Bioindication of troposheric ozone by native vegetation: the potential of Viburnum lantana for large-scale surveys

Tropospheric ozone is one of the most important phytotoxic air pollutant. Biomonitoring by native plants is an option when the assessment of its impact on vegetation in large-scale surveys and in remote areas is of concern. The shrub species Viburnum lantana L. (wayfaring tree) is known to be sensitive to ozone, develops specific symptoms consisting in red stipples on the upper surface, and has a wide spatial distribution. However it is not fully known if it meets all the requirements to be used as an in situ bioindicator (Doley, 2010). In particular, the actual responsiveness to ozone of native plants and the relationship between the intensity of responses and the levels of exposure to the pollutant under field conditions remain to be evaluated. For these purposes, two field studies were carried out in Trentino (North Italy) at local (1) and large scale (2). (1) Firstly, at local level, we considered two 1x1 km quadrates characterized by different ozone levels. A fully randomized design was adopted to ensure within-quadrate replications and to select V. lantana plants for the monitoring of ozone-specific foliar symptoms development, the chlorophyll (Chl) content and the fluorescence of Chl a during the entire growing season. (2) Secondly, a stratified (elevation x ozone) random design was used to test the response of V. lantana in terms of symptomatic plant percentage at larger scale (6200 km2). Overall, the results of the two field studies allowed to verify a temporal development of the responses of V. lantana consistent with the trend of ozone exposure (Gottardini et al., 2010), and an higher frequency of symptomatic plants where ozone levels were also higher. However, the frequency of symptoms was not always proportionate to the level of ozone exposure. At the same time of the onset and spread of foliar symptoms, a decrease in the foliar Chl content and in photosynthetic performance occurred. V. lantana seems suitable as a bioindicator in situ to qualitatively assess the potential impact of ozone.