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2014 | 23 | 1 |
Tytuł artykułu

Soil phosphatase activity and phosphorus content as influenced by catch crops cultivated as green manure

Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In a 3-year experiment, the effect of catch crop management [catch crop incorporated in autumn (A) or mulched (B) vs plots without a catch crop (C)] on soil acid (PAC) and alkaline (PAL) phosphatase activities as well as on the available phosphorus content (PAVAIL) were investigated on typical Alfisol. The catch crops were sown at the beginning of August and ploughed in the autumn in 2008, 2009, and 2010, or left as mulch during the winter. Soil samples were taken four times a year from spring barley plots that were grown in 2009, 2010, and 2011. Generally, catch crop treatment significantly influenced the enzymatic activity as compared to the control. The PAC activity was significantly greater with a mulched catch crop than in a ploughed one only in I and II sampling dates, whereas the PAL activity was not influenced by the method and time of field pea management. The time of sampling significantly influenced the PAL activity in 2011 and the PAC activity in 2009 and 2011.
Wydawca
-
Rocznik
Tom
23
Numer
1
Opis fizyczny
p.157-165,fig.,ref.
Twórcy
  • Division of Biochemistry, Department of Soil Science and Soil Protection, Faculty of Agriculture and Biotechnology, University of Technology and Life Sciences, Bernardynska 6, 85-029 Bydgoszcz, Poland
  • Department of Agrotechnology, Faculty of Agriculture and Biotechnology, University of Technology and Life Sciences, Kordecki 20, 85-225 Bydgoszcz, Poland
Bibliografia
  • 1. STATISTICAL YEARBOOK OF AGRICULTURE. Central Statistical Office,Warsaw, 2011.
  • 2. MAZUR K., FILIPEK-MAZUR B. Fertilizer value of composts and vermicomposts of plants waste and sewage from industrial and municipal. Proceedings of conference: Composting waste - good deal or troublesome necessity?, The Society for Earth, Kraków, 19-21 September, 1-4, 2001 [In Polish].
  • 3. BERNTSEN J., OLSEN J.E., PETERSEN B.M, HANSEN E.M. Long-term fate of nitrogen uptake in catch crops, Eur. J. Agron. 25, 383, 2006.
  • 4. THORUP-KRISTENSEN K., MAGID J., JENSEN L.S. Catch crops and green manures as biological tools in nitrogen management in temperate zones. Adv. Agron. 79, 227, 2003.
  • 5. ARLAUSKIENÉ A., MAIKŠTÉNIENÉ S. The effect of cover crop and straw applied for manuring on spring barley yield and agrochemical soil properties. Zemdirbyste-Agriculture. 97, (2), 61, 2010.
  • 6. KOSTECKAS R., MARCINKEVIČIENE A. The integrated evaluation of the influence of catch crops and manure on spring barley agrocenosis in organic farming. Agron. Res. 1, 355, 2009.
  • 7. ELFSTRAND S., HEDLUNG K., MARTENSSON A. Soil enzyme activities, microbial community composition and function after 47 years of continuous green manuring. Appl. Soil Ecol. 35, 610, 2007.
  • 8. HANSEN E.M., DJURHUUS J., DICK W.A. Nitrate leaching as influenced by soil tillage and catch crop. Soil Biol. Till. 41, 203, 1997.
  • 9. VYN T., FABER J.G., JANOVICEK K.J. BEAUCHAMP E.G. Cover crop effects on nitrogen availability to corn following wheat. Agron. J. 92, 915, 2000.
  • 10. GARWOOD T.W.D., DAVIES D.B., HARTLEY A.R. The effect of winter caver crops on yield of the following spring crops and nitrogen balance in a calcareous loam. J. Agric. Sci. 132, 1, 1999.
  • 11. THORUP-KRISTENSEN K., DRESBØLL D.B. Incorporation time of nitrogen catch crops influences the N effect for the succeeding crop. Soil Use Manage. 26, 27, 2010.
  • 12. DINESH R., SURYANARAYANA M.A., CHAUDHURI S.G., SHEEJA T.E. Long-term influence of leguminous cover crops on the biochemical properties of a sandy clay loam Fluventic Sulfaquent in a humid tropical region of India. Soil Till. Res. 77, 69, 2004.
  • 13. JODAUGIENE D., PUPALIENE R., SINKEVIČIENE A., MARCINKEVIČIENE A., ŽEBRAUSKAITE A., BALTADUONYTE M., ČEPULIENE R. The influence of organic mulches on soil biological properties, Zemdirbyste-Agriculture, 97, (2), 33, 2010.
  • 14. CHODAK M., NIKLIŃSKA M. Development of microbial biomass and enzyme activities in mine soils. Pol. J. Environ. Stud. 21, (3), 569, 2012.
  • 15. REJSEK K., VRONOVA V., PAVELKA M., FORMANEK P. Acid phosphomonoesterase (E.C. 3.1.3.2.) location in soil. J. Plant Nutr. Soil Sci. 175, 196, 2012.
  • 16. NIEMI R.M., VEPSÄLÄINEN M. Stability of the fluorogenic enzyme substrates and pH optima of enzyme activities in different Finnish soils. J. Microbiol. Methods 60, 195, 2005.
  • 17. NANNIPIERI P., GIAGNONI L., LANDI L., RENELLA G. Role of phosphatase enzymes in soil. In: Bunemann E.K., Oberson A., Frossard E. (Eds.), Phosphorus in action. Springer-Verlag, Berlin, Heidelberg, pp. 215-243, 2011.
  • 18. GEORGE T.S., GREGORY P.J., HOCKING P., RICHARDSON A.E. Variation in root-associated phosphatase activities in wheat contributes to the utilization of organic P substrates in vitro, but does not explain differences in the P-nutrition of plants when grown in soil. Environ. Exp. Bot. 64, 239, 2008.
  • 19. ŠARAPATKA B. Phosphatase activities (ACP, ALP) in agroecosystem soils [PhD thesis]. Uppsala: Swedish University of Agricultural Sciences; 2003.
  • 20. SOIL SURVEY STAFF, Keys to Soil Taxonomy, 11th ed. USDA Natural Resources Conservation Service, Washington, DC, 2010.
  • 21. BURT R. Soil Survey laboratory methods manual. Soil Survey Investigations Report No. 42, version 4.0, USDANRCS, Lincoln, Nebraska, 2004.
  • 22. TABATABAI M.A., BREMNER J.M. Use of p-nitrophenyl phosphate for assay of soil phosphatase activity. Soil Biol. Biochem. 1, 301, 1969.
  • 23. TEJADA M., GONZALEZ J.L., GARCÍA-MARTÍNEZ A.M., PARRADO J. Effects of different green manures on soil biological properties and maize yield. Biores. Technol. 99, 1758, 2008.
  • 24. KAUTZ T. WIRTH S., ELLMER F. Microbial activity in a sandy arable soil is governed by the fertilization regime. Eur. J. Soil Biol. 40, 87, 2004.
  • 25. ROLDÁN A., CARAVACA F., HERNÁNDEZ M.T., GARCÍA C., SÁNCHEZ-BRITO C., VELÁSQUEZ M., TISCAREÑO M. No-tillage, crop residue additions, and legume cover cropping effects on soil quality characteristics under maize in Patzcuaro watershed (Mexico). Soil Till. Res. 72, 65, 2003.
  • 26. VANLAUWE B., NWOKE O.C., DIELS J., SANGINGA N., CARSKY R.J., DECKERS J., MERCKX R. Utilization of rock phosphate by crop and a representative toposequence in the Northern Guinea savanna zone of Nigeria: Response by Mucuna pruriens, Lablab purpureus, and maize. Soil Biol. Biochem. 32, 2063, 2000.
  • 27. EICHLER B., CAUS M., SCHNUG E., KÖPPEN D. Soil acid and alkaline phosphatase activities in regulation to crop species and fungal treatment, Landbauforschung Völkenrode, 1, (54), 1, 2004.
  • 28. EICHLER-LOBERMANN B., KOHNE S., KOWALSKI B., SCHNUG E. Effect of catch cropping on phosphorus bioavailability in comparison to organic and inorganic fertilization. J. Plant Nutr. 31, 659, 2008.
  • 29. CAVIGELLI M.A., THIEN S.J. Phosphorus availability of green manure crops. Soil Sci. Soc. Am. J. 76, 1186, 2003.
  • 30. EICHLER-LÖBERMANN B., SCHUNG E. Crop plants and the availability of phosphorus in soil. Encyclopedia of Soil Science, Taylor and Francis, pp. 1-3, 2006.
  • 31. BAKSHI M., VARMA A. Soil enzymes: The state-of-art. In: Shukla G., Varma A. (Eds.), Soil enzymology. Springer-Verlag Berlin Heidelberg, pp. 1-23, 2011.
  • 32. HAYNES R.J. Size and the activity of the soil microbial biomass under grass and arable management. Biol. Fertil. Soils 30, 210, 1999.
  • 33. RICHARDSON A.E., BAREA J.M., MCNEILL A.M., PRIGENT-COMBARET C. Acquisition of phosphorus and nitrogen in the rhizosphere and plant growth promotion by Microorganisms. Plant Soil 321, 305, 2009.
  • 34. GIANFREDA L., RUGGIERO P. Enzyme activities in soil. In: Nannipieri P., Smalla K. (Eds.), Nucleic Acids and Proteins in Soil. Springer-Verlag, Berlin, Heidelberg, pp. 20-25, 2006.
  • 35. OLANDER L.P., VITOUSEK P.M. Regulation of soil phosphatase and chitinase activity by N and P availability. Biogeochemistry 49, 175, 2000.
  • 36. KIZILKAYA R., BAYRAKLI F., SURUCU A. Relationship between phosphatase activity and phosphorus fractions in agricultural soils. 2, (2), 107, 2007.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
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