Full-text resources of PSJD and other databases are now available in the new Library of Science.
Visit https://bibliotekanauki.pl

PL EN


Preferences help
enabled [disable] Abstract
Number of results
2007 | 9 | 4 | 48-51

Article title

The effect of bottom sediment on biomass production by Italian ryegrass and maize

Content

Title variants

Languages of publication

EN

Abstracts

EN
A two-year pot experiment (2005 and 2006) was conducted to estimate an effect of dredged bottom sediment from Rożnów Reservoir addition to the light, very acid soil on the plant biomass production. The sediment was applied in the amount from 1 to 20% of the substratum mass. Italian ryegrass (Lolium multiflorum L.) and maize (Zea mays L.) were cultivated as the successive test plants. The lowest amount of plant biomass was obtained on the soil (control) and each sediment addition to the substratum caused an increase of the biomass production, both tops as well as the roots of the plant. Larger sediment additions (7% and more) caused a significant increase of the yield, of both the individual plant species and the total biomass during the two years of the experiment. The bottom sediment added to the light, very acid soil distinctly improved the plant yielding and the way of biomass utilisation should be assessed on the basis of its chemical composition analysis.

Publisher

Year

Volume

9

Issue

4

Pages

48-51

Physical description

Dates

published
1 - 12 - 2007
online
30 - 1 - 2008

Contributors

  • Department of Agricultural Chemistry, Agricultural University in Krakow, 31-120 Kraków, al. Mickiewicza 21

References

  • Houser J. N., Mulholland P. J., Maloney K. O. Upland Disturbance Affects Headwater Stream Nutrients and Suspended Sediments during Baseflow and Stormflow, Journal of Environmental Quality, 2006, 35, 352.
  • Michalec B. Próba prognozy zamulenia małego zbiornika wodnego na cieku nie kontrolowanym hydrologicznie, Acta Scientiarum Polonorum Formatio Circumiectus, 2004, 3(1), 63.
  • Juracek K. E. Sedimentation and occurrence and trends of selected chemical constituents in bottom sediment of 10 small reservoirs, eastern Kansas, U. S. Geological Survey Scientific Investigations Report 2004 - 5228, 2004, 80 p.
  • Madeyski M. Zamulanie stawów rybnych, Wiadomości Melioracyjne i Łąkarskie, 2003, 3, 121.
  • Łajczak A. Studium nad zamulaniem wybranych zbiorników zaporowych w dorzeczu Wisły, Monografie Komitetu Gospodarki Wodnej PAN, Warszawa, 1995, 8, 108 p.
  • Kostecki M., Kowalski E., Domurad A. Badania limnologiczne zbiornika zaporowego Dzierżno Małe, Cz. II. Metale ciężkie w wodzie i osadach dennych Rzeki Dramy, Archiwum Ochrony środowiska, 1998, 24(1), 45.
  • Boyle J. F., Mackay A. W., Rose N. L., Flower R. J., Appleby P. G. Sediment heavy metal in Lake Baikal; Natural and anthropogenic sources, Journal of Paleolimnology, 1998, 20, 135.
  • Nascimento S. F., Kurzweil H., Wruss W., Fenzl L. Cadmium in the Amazonian Guajahro Estuary: Distribution and remobilization, Environmental Pollution, 2006, 140(1), 29.[Crossref]
  • Baran S., Turski R., Flis Bujak M., Martyn W., Kwiecień, J., Uzar Cz. MożliwośĆ zwiększania walorów produkcyjnych gleb lekkich przy zastosowaniu płonych skał górniczych, Zeszyty Problemowe Postępów Nauk Rolniczych, 1993, 409, 83.
  • Antonkiewicz J. Utilisation of sewage sludge for biological management of ash disposal site, Content of selected heavy metals in plants, Ecological Chemistry and Engineering, 2005, 12(3), 209.
  • Rozporządzenie Ministra środowiska z dnia 9 września 2002 r. w sprawie standardów jakości gleby oraz standardów jakości ziemi. Dz. U. z dnia 4 października 2002 r. Nr 165, poz. 1359.
  • Wiśniowska-Kielian B. Dynamics of Nitrogen Concentrations in Bottom Sediments of the Dunajec River and Dam Reservoirs in the Vegetation Season, Polish Journal of Environmental Studies, 2006, 5D, part II, 619.
  • Ligęza S., Smal H., Bielińska E. J. Total content of Cd, Cr, Pb, Zn and its horizontal differentiation in bottom sediments of dam reservoir "Lake Zembrzycki" near Lublin, SE Poland, Ecological Chemistry and Engineering, 2004, 11(7), 621.
  • Kabata-Pendias A., Motowicka-Terelak T., Piotrowska M., Terelak H., Witek T. Ocena stopnia zanieczyszczenia gleb i roślin metalami ciężkimi i siarką, Ramowe wytyczne dla rolnictwa, IUNG Puławy Ed., 1993, Seria P(53), 20 p.
  • Fotyma M., Pietruch Cz. The actual status of soil reaction and demand for limestone in Poland, Fertilizers and Fertilization, 2001, 3(8), 27.
  • Kahlown M. A., Kemper W. D. Bonding of soil and sediment cleaned from channels by cement into blocks for lining irrigations channels, Agricultural Water Management, 2005, 74(1), 77.[Crossref]
  • Abulnaga B. E., El-Sammany M. S. De-silting Lake Nasser with slurry Pipelines, World Water Congress, 27.06 - 01.07 2004, Salt Lake City, Utah, USA, p. 1 - 13.
  • Avila-Perez P., Balcazar M., Zarazua-Ortega G., Barcelo-Quintal I., Diaz-Delgado C. Heavy metal concentrations in water and bottom sediments of a Mexican reservoir, Science of the Total Environment, 1999, 234(1 - 3), 185.
  • Canet R., Chaves C., Pomares F., Albiach R. Agricultural use of sediments from Albufera Lake (eastern Spain), Agriculture, Ecosystems & Environment, 2003, 95(1), 29.
  • Pelczar J., Loska K., Maleniuk E. Wpływ nawożenia osadem dennym na aktywnośĆ enzymatyczną zwałowiska odpadów węgla kamiennego, Archiwum Ochrony środowiska, 1998, 24(3), 93.
  • Wiśniowska-Kielian B., Niemiec M. Effect of increasing share of bottom sediment in the substratum on cadmium and lead uptake by the plants, Ecological Chemistry and Engineering, 2007, 14(5 - 6), 591.
  • Li-Ming X., Ru-Kum L. Effect of liming on plant accumulation of cadmium under upland or flooded conditions, Environmental Pollution, 1993, 79(2), 199.

Document Type

Publication order reference

Identifiers

YADDA identifier

bwmeta1.element.-psjd-doi-10_2478_v10026-007-0088-6
JavaScript is turned off in your web browser. Turn it on to take full advantage of this site, then refresh the page.