An open-top chamber experiment has been carried out at the facilities of Curno (North Italy), in June–August 2009, to assess the response to ozone in two poplar clones Populus maximowiczii Henry × P.berolinensis Dippel (Oxford clone, OX), and Populus nigra “Jean Pourtet” (JP) in concomitance of severe drought events. Three different water regimes were applied: W – Well Watered Control: field capacity;D1 – Drought Treatment 1: field capacity until begin July, then reduced water availability (plants were then subjected to severe drought events); D2 – Drought Treatment 2: constant water shortage (plants were then subjected to severe drought events). Leaf water potential, gas exchange and chlorophyll fluorescence (JIP-test) were assessed every 2 weeks; growth parameters and stable isotope composition(d13C and d18O) were measured at the end of the experiment. The main results were: (i) drought, but not ozone, reduced photosynthesis and growth and increased d13C; (ii) the two clones showed different strategies to cope with ozone stress: JP shed the damaged leaves, whereas OX maintained their leaves ozone provoked the loss of leaves in W plants of the JP clone; (iii) in the D1 plants the response to drought provokes an additional effects with the effect of ozone absorbed before the severe drought events;(iv) D2 plants did not respond to ozone until the last event, when a clear synergistic effect between the two stressors was observed. We conclude that ozone had different effects in relation to the way the drought stress was applied. These results are discussed for their ecological consequence on vegetation infield conditions.

Pollastrini, M.; Desotgiu, R.; Camin, F.; Ziller, L.; Gerosa, G.; Marzuoli, R.; Bussotti, F. (2014). Severe drought events increase the sensitivity to ozone on poplar clones. ENVIRONMENTAL AND EXPERIMENTAL BOTANY, 100 (1): 94-104. doi: 10.1016/j.envexpbot.2013.12.016 handle: http://hdl.handle.net/10449/23016

Severe drought events increase the sensitivity to ozone on poplar clones

Camin, Federica;Ziller, Luca;
2014-01-01

Abstract

An open-top chamber experiment has been carried out at the facilities of Curno (North Italy), in June–August 2009, to assess the response to ozone in two poplar clones Populus maximowiczii Henry × P.berolinensis Dippel (Oxford clone, OX), and Populus nigra “Jean Pourtet” (JP) in concomitance of severe drought events. Three different water regimes were applied: W – Well Watered Control: field capacity;D1 – Drought Treatment 1: field capacity until begin July, then reduced water availability (plants were then subjected to severe drought events); D2 – Drought Treatment 2: constant water shortage (plants were then subjected to severe drought events). Leaf water potential, gas exchange and chlorophyll fluorescence (JIP-test) were assessed every 2 weeks; growth parameters and stable isotope composition(d13C and d18O) were measured at the end of the experiment. The main results were: (i) drought, but not ozone, reduced photosynthesis and growth and increased d13C; (ii) the two clones showed different strategies to cope with ozone stress: JP shed the damaged leaves, whereas OX maintained their leaves ozone provoked the loss of leaves in W plants of the JP clone; (iii) in the D1 plants the response to drought provokes an additional effects with the effect of ozone absorbed before the severe drought events;(iv) D2 plants did not respond to ozone until the last event, when a clear synergistic effect between the two stressors was observed. We conclude that ozone had different effects in relation to the way the drought stress was applied. These results are discussed for their ecological consequence on vegetation infield conditions.
Biomass
Drought stress
Fluorescence transient
Gas exchange
Ozone
Poplar clones
Stable isotopes
Settore BIO/03 - BOTANICA AMBIENTALE E APPLICATA
2014
Pollastrini, M.; Desotgiu, R.; Camin, F.; Ziller, L.; Gerosa, G.; Marzuoli, R.; Bussotti, F. (2014). Severe drought events increase the sensitivity to ozone on poplar clones. ENVIRONMENTAL AND EXPERIMENTAL BOTANY, 100 (1): 94-104. doi: 10.1016/j.envexpbot.2013.12.016 handle: http://hdl.handle.net/10449/23016
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10449/23016
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