CEN/TC 264/WG 30 - Biomonitoring methods with flowering plants
WG 30 deals with description of a method for the determination of biological index of effects of ozone on tobacco. Such index can be used for spatial and temporal survey of effects of ozone on vegetation. This method has already been widely used. This standard will allow harmonizing the use of the method in order to compare the results. Furthermore, WG 30 deals with description of a method, using ray-grass, for assessing the environmental impregnation by organic and non-organic elements. This method has already been widely used. This standard will allow harmonizing the use of the method in order to compare the results. The method can apply to the localization of pollution sources and dispersion areas at local and regional levels. It also allows the mapping of background pollution at national or global levels.
Biomonitoring methods with flowering plants
WG 30 deals with description of a method for the determination of biological index of effects of ozone on tobacco. Such index can be used for spatial and temporal survey of effects of ozone on vegetation. This method has already been widely used. This standard will allow harmonizing the use of the method in order to compare the results. Furthermore, WG 30 deals with description of a method, using ray-grass, for assessing the environmental impregnation by organic and non-organic elements. This method has already been widely used. This standard will allow harmonizing the use of the method in order to compare the results. The method can apply to the localization of pollution sources and dispersion areas at local and regional levels. It also allows the mapping of background pollution at national or global levels.
General Information
This European Standard applies to the determination of the impact of ground-level ozone on a bioindicator plant species (tobacco Nicotiana tabacum cultivars Bel-W3, Bel-B and Bel-C) in a given environment.
The present document specifies the procedure for setting-up and use of a system designed to expose these plants to ambient air. It also describes the procedure for leaf injury assessment.
Leaf injury caused by ozone appears in the form of necrosis or accelerated aging (senescence) on the leaves of the bioindicator. The macroscopically detectable leaf injury is used as the effect measure (see pictures in Annex A). The measure is the percentage of dead leaf area on the entire leaf surface.
The results of the standardised tobacco exposure indicate ozone-caused injury of the exposed bioindicators and thus enable a spatial and temporal distribution of the impact of ozone on plants to be determined.
This Standard applies to the outside atmosphere in all environments. This standard does not apply to the assessment of air quality inside buildings.
The method described in this European Standard does not replace modelling or physico-chemical methods of direct measurement of air pollutants, it complements them by demonstrating the biological effect.
The method described in this European Standard does not replace modelling or physico-chemical methods of direct measurement of air pollutants, it complements them by demonstrating the biological effect.
- Standard35 pagesEnglish languagesale 10% offe-Library read for1 day
This document applies to the use of the grass Lolium multiflorum ssp. italicum designated hereafter as Italian ryegrass for the bioaccumulation of substances liable to cause atmospheric pollution. It is an active biomonitoring approach insofar as the plants used are first cultivated in set conditions before being exposed at the monitoring locations in the field. The plants then record any pollution events that occur while they are being exposed, allowing such events to be accurately dated.
The method described in this document can be applied for identification and localization of one or more single pollution sources and the tracking of their “plume” on a local or regional scale. It also offers a tool to monitor sites in the long term by the repeated application of a clearly defined procedure and to describe the local or regional air pollution situation.
The method applies to solid and gaseous substances deposited on plants, where they may accumulate on their surface or in their tissues. These substances include sulphur, chloride, fluoride and especially metals as well as low volatile organic and halo-organic compounds such as polycyclic aromatic hydrocarbons (PAH), polychlorinated biphenyls (PCB), polybrominated diphenyl ethers (PBDE), polychlorinated dibenzo dioxins (PCDD) and polychlorinated dibenzo furans (PCDF). It is as well possible to verify pesticides which are used in plant protection products. The range of potential substances may be expanded according to the task at hand and the capabilities of conducting trace analyses and assessment.
The method described in this document allows spatial and temporal comparisons and allows for screening, thus providing a first indication of risk. The results of grass culture studies can suggest risks to biota (e.g. via the food chain) which require further investigation.
The method described in this document does not replace physico-chemical methods of direct measurement or modelling of air pollutants and cannot be replaced by them for its part; it complements them by indicating biological effects.
Potential areas of deployment are:
- Permit procedures related to air pollution legislation;
- Preservation of evidence related to the code for protection from pollution;
- Monitoring of emission sources and performance control;
- Assessment of local-scale emission transport;
- Evidence of causation, e.g. related to environmental liability;
- Air quality maintenance plans/strategies;
- Long-term monitoring of ecological effects of atmospheric depositions;
- Detection and assessment of local, regional, and countrywide effects of atmospheric depositions;
- Assessment of risks for humans and/or animals via the food chain.
This document is of interest to those involved in environmental monitoring.
- Draft44 pagesEnglish languagesale 10% offe-Library read for1 day