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2011 | 20 | 3 |

Tytuł artykułu

Extraction and mapping of soil factors using factor analysis and geostatistical analysis on intensively manured heterogenous soils

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
To investigate both natural variability and anthropogenic inputs, a small lake catchment that collects water from slurry-irrigated (~300 m³・ha⁻¹ annual application) natural meadows was explored. Analysis of the distribution of heavy metals suggests that concentrations of Ni, Zn, Pb, and Cu are closely associated with the geochemical signatures of soil parent material and, to a lesser extent, with soil organic matter. The data set of selected soil parameters was subjected to factor analysis (FA), which reduced the dataset into two major components (Factors 1 and 2) representing the different elemental sources. Geostatistical analysis showed interrelationships between heavy metal accumulations and soil genetic properties. Contour mapping of these variables identified the areas where anthropogenic processes are especially evident. Such visual information allowed spatial identification of the optimum number of ‘tipping points’ for soil monitoring.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

20

Numer

3

Opis fizyczny

p.701-708,fig.,ref.

Twórcy

  • Voke Branch of the Lithuanian Research Centre for Agriculture and Forestry, Zalioji a. 2, Traku Voke, Vilnius, Lithuania
autor

Bibliografia

  • 1. NICHOLSON F.A., SMITH S.R., ALLOWAY B.J., CARLTON-SMITH C., CHAMBERS B.J. An inventory of heavy metals inputs to agricultural soils in England and Wales. The Science of the Total Environment. 311, (1), 205, 2003.
  • 2. MORAL R., PEREZ-MURCIA M.D., PEREZ-ESPINOSA A., MORENO-CASELLES J., PAREDES C., RUFETE B. Salinity, organic content, micronutrients and heavy metals in pig slurries from South-eastern Spain. Waste Management. 28, (2), 367, 2008.
  • 3. PRECHTEL A., von LUTZOW M., SCHNEIDER B.U., BENS O., BANNICK C.G., KOGEL-KNABNER I., HUTTL R.F. Organic carbon in soils of Germany: status quo and the need for new data to evaluate potentials and trends of soil carbon sequestration. J. Plant Nutr. Soil Sci. 172, 601, 2009.
  • 4. CLEMENTE R., WALKER D.J., BERNAL M.P. Uptake of heavy metals by Brassica juncea grown in a contaminated soil in Aznalcollar (Spain): The effect of soil amendments. Environ. Pollut. 138, 46, 2005.
  • 5. WALKER D.J., CLEMENTE R., ROIG A., BERNAL M.P. The effects of soil amendments on heavy metal bioavailability in two contaminated Mediterranean soils. Environ. Pollut. 122, 303, 2003.
  • 6. JOHNSON C.E., DRISCOLL C.T., SICCAMA T.G., LIKENS G.E. Element fluxes and landscape position in a northern hardwood forest watershed-ecosystem. Ecosystems. 3, 159, 2000.
  • 7. BALTRĖNAITĖ E., ŠEREVIČIENĖ V., PALIULIS D. Variation of carbon and metal concentration in soil amended with sewage sludge. Ekologija. 55, (1), 1, 2009.
  • 8. GUGGENBERGER G., KAISER K. Dissolved organic matter in soil: challenging the paradigm of sorptive preservation. Geoderma. 113, (3-4), 293, 2003.
  • 9. SCHWERTMANN U., TAYLOR R.M. Iron oxides. pp. 379-438. In: Dixon, J.B.; Weed, S.B. (Eds.), Minerals in Soil Environments, Soil Science Society of America, Madison, Wisconsin, USA, 1989.
  • 10. WAYCHUNAS G.A., KIM C.S., BANFIELD J.F. Nanoparticulate iron oxide minerals in soils and sediments: unique properties and contaminant scavenging mechanisms. J. Nanopart. Res. 7, 409, 2005.
  • 11. YALCIN M.G. Heavy mineral distribution as related to environmental conditions for modern beach sediments from the Susanoglu (Atakent, Mersin, Turkey). Environ. Geol. 58, 119, 2009.
  • 12. BATISTA M.J., DEMETRIADES A., PIRC S., DE VOS W., BIDOVEC M., MARTINS L. Factor analysis interpretation of European soil, stream and floodplain sediment data. pp. 567-617. In: De Vos W., Tarvainen T. (Eds.), Geochemical Atlas of Europe, Part 2. Otamedia Oy, Espoo, Finland, 2006.
  • 13. RAWLINS B.G., SCHEIB A.J., LARK R.M., LISTER T.R. Sampling and analytical plus subsampling variance components for five soil indicators observed at regional scale. European Journal of Soil Science. 60, 740, 2009.
  • 14. CARDINALE B.J., PALMER M.A., SWAN C.M., BROOKS S., LE ROY POFF N. The influence of substrate heterogeneity on biofilm metabolism in a stream ecosystem. Ecology. 83, (2), 412, 2002.
  • 15. LANGHANS S.D., TIEGS S.D., UEHLINGER U., TOCKNER K. Environmental heterogeneity controls organic-matter dynamics in river-floodplain ecosystems. Polish Journal of Ecology. 54, (4), 675, 2006.
  • 16. SOKAL R.R., ROHLF F.J. Biometry: the principles and practice of statistics in biological research, 3rd ed. W.H. Friedman and Company: New York, pp. 887, 2000.
  • 17. BARONA A., ROMERO F. Distribution of metals in soils and relationships among fractions by Principal Component Analysis. Soil Technology. 8, 303, 1996.
  • 18. PEREIRA P., UBEDA X.,OUTEIRO L., MARTIN D.A. Factor analysis applied to fire temperature effects on water quality. In: Forest Fires: Detection, Suppression and Prevention. Gomez E. and Alvarez K. (Eds.). Nova Science Publishers, Inc. Hauppauge, NY USA. 2009 [In press].
  • 19. HILL T., LEWICKI P. (Eds.). Statistics: Methods and Applications. StatSoft, Inc., Tulsa, Oklahoma, USA. pp. 800, 2007.
  • 20. PERELMAN A. I., KASIMOV N. S. Landscape Geochemistry. Astrja-2000, Moscow. pp. 786, 1999 [in Russian].
  • 21. SHUKLA M.K., LAL R., EBINGER M. Determining soil quality indicators by factor analysis. Soil & Tillage Research. 87, (2), 194, 2006.
  • 22. MARTINEZ C.E., McBRIDE M.B. Cd, Cu, Pb and Zn coprecipitates in Fe oxide formed at different pH: aging effects on metal solubility and extractability by citrate. Environmental Toxicology and Chemistry. 20, (1), 122, 2001.
  • 23. TILLER K.G., GERTH J., BRUMMER G. The sorption of Cd, Zn and Ni by soil clay fractions: Procedure for partition of bound forms and their interpretation. Geoderma 34, (1), 1, 1984.
  • 24. TILLER K.G., GERTH J., BRUMMER G. The relative affinities of Cd, Ni and Zn for different soil clay fractions and geothite. Geoderma. 34, (1), 17, 1984.
  • 25. MARCATO C.E., PINELLI E., POUECH P., WINTERTON P., GUIRESSE M. Particle size and metal distribution in anaerobically digested pig slurry. Bioresource Technology. 99, (7), 2340, 2008.
  • 26. KRAVCHENKO A.N., ROBERTSON G.P., SNAP S.S., SMUCKER A.J.M. Using information about spatial variability to improve estimates of total soil carbon. Agron. J., 98, 823, 2006.
  • 27. ANTANAITIS A., LUBYTĖ J., ANTANAITIS Š., STAUGAITIS G. The impact of antropogenic factors on the concentration of heavy metals in cereal grain. Zemdirbyste- Agriculture. 94, (2), 49, 2007.
  • 28. TYLER G., OLSSON T. Concentrations of 60 elements in the soil solution as related to soil acidity. European Journal of Soil Science. 52, 151, 2001.
  • 29. QISHLAQI A., MOORE F. Statistical analyses of accumulation and sources of heavy metals occurrence in agricultural soils of Khoshk river banks, Shiraz, Iran. American-Eurasian J. Agric. & Environ. Sci. 2, (5), 565, 2007.
  • 30. FRANCO-URIA A., LOPEZ-MATEO C., ROCA E., FERNANDEZ-MARCOS M.L. Source identification of heavy metals in pastureland by multivariate analysis in NW Spain. Journal of Hazardous Materials. 165, 1008, 2009.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.dl-catalog-916f834f-c495-4e6c-b0fd-f1999495b104
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