Andreas Klumpp

Plants as bioindicators of air pollution at the Serra do Mar near the industrial complex of Cubatão, Brazil

As a result of air pollutant emissions from the industrial complex of Cubatão, Brazil, the Atlantic Forest vegetation of the Serra do Mar shows severe and widespread damage. In order to obtain information on the type, intensity and causes of the vegetation damage, bioindicator plants were exposed at different distances from the emission sources. Air-pollution-induced effects were evaluated by estimation of visible injury symptoms and chemical analyses of leaves. The results prove the occurrence of phytotoxic levels of photochemical oxidants in wide parts of the research area. Intense fluoride-induced damage and high leaf fluoride concentrations were found in a valley downwind of fertiliser industries. The study showed that some of the traditional standardised bioindication methods from temperate climates may be successfully employed in biomonitoring programmes in tropical and subtropical regions.

Tropical fruit trees as bioindicators of industrial air pollution in southeast Brazil

Psidium guajava L., Psidium cattleyanum Sabine and Mangifera indica L. were tested under field conditions as possible tropical bioindicators of industrial air pollution. The study was performed around the industrial complex of Cubatão, SE Brazil, which comprises 23 industries, including fertilizer, cement, chemical, petrochemical, and steel plants, with 110 production units and 260 emission sources of pollutants. Saplings were exposed to environmental conditions during four periods of 16 weeks each (September 1994-September 1995), at four different sites in the coastal mountains near the industrial complex: the Valley of Pilões River (VP), the reference area; the Valley of Mogi River (VM), with high contamination of particulate matter, fluorides (F), sulfur (S) and nitrogen (N) compounds; Caminho do Mar (CM1, CM2), mainly affected by organic pollutants, S and N compounds, and secondary pollutants; and Paranapiacaba (PP), affected by secondary pollutants, such as ozone. M. indica did not adapt to the climatic conditions at the exposure sites. In the two Psidium species, the presence of visible symptoms, root/shoot ratio, foliar contents of F, S and N, amounts of ascorbate (AA) and water-soluble thiols (-SH), as well as peroxidase activity (POD) were determined. P. guajava showed higher foliar accumulation of F, S and N, more pronounced alterations of biochemical indicators, and less visible leaf injury than P. cattleyanum. P. guajava may be used as an accumulative indicator in tropical climates, while further studies will be needed before P. cattleyanum might be applied as a sensitive species in biomonitoring programs.

Variation of nutrient and metal concentrations in aquatic macrophytes along the Rio Cachoeira in Bahia (Brazil).

The use of cuprous fungicides in cocoa production in the southern part of the state of Bahia (Brazil) for decades has caused an accumulation of copper in various components of the cocoa plantations, and a contamination of regional freshwater ecosystems is suspected. Urban and industrial sources are supposed to contribute to water pollution and eutrophication of the Rio Cachoeira, the main river in this region. In order to study the metal contamination and nutritional status of this freshwater ecosystem, samples of the aquatic macrophytes Eichhornia crassipes and Pistia stratiotes were collected at seven sites along the river course. The samples were analysed for their copper, aluminium, chromium, nitrogen and phosphorus concentrations. The levels of heavy metals increased in the downstream direction, particularly in the roots of water hyacinth. A dramatic increase of nitrogen and phosphorus concentrations in water as well as in plant tissues was found in samples collected downstream from the city of Itabuna. Metal input and eutrophication were attributed to agricultural, industrial and urban sources in the region. Biomonitoring of the water quality using aquatic macrophytes as accumulative indicator plants is recommended in addition to chemical water analyses.

EuroBionet: A Pan-European Biomonitoring Network for Urban Air Quality Assessment

EuroBionet, the ‘European Network for the Assessment of Air Quality by the Use of Bioindicator Plants’, is an EU-funded cooperative project currently consisting of public authorities and scientific institutes from 12 cities in 8 countries. In 2000, the bioindicator plants tobacco (Nicotiana tabacum Bel W3), poplar (Populus nigra ‘Brandaris’), spiderwort (Tradescantia sp. clone 4430), Italian rye grass (Lolium multiflorum italicum) and curly kale (Brassica oleracea acephala) were exposed to ambient air at 90 monitoring sites according to standardised methods. Visible injuries and growth parameters were assessed and the accumulation of toxic substances in leaves determined. The exposure of tobacco resulted in a gradient with low levels of ozone-induced foliar injury in N and NW Europe, and medium to high values in the southern and central regions. The results of heavy metal and sulphur analyses in rye grass samples generally showed low to very low sulphur and low to medium heavy metal concentrations in leaves. In some cities, however, local hot spots of heavy metal contamination were detected. Analyses of the PAH contents in curly kale leaves gave low to medium values, with locally elevated levels at traffic-exposed sites.

Um novo conceito de monitoramento e comunicação ambiental: a rede européia para a avaliação da qualidade do ar usando plantas bioindicadoras (EuroBionet)

In spite of all progress made in reducing the emission of air pollutants, the air quality is still unsatisfactory in many European cities. Bioindicator plants are of increasing importance for air quality control as their use makes it possible to prove and to demonstrate the negative impact of air pollutants on living organisms in a way that is easily comprehensible also to laymen. The pan-European project EuroBionet uses bioindicator plants to assess air pollution effects within a network of cities. Through a specific communication concept the scientific results of the project are translated and communicated in a way that addresses the public and raises environmental awareness. Thus the aim is to induce a change of attitude in parts of the urban population and to increase the acceptance of remedial measures. In the present paper the scientific and communicative aims and methods of the EuroBionet project are presented. First results of the exposure of tobacco plants in ten European cities during August and September 2000 show a gradient of increasing ozone impact from the North to the South and Centre of Europe with low injury degree in Scotland and Denmark and high degree in Italy, France, Austria and Southern Germany.

Effects of complex air pollution on tree species of the Atlantic Rain Forest near Cubatão, Brazil

The industrial complex of Cubatao, SE-Brazil, is presented as a typical example of the increasing environmental problems of developing and threshold countries. As a consequence of high air pollutant emissions the Atlantic Rain Forest shows severe decline symptoms. Studies with native tree species including field investigations in the stand and exposure experiments with young trees revealed an accumulation of toxic elements like fluoride and sulphur in the leaves, alterations of mineral economy, metabolic changes typical for stress situations and modifications of growth characteristics. These findings are discussed with respect to the vegetation risk by air pollution.

Fluoride impact on native tree species of the atlantic forest near Cubatão, Brazil

Air pollutant emissions from the industrial complex of Cubatão, Brazil, have led to a severe deterioration of the Atlantic Forest ecosystem. In a field study, leaves of the tree speciesTibouchina pulchra, Miconia pyrifolia, andCecropia glazioui were collected at four sites with different pollution characteristics. Leaf fluoride contents of the three species were found to be highly elevated in a valley near to fertilizer factories. In an area further from the emission sources, which in the past had been affected by fluoride pollution, fluoride concentrations inTibouchina andMiconia continued to be elevated. Preliminary exposure experiments using Tibouchina seedlings as accumulative indicators are reported.

Assessment of the vegetation risk by fluoride emissions from fertiliser industries at Cubatão, Brazil

Abstract The Atlantic Rain Forest near the industrial complex of Cubatao, south-eastern Brazil, suffers from the impact of severe air pollution. Gaseous and particulate fluorides which are emitted by fertiliser plants are assumed to play an important role in the forest decline. In order to obtain information on the air pollution situation and the spatial and temporal distribution of pollution effects, standardised bioindication methods from temperate climates were introduced and applied during a three-year study. A sensitive Gladiolus cultivar developed typical fluoride-induced leaf lesions in areas affected by airborne fluorides, and Lolium multiflorum cultures accumulated large quantities of fluoride. Highly significant linear regression was found between foliar fluoride contents of both species as well as between leaf damage and fluoride accumulation in Gladiolus plants. By using these indicator species, four different areas of the region were identified with respect to vegetation risk by airborne fluorides.

Accumulation of polycyclic aromatic hydrocarbons and trace elements in the bioindicator plants Tillandsia capillaris and Lolium multiflorum exposed at PM10 monitoring stations in Stuttgart (Germany).

The accumulation of polycyclic aromatic hydrocarbons (PAHs) in Tillandsia capillaris Ruiz and Pav. form capillaris and trace elements in T. capillaris and Lolium multiflorum (LAM) cv. Lema was assessed and evaluated in the city of Stuttgart, Germany. Several sites (urban, suburban and rural) categorized according to type and intensity of vehicular traffic were investigated. At these sites, plants of T. capillaris and standardized cultures of L. multiflorum were exposed to ambient air. Foliar concentrations of PAHs (16 priority pollutants according to US-EPA) and of the trace elements Br, Co, Cu, Fe, Mn, Ni, Pb and Zn were determined. A high level of vehicular traffic was associated with the largest concentrations of PM(10) in ambient air and with the highest contents of PAHs and heavy metals in the bioindicator plants. The results showed a similar pattern between T. capillaris and the standardized biomonitor L. multiflorum. Therefore, these results allow us to propose T. capillaris as a suitable bioindicator to assess the distribution of pollution impacts caused by PAHs and trace elements in different subtropical and tropical regions.

Bioindication of air pollution effects near a copper smelter in Brazil using mango trees and soil microbiological properties.

A field study near the copper smelter of a large industrial complex examined air pollution effects on vegetation and soil parameters in Camaçari (northeast Brazil). Close to the smelter, soil pH-value was lower and total acidity as well as organic carbon contents were higher compared with a site far from the source and two reference sites. The acidification of top soil particularly and the drastically enhanced plant-available copper concentrations were caused by atmospheric deposition. High sulphur and copper deposition significantly reduced microbial biomass and altered functional diversity of soil microorganisms (arylsulphatase and xylanase). Large accumulations of sulphur, arsenic and copper were detected in mango leaves (Mangifera indica) growing downwind from the smelter suggesting potential food chain-mediated risk.