The fingerprint of tropospheric ozone on broadleaved forest vegetation in Europe
Tropospheric ozone (O3) increased globally in the 20th century, contributes to climate change and can have adverse effects on terrestrial ecosystems. The response of forest vegetation to ozone is modulated by species- and site-specific factors and visible foliar symptoms (VFS) are the only direct evidence of ozone effects on vegetation. VFS have been observed and reproduced under (semi-) controlled conditions and their field assessment has been largely harmonized in Europe. We analyzed ozone concentration and VFS data as measured at (respectively) 118 and 91 intensive monitoring sites of the International Co-Operative Programme on Assessment and Monitoring of Air Pollution Effects on Forests (ICP Forests) spanning over five European biogeographic regions from 2005 to 2018. Average values for VFS were calculated accounting for the number of species present and their observed frequency. Spatial and temporal variation of ozone concentrations, VFS, and their relationships across Europe were then investigated by applying Generalized Linear Mixed Models (GLMMs) and combined GLMMs. Ozone concentrations exceeded 40 ppb on 37.3 % of the sites and were significantly higher (p
Details
| Volume | 158 |
|---|---|
| Type | A1: Web of Science-artikel |
| Categorie | Onderzoek |
| Tijdschrift | Ecological Indicators|Ecological Indicators online |
| Issns | 1470-160X|1872-7034 |
| Taal | Engels |
Bibtex
@misc{d58e9c96-ca13-4178-8af5-5cf25bd7765c,
title = "The fingerprint of tropospheric ozone on broadleaved forest vegetation in Europe",
abstract = "Tropospheric ozone (O3) increased globally in the 20th century, contributes to climate change and can have adverse effects on terrestrial ecosystems. The response of forest vegetation to ozone is modulated by species- and site-specific factors and visible foliar symptoms (VFS) are the only direct evidence of ozone effects on vegetation. VFS have been observed and reproduced under (semi-) controlled conditions and their field assessment has been largely harmonized in Europe. We analyzed ozone concentration and VFS data as measured at (respectively) 118 and 91 intensive monitoring sites of the International Co-Operative Programme on Assessment and Monitoring of Air Pollution Effects on Forests (ICP Forests) spanning over five European biogeographic regions from 2005 to 2018. Average values for VFS were calculated accounting for the number of species present and their observed frequency. Spatial and temporal variation of ozone concentrations, VFS, and their relationships across Europe were then investigated by applying Generalized Linear Mixed Models (GLMMs) and combined GLMMs. Ozone concentrations exceeded 40 ppb on 37.3 % of the sites and were significantly higher (p ",
author = "Marco Ferretti and Maxime Cailleret and Matthias Haeni and Volodymyr Trotsiuk and Vladislav Apuhtin and Valda Araminiene and Václav Buriánek and Sébastien Cecchini and Laurence Dalstein-Richier and Iva Hůnová and Tamara Jakovljević and Konstantinos Kaoukis and Johan Neirynck and Manuel Nicolas and Anne-Katrin Prescher and Radek Novotný and Hana Pavlendova and Nenad Potočić and Matej Rupel and Alexander Russ and Vidas Stakėnas and Arne Verstraeten and Pierre Vollenweider and Daniel Zlindra and Diana Pitar and Vicent Calatayud and Elena Gottardini and Marcus Schaub",
year = "2024",
month = jan,
day = "01",
doi = "https://doi.org/10.1016/j.ecolind.2023.111486",
language = "Nederlands",
publisher = "Instituut voor Natuur- en Bosonderzoek",
address = "België,
type = "Other"
}
Auteurs
Marco FerrettiMaxime Cailleret
Matthias Haeni
Volodymyr Trotsiuk
Vladislav Apuhtin
Valda Araminiene
Václav Buriánek
Sébastien Cecchini
Laurence Dalstein-Richier
Iva Hůnová
Tamara Jakovljević
Konstantinos Kaoukis
Johan Neirynck
Manuel Nicolas
Anne-Katrin Prescher
Radek Novotný
Hana Pavlendova
Nenad Potočić
Matej Rupel
Alexander Russ
Vidas Stakėnas
Arne Verstraeten
Pierre Vollenweider
Daniel Zlindra
Diana Pitar
Vicent Calatayud
Elena Gottardini
Marcus Schaub