Ozone (O) is an oxidative air pollutant that affects plant growth. Moringa oleifera is a tree species distributed in the tropical and subtropical regions. This species presents high morphological plasticity, which increases its ability to tolerate stressful conditions, but with no O risk assessment calculated so far. The present study assessed the O risk to different M. oleifera ecotypes using exposure-based index (AOT40) or flux-based index (PODy - where y is a threshold of O uptake). PODy considers the O uptake through the stomata and the consequence of environmental climate conditions on stomatal conductance (g); thus, it is efficient in assessing O risk. Five M. oleifera ecotypes were subjected to ambient (Amb.); middle (Mid. X1.5), and High (x2.0) O concentrations for 77 days in a free-air controlled exposure facility (FACE). Leaf biomass (LB) was evaluated, and the biomass loss was projected assuming a clean atmosphere (10 ppb as 24 h O average). The g parameterization was calculated using the Jarvis-type multiplicative algorithm considering several climate factors, i.e., light intensity, air temperature, air vapor pressure deficit, and AOT40. Ozone exposure harmed the LB of all ecotypes. The high g (~559 mmol HO m s) can be considered the reason for the species' O sensitivity. M. oleifera is adapted to hot climate conditions, and g was restricted with air temperature (T) below ~ 9 °C. As expected, the PODy index performed better than the AOT40 for estimating the O effect on biomass losses. We recommend a y threshold of 4 nmol m s to incorporate O effects on M. oleifera LB. To not exceed a 4% reduction of LB for any M. oleifera genotype, we recommend the critical levels of 1.1 mmol m POD.

Experimental assessment of ozone risk on ecotypes of the tropical tree Moringa oleifera

Brunetti C.;Hoshika Y.;Paoletti E.;Ferrini F.
2021

Abstract

Ozone (O) is an oxidative air pollutant that affects plant growth. Moringa oleifera is a tree species distributed in the tropical and subtropical regions. This species presents high morphological plasticity, which increases its ability to tolerate stressful conditions, but with no O risk assessment calculated so far. The present study assessed the O risk to different M. oleifera ecotypes using exposure-based index (AOT40) or flux-based index (PODy - where y is a threshold of O uptake). PODy considers the O uptake through the stomata and the consequence of environmental climate conditions on stomatal conductance (g); thus, it is efficient in assessing O risk. Five M. oleifera ecotypes were subjected to ambient (Amb.); middle (Mid. X1.5), and High (x2.0) O concentrations for 77 days in a free-air controlled exposure facility (FACE). Leaf biomass (LB) was evaluated, and the biomass loss was projected assuming a clean atmosphere (10 ppb as 24 h O average). The g parameterization was calculated using the Jarvis-type multiplicative algorithm considering several climate factors, i.e., light intensity, air temperature, air vapor pressure deficit, and AOT40. Ozone exposure harmed the LB of all ecotypes. The high g (~559 mmol HO m s) can be considered the reason for the species' O sensitivity. M. oleifera is adapted to hot climate conditions, and g was restricted with air temperature (T) below ~ 9 °C. As expected, the PODy index performed better than the AOT40 for estimating the O effect on biomass losses. We recommend a y threshold of 4 nmol m s to incorporate O effects on M. oleifera LB. To not exceed a 4% reduction of LB for any M. oleifera genotype, we recommend the critical levels of 1.1 mmol m POD.
2021
Istituto di Ricerca sugli Ecosistemi Terrestri - IRET
Tropospheric ozone
PODy
Stomatal conductance
Air pollution
Tropical trees
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Descrizione: Experimental assessment of ozone risk on ecotypes of the tropical tree Moringa oleifera
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/442824
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