![]() European Journal of Soil Biology, 43, 166–179. Nematode diversity and food web condition in heavy metal polluted soils in a river basin in southern Spain. Comparative Biochemistry and Physiology Part C, 106, 11–38. Heavy-metal adaptation in terrestrial invertebrates: a review of occurrence, genetics, physiology and ecological consequences. Philosophical Transaction of the Royal Society of London Series B, 345, 75–79. Selecting indicator taxa for quantitative assessment of biodiveristy. European Journal of Soil Biology, 38, 297–300. Effects of heavy metal pollution on soil macrofauna in a grassland of Northern France. Science of the Total Environment, 321, 59–69. Metal pollution of soils and vegetation in an area with petrochemical industry. ![]() Nadal, M., Schuhmacher, M., & Domingo, J. Soil communities (Acari Oribatida Hexapoda Collembola) in a clay pigeon shooting range. Migliorini, M., Pigino, G., Caruso, T., Fanciulli, P. Agriculture Ecosystems & Environment, 74, 229–273. Spiders (Araneae) useful for pest limitation and bioindication. Krivolutsky (Eds.), Bioindicator systems for soil pollution (pp. Bollettino della Accademia Gioenia di scienze naturali, 26, 331–226. Ground-living spiders in a polluted pine forest, SW Finland. A case study on earthworm populations in river floodplains contaminated with heavy metals. Field effects of pollutants in dynamic environments. Biodiversity and community structure of ground-dwelling spiders in four different field margin types of agricultural landscapes in Korea. Brebbia (Ed.), Environmental health risk IV (pp. Risk analysis of heavy metal contamination habitats a wolf spider, Pardosa astrigera (Araneae: Lycosidae). Journal of Asia-Pacific Entomology, 8, 185–192. Accumulated heavy metal content in wolf spider, Pardosa astrigera (Araneae: Lycosidae), as a bioindicator of exposure. Zinc, among a “cocktail” of metal pollutants, is responsible for the absence of the terrestrial isopod Procellio acaber form the vicinity of a primary smelting works. Nematode communities in contaminated river sediments. Heininger, P., Hoss, S., Claus, E., Pelzer, J., & Traunspurger, W. The effects of the insecticide chlorpyrifos on spider and Collembola communities. Change in marine communities: An approach to statistical analysis and interpretation, (2nd ed.). Australian Journal of Ecology, 18, 117–143.Ĭlarke, K. Non-parametric multivariate analyses of changes in community structure. Memoirs of Museum Victoria, 56, 331–337.Ĭlarke, K. Spiders as ecological indicators, an overview for Australia. Contamination and clean of soil environment. laura (Lycosidae) have a potential as heavy metal accumulator indicator species and Oedothorax insulanus (Linyphiidae) has a potential as a heavy metal sentinel indicator species.Īnn, Y. However, among the dominant spider families, the composition and structure of Linyphiidae separated unpolluted and moderately polluted sites. Overall ground-dwelling spider communities may be not sensitive enough to discriminate moderate heavy metal contamination levels in soil. The community structure of ground-dwelling spiders was similar for the two types of sites. No trend was shown between species diversity and Cd levels in soil. ![]() Species diversity tended to decrease with increasing Pb levels in soil although no statistical significance was obtained. Species diversity of ground-dwelling spiders between unpolluted and moderately polluted sites was not significantly different although the value was higher in the unpolluted site. Ground-dwelling spiders were collected monthly in 20 by pitfall trapping. Six sites were selected according to expected differences in Cd and Pb contamination levels in soil and similarity in vegetation composition. This study was conducted to investigate the relationship between ground-dwelling spider communities and the degree of soil contamination of heavy metals, Cd and Pb. ![]()
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