Visible foliar injury by ozone (ozone visible injury) is known as a biomarker to assess potential phytotoxicity of ozone. We investigated ozone visible injury in an ozone-sensitive poplar (Oxford clone) under a 2-year free-air controlled exposure (FACE) experiment and calculated three ozone indices (i.e., accumulative ozone exposure over 40ppb during daylight hours (AOT40), phytotoxic ozone dose above a flux threshold of 0nmolm-2s-1 (POD0), and the cumulative value of the ratio of hourly ozone uptake to net photosynthesis (SigmaU/P n ) to assess the critical level (CL) at the time of the first symptom onset of ozone visible injury. We tested the hypothesis that ozone injury depends both on the amount of ozone entering a leaf and on the capacity for biochemical detoxification or repair with photosynthesis as a proxy. The CLs at the time of the first symptom onset of ozone visible injury were 19ppmh for AOT40, 26mmolm-2 for POD0, and 1.2molmol-1 for SigmaU/P n in Oxford clone at the ozone FACE experiment. Our findings were then verified by 4-year observation-based data in central Italy on Oxford clone and white poplar (Populus alba L.). These observation-based data indicated that we found ozone visible injury in Oxford clone even though AOT40 was relatively low (11.7ppmh). On the other hand, when values of POD0 and SigmaU/P n exceeded over the CLs, the occurrence of initial symptoms in Oxford clone was shown. White poplar did not show ozone visible injury. SigmaU/P n of white poplar at the field sites reached ~1.0molmol-1 (less than the CL=1.2molmol-1, which was obtained from O3 FACE) during May-September, although the values of POD0 were relatively high in white poplar (44-47mmolm-2 during May-September). The result implies that ozone injury may have occurred in poplars when stomatal ozone flux exceeded the critical range of tolerance due to the assimilate shortage for repair and defense against ozone stress.

Testing a ratio of photosynthesis to O uptake as an index for assessing O-induced foliar visible injury in poplar trees.

Hoshika Y;Carrari E;Carriero G;Fasano G;Materassi A;Paoletti E
2017

Abstract

Visible foliar injury by ozone (ozone visible injury) is known as a biomarker to assess potential phytotoxicity of ozone. We investigated ozone visible injury in an ozone-sensitive poplar (Oxford clone) under a 2-year free-air controlled exposure (FACE) experiment and calculated three ozone indices (i.e., accumulative ozone exposure over 40ppb during daylight hours (AOT40), phytotoxic ozone dose above a flux threshold of 0nmolm-2s-1 (POD0), and the cumulative value of the ratio of hourly ozone uptake to net photosynthesis (SigmaU/P n ) to assess the critical level (CL) at the time of the first symptom onset of ozone visible injury. We tested the hypothesis that ozone injury depends both on the amount of ozone entering a leaf and on the capacity for biochemical detoxification or repair with photosynthesis as a proxy. The CLs at the time of the first symptom onset of ozone visible injury were 19ppmh for AOT40, 26mmolm-2 for POD0, and 1.2molmol-1 for SigmaU/P n in Oxford clone at the ozone FACE experiment. Our findings were then verified by 4-year observation-based data in central Italy on Oxford clone and white poplar (Populus alba L.). These observation-based data indicated that we found ozone visible injury in Oxford clone even though AOT40 was relatively low (11.7ppmh). On the other hand, when values of POD0 and SigmaU/P n exceeded over the CLs, the occurrence of initial symptoms in Oxford clone was shown. White poplar did not show ozone visible injury. SigmaU/P n of white poplar at the field sites reached ~1.0molmol-1 (less than the CL=1.2molmol-1, which was obtained from O3 FACE) during May-September, although the values of POD0 were relatively high in white poplar (44-47mmolm-2 during May-September). The result implies that ozone injury may have occurred in poplars when stomatal ozone flux exceeded the critical range of tolerance due to the assimilate shortage for repair and defense against ozone stress.
2017
Istituto di Biometeorologia - IBIMET - Sede Firenze
Istituto per la Protezione Sostenibile delle Piante - IPSP
Stomatal ozone uptake . Ozone visible injury . Poplars . Oxford clone .White poplar
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/329294
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