New flux based dose - response relationships for ozone for European forest tree species

Patrick Büker; Zaozhong Feng; Johann Uddling; Alain Briolat; Rocio Alonso; Sabine Braun; Susana Elvira; Giacomo Alessandro Gerosa; Per Erik Karlsson; Didier Le Thiec; Riccardo Marzuoli; Gina Mills; Elina Oksanen; Gehrard Wieser; M Wilkinson; Lisa Emberson

doi:10.1016/j.envpol.2015.06.033

New flux based dose - response relationships for ozone for European forest tree species

Patrick Büker^*
, Zaozhong Feng
, Johann Uddling
, Alain Briolat
, Rocio Alonso
, Sabine Braun
, Susana Elvira
, Giacomo Alessandro Gerosa
, Per Erik Karlsson
, Didier Le Thiec
, Riccardo Marzuoli
, Gina Mills
, Elina Oksanen
, Gehrard Wieser
, M Wilkinson
, Lisa Emberson

^*Corresponding author

Research output: Contribution to journal › Article › peer-review

71 Citations (Scopus)

Abstract

To derive O3 doseeresponse relationships (DRR) for five European forest trees species and broadleaf\r\ndeciduous and needleleaf tree plant functional types (PFTs), phytotoxic O3 doses (PODy) were related to\r\nbiomass reductions. PODy was calculated using a stomatal flux model with a range of cut-off thresholds\r\n(y) indicative of varying detoxification capacities. Linear regression analysis showed that DRR for PFT and\r\nindividual tree species differed in their robustness. A simplified parameterisation of the flux model was\r\ntested and showed that for most non-Mediterranean tree species, this simplified model led to similarly\r\nrobust DRR as compared to a species- and climate region-specific parameterisation. Experimentally\r\ninduced soil water stress was not found to substantially reduce PODy, mainly due to the short duration of\r\nsoil water stress periods. This study validates the stomatal O3 flux concept and represents a step forward\r\nin predicting O3 damage to forests in a spatially and temporally varying climate

Original language	English
Pages (from-to)	163-174
Number of pages	12
Journal	Environmental Pollution
Volume	2015
Issue number	206
DOIs	https://doi.org/10.1016/j.envpol.2015.06.033
Publication status	Published - 2015

All Science Journal Classification (ASJC) codes

Toxicology
Pollution
Health, Toxicology and Mutagenesis

Keywords

Dose-response relationships
Model-based risk assessment
ozone flux
trees

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10.1016/j.envpol.2015.06.033

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Büker, P., Feng, Z., Uddling, J., Briolat, A., Alonso, R., Braun, S., Elvira, S., Gerosa, G. A., Karlsson, P. E., Le Thiec, D., Marzuoli, R., Mills, G., Oksanen, E., Wieser, G., Wilkinson, M., & Emberson, L. (2015). New flux based dose - response relationships for ozone for European forest tree species. Environmental Pollution, 2015(206), 163-174. https://doi.org/10.1016/j.envpol.2015.06.033

@article{561700334e1f4d159a8257b0eb1d9813,

title = "New flux based dose - response relationships for ozone for European forest tree species",

abstract = "To derive O3 doseeresponse relationships (DRR) for five European forest trees species and broadleaf\textbackslash{}r\textbackslash{}ndeciduous and needleleaf tree plant functional types (PFTs), phytotoxic O3 doses (PODy) were related to\textbackslash{}r\textbackslash{}nbiomass reductions. PODy was calculated using a stomatal flux model with a range of cut-off thresholds\textbackslash{}r\textbackslash{}n(y) indicative of varying detoxification capacities. Linear regression analysis showed that DRR for PFT and\textbackslash{}r\textbackslash{}nindividual tree species differed in their robustness. A simplified parameterisation of the flux model was\textbackslash{}r\textbackslash{}ntested and showed that for most non-Mediterranean tree species, this simplified model led to similarly\textbackslash{}r\textbackslash{}nrobust DRR as compared to a species- and climate region-specific parameterisation. Experimentally\textbackslash{}r\textbackslash{}ninduced soil water stress was not found to substantially reduce PODy, mainly due to the short duration of\textbackslash{}r\textbackslash{}nsoil water stress periods. This study validates the stomatal O3 flux concept and represents a step forward\textbackslash{}r\textbackslash{}nin predicting O3 damage to forests in a spatially and temporally varying climate",

keywords = "Dose-response relationships, Model-based risk assessment, ozone flux, trees, Dose-response relationships, Model-based risk assessment, ozone flux, trees",

author = "Patrick B{\"u}ker and Zaozhong Feng and Johann Uddling and Alain Briolat and Rocio Alonso and Sabine Braun and Susana Elvira and Gerosa, \{Giacomo Alessandro\} and Karlsson, \{Per Erik\} and \{Le Thiec\}, Didier and Riccardo Marzuoli and Gina Mills and Elina Oksanen and Gehrard Wieser and M Wilkinson and Lisa Emberson",

year = "2015",

doi = "10.1016/j.envpol.2015.06.033",

language = "English",

volume = "2015",

pages = "163--174",

journal = "Environmental Pollution",

issn = "0269-7491",

publisher = "Elsevier Ltd",

number = "206",

}

Büker, P, Feng, Z, Uddling, J, Briolat, A, Alonso, R, Braun, S, Elvira, S, Gerosa, GA, Karlsson, PE, Le Thiec, D, Marzuoli, R, Mills, G, Oksanen, E, Wieser, G, Wilkinson, M & Emberson, L 2015, 'New flux based dose - response relationships for ozone for European forest tree species', Environmental Pollution, vol. 2015, no. 206, pp. 163-174. https://doi.org/10.1016/j.envpol.2015.06.033

TY - JOUR

T1 - New flux based dose - response relationships for ozone for European forest tree species

AU - Büker, Patrick

AU - Feng, Zaozhong

AU - Uddling, Johann

AU - Briolat, Alain

AU - Alonso, Rocio

AU - Braun, Sabine

AU - Elvira, Susana

AU - Gerosa, Giacomo Alessandro

AU - Karlsson, Per Erik

AU - Le Thiec, Didier

AU - Marzuoli, Riccardo

AU - Mills, Gina

AU - Oksanen, Elina

AU - Wieser, Gehrard

AU - Wilkinson, M

AU - Emberson, Lisa

PY - 2015

Y1 - 2015

N2 - To derive O3 doseeresponse relationships (DRR) for five European forest trees species and broadleaf\r\ndeciduous and needleleaf tree plant functional types (PFTs), phytotoxic O3 doses (PODy) were related to\r\nbiomass reductions. PODy was calculated using a stomatal flux model with a range of cut-off thresholds\r\n(y) indicative of varying detoxification capacities. Linear regression analysis showed that DRR for PFT and\r\nindividual tree species differed in their robustness. A simplified parameterisation of the flux model was\r\ntested and showed that for most non-Mediterranean tree species, this simplified model led to similarly\r\nrobust DRR as compared to a species- and climate region-specific parameterisation. Experimentally\r\ninduced soil water stress was not found to substantially reduce PODy, mainly due to the short duration of\r\nsoil water stress periods. This study validates the stomatal O3 flux concept and represents a step forward\r\nin predicting O3 damage to forests in a spatially and temporally varying climate

AB - To derive O3 doseeresponse relationships (DRR) for five European forest trees species and broadleaf\r\ndeciduous and needleleaf tree plant functional types (PFTs), phytotoxic O3 doses (PODy) were related to\r\nbiomass reductions. PODy was calculated using a stomatal flux model with a range of cut-off thresholds\r\n(y) indicative of varying detoxification capacities. Linear regression analysis showed that DRR for PFT and\r\nindividual tree species differed in their robustness. A simplified parameterisation of the flux model was\r\ntested and showed that for most non-Mediterranean tree species, this simplified model led to similarly\r\nrobust DRR as compared to a species- and climate region-specific parameterisation. Experimentally\r\ninduced soil water stress was not found to substantially reduce PODy, mainly due to the short duration of\r\nsoil water stress periods. This study validates the stomatal O3 flux concept and represents a step forward\r\nin predicting O3 damage to forests in a spatially and temporally varying climate

KW - Dose-response relationships

KW - Model-based risk assessment

KW - ozone flux

KW - trees

KW - Dose-response relationships

KW - Model-based risk assessment

KW - ozone flux

KW - trees

UR - https://publicatt.unicatt.it/handle/10807/69116

UR - https://www.scopus.com/inward/citedby.uri?partnerID=HzOxMe3b&scp=84938542581&origin=inward

UR - https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84938542581&origin=inward

U2 - 10.1016/j.envpol.2015.06.033

DO - 10.1016/j.envpol.2015.06.033

M3 - Article

SN - 0269-7491

VL - 2015

SP - 163

EP - 174

JO - Environmental Pollution

JF - Environmental Pollution

IS - 206

ER -

New flux based dose - response relationships for ozone for European forest tree species

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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