2018
Prediction of ozone effects on net ecosystem production of Norway spruce forest
JURÁŇ, Stanislav; Magda EDWARDS-JONÁŠOVÁ; Pavel CUDLÍN; Miloš ZAPLETAL; Ladislav ŠIGUT et. al.Basic information
Original name
Prediction of ozone effects on net ecosystem production of Norway spruce forest
Authors
JURÁŇ, Stanislav (203 Czech Republic); Magda EDWARDS-JONÁŠOVÁ (203 Czech Republic); Pavel CUDLÍN (203 Czech Republic); Miloš ZAPLETAL (203 Czech Republic, guarantor, belonging to the institution); Ladislav ŠIGUT (203 Czech Republic); John GRACE (826 United Kingdom of Great Britain and Northern Ireland) and Otmar URBAN (203 Czech Republic)
Edition
iForest, 2018, 1971-7458
Other information
Language
English
Type of outcome
Article in a journal
Field of Study
40102 Forestry
Country of publisher
Italy
Confidentiality degree
is not subject to a state or trade secret
References:
Impact factor
Impact factor: 1.419
RIV identification code
RIV/47813059:19240/18:A0000281
Organization unit
Faculty of Philosophy and Science in Opava
UT WoS
000450240500006
EID Scopus
2-s2.0-85061490140
Keywords in English
carbon; CO2 assimilation; model; stomatal ozone flux
Tags
International impact, Reviewed
Changed: 4/4/2019 10:11, RNDr. Jan Hladík, Ph.D.
In the original language
Future ground-level concentrations of phytotoxic ozone are projected to grow in the Northern Hemisphere, at a rate depending on emission scenarios. We explored the likely changes in net ecosystem production (NEP) due to the increasing concentration of tropospheric ozone by applying a Generalized Additive Mixed Model based on measurements of ozone concentration ([O_3]) and stomatal ozone flux (FsO_3), at a mountainous Norway spruce forest in the Czech Republic, Central Europe. A dataset covering the growing period (May-August 2009) was examined in this case study. A predictive model based on FsO_3 was found to be marginally more accurate than a model using [O_3] alone for prediction of the course of NEP when compared to NEP measured by the eddy covariance technique. Both higher [O_3] and FsO_3 were found to reduce NEP. NEP simulated at low, pre-industrial FsO_3 (0.5 nmol m^{-2} s^{-1} ) was higher by 24.8% as compared to NEP assessed at current rates of FsO_3 (8.32 nmol m^{-2} s^{-1}). However, NEP simulated at high FsO_3 (17 nmol m^{-2} s^{-1}), likely in the future, was reduced by 14.1% as compared to NEP values at current FsO_3. The interaction between environmental factors and stomatal conductance is discussed in this paper.
In Czech
Zkoumali jsme pravděpodobné změny v čisté ekosystémové produkci (NEP) v důsledku rostoucí koncentrace troposférického ozonu použitím generalizovaného aditivního smíšeného modelu založeného na měření koncentrace ozonu (O_3) a stomatálního toku ozonu (FsO_3) v horském smrkovém lese v České republice. Byl zkoumán soubor dat z vegetačního období (květen - srpen 2009). Bylo zjištěno, že prediktivní model založený na FsO_3 je marginálně přesnější než model používající samotný ozon pro predikci průběhu NEP ve srovnání s NEP měřenou technikou vířivé kovariance.