šikoparija, M Hallsdottir, I Sauliene, ...
Allergy 69 (7), 913-923, 2014
An operational model for forecasting ragweed pollen release and dispersion in Europe
M Prank, DS Chapman, JM Bullock, J Belmonte, U Berger, A Dahl, ...
Agricultural and forest meteorology 182, 43-53, 2013
Higher airborne pollen concentrations correlated with increased SARS-CoV-2 infection rates, as evidenced from 31 countries across the globe
A Damialis, S Gilles, M Sofiev, V Sofieva, F Kolek, D Bayr, MP Plaza, ...
Proceedings of the National Academy of Sciences 118 (12), e2019034118, 2021
Airborne olive pollen counts are not representative of exposure to the major olive allergen O le e 1
C Galan, C Antunes, R Brandao, C Torres, H Garcia‐Mozo, E Caeiro, ...
Allergy 68 (6), 809-812, 2013
MACC regional multi-model ensemble simulations of birch pollen dispersion in Europe
M Sofiev, U Berger, M Prank, J Vira, J Arteta, J Belmonte, KC Bergmann, ...
Atmospheric chemistry and physics 15 (14), 8115-8130, 2015
Automatic pollen recognition with the Rapid-E particle counter: the first-level procedure, experience and next steps
I Šaulienė, L Šukienė, G Daunys, G Valiulis, L Vaitkevičius, P Matavulj, ...
Atmospheric Measurement Techniques 12 (6), 3435-3452, 2019
Modelling analysis of source regions of long-range transported birch pollen that influences allergenic seasons in Lithuania
L Veriankaitė, P Siljamo, M Sofiev, I Šaulienė, J Kukkonen
Aerobiologia 26, 47-62, 2010
Spatial and temporal variations in airborne Ambrosia pollen in Europe
B Sikoparija, CA Skjøth, S Çelenk, C Testoni, T Abramidze, K Alm Kübler, ...
Aerobiologia 33, 181-189, 2017
Air pollution by allergenic spores of the genus Alternaria in the air of central and eastern Europe
I Kasprzyk, V Rodinkova, I Šaulienė, O Ritenberga, A Grinn-Gofron, ...
Environmental Science and Pollution Research 22, 9260-9274, 2015
Application of backward air mass trajectory analysis in evaluating airborne pollen dispersion
I Šauliene, L Veriankaite
Journal of Environmental engineering and landscape management 14 (3), 113-120, 2006
A statistical model for predicting the inter-annual variability of birch pollen abundance in Northern and North-Eastern Europe
O Ritenberga, M Sofiev, P Siljamo, A Saarto, A Dahl, A Ekebom, ...
Science of the Total Environment 615, 228-239, 2018
Automatic detection of airborne pollen: an overview
J Buters, B Clot, C Galán, R Gehrig, S Gilge, F Hentges, D O’Connor, ...
Aerobiologia, 1-25, 2022
Towards European automatic bioaerosol monitoring: comparison of 9 automatic pollen observational instruments with classic Hirst-type traps
JM Maya-Manzano, F Tummon, R Abt, N Allan, L Bunderson, B Clot, ...
Science of the Total Environment 866, 161220, 2023
The modelling of climate change influence on plant flowering shift in Lithuania.
L Veriankaitė, I Šaulienė, A Bukantis
Analysis of high allergenicity airborne pollen dispersion: common ragweed study case in Lithuania
I Sauliene, L Veriankaite
Annals of Agricultural and Environmental Medicine 19 (3), 2012
Biogeographical drivers of ragweed pollen concentrations in Europe
I Matyasovszky, L Makra, G Tusnády, Z Csépe, LG Nyúl, DS Chapman, ...
Theoretical and applied climatology 133, 277-295, 2018
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