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2015 | 20 | 4 |

Tytuł artykułu

Long-term effects of tillage and fertilization on pH and sorption parameters of haplic Luvisol

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The influence of different tillage and fertilization practices on changes in soil pH and sorptive parameters of loamy haplic Luvisol was evaluated in a long-term field experiment (established in 1994, in the locality of Dolná Malanta, at the experimental station of the Slovak University of Agriculture in Nitra). The field experiment included two types of soil tillage (conventional tillage – CT and reduced tillage – RT) and also three treatments of fertilization (1. Co – control, 2. PR+NPK – crop residues together with added NPK fertilizers, and 3. NPK – with added NPK fertilizers). The soil was sampled from all treatment sites throughout 1994-2011. The results showed a statistically significant influence of tillage and fertilization on pH and sorptive complex of haplic Luvisol. The values of pH were higher (by 4%) in RT than in CT. The sum of basic cations (SBC), cation exchangeable capacity (CEC) and base saturation (BS) were all higher in RT, by 11%, 8% and 3% respectively, than in CT. In NPK (by 16%) and in PR+NPK (by 20%) the values of hydrolytic acidity (Ha) were decreased in comparison to the control. On the other hand, SBC was elevated. This led to the increase of CEC and BS. Conventional tillage and application of crop residues together with NPK fertilizers increased pH by 0.06 and 0.03 units per year, respectively, which means that the pH in the soil increased by14% and 8%, correspondingly, between 1994 and 2011. In CT and in PR+NPK, an increase of SBC occurred at an average rate of 3.17 and 1.93 mmol kg-1 year-1, respectively. A positive correlation between the content of soil organic carbon (TOC) and Ha (r = 0.334, P ≤ 0.01, n = 54), as well as a negative correlation between TOC and BS (r = -0.307, P ≤ 0.05, n = 54) were determined only in CT.

Wydawca

-

Rocznik

Tom

20

Numer

4

Opis fizyczny

p.1033-1040,ref.

Twórcy

autor
  • Department of Soil Science, FAFR – SUA Nitra, Slovak University of Agriculture in Nitra, Tr.A.Hlinku 2, 949 76 Nitra, Slovak Republic
autor
  • Department of Agrochemistry and Plant Nutrition, Slovak University of Agriculture in Nitra, Nitra, Slovak Republic

Bibliografia

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  • Ersahin S., Gunal H., Kutlu T., Yetg in B., Coban S. 2006. Estimating specific surface area and cation exchange capacity in soils using fractal dimension of particle-size distribution. Geoderma, 136: 588-597.
  • Fiala K., Kobza J., Matúšková Ľ., Brečková V., Makovníková J., Barančíková G., Búrik V., Litavec T., Houšková B., Chromaničová A., Váradiová D., Pechová B. 1999. Valid methods of soil analyses. Partial monitoring system – Soil. SSCRI, Bratislava.
  • Graham M.H., Haynes R.J., Meyer J.H. 2002. Soil organic matter content and quality: effects of fertilizer applications, burning and trash retention on a long-term sugarcane experiment in South Africa. Soil Biol. Biochem., 34: 93-102.
  • Hartmann A., Gräsle W., Horn R. 1998. Cation exchange processes in structured soils at various hydraulic properties. Soil Tillage Res., 47: 67-72.
  • IUSS Working Group WRB 2006. World reference base for soil resources. FAO, Rome.
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  • Limousin G., Tessier D. 2007. Effects of no-tillage on chemical gradients and topsoil acidification. Soil Tillage Res., 92: 167-174.
  • Lorandi R. 2012. Evaluation of cation exchange capacity (CEC) in tropical soils using four different analytical methods. J. Agric. Sci., 4: 278-289.
  • Nardi S., Morari F., Berti A., Tosoni M., Giardini L. 2004. Soil organic matter properties after 40 years of different use of organic and mineral fertilisers. Europ. J. Agron., 21: 357-367.
  • Neff J.C., Townsend A.R., Gleixner G., Lehman S.J., Turnbull J., Bowman W.D. 2002. Variable effects of nitrogen additions on the stability and turnover of soil carbon. Nature, 419: 915-917.
  • Panak H., Wojnowska T., Sienkiewicz S. 1996. Changes in some chemical and physical properties of black earth near Kêtrzyn as the influence of intensive nitrogen fertilization. Rocz. Glebozn., 47 (2/4): 41-46. (in Polish).
  • Stevenson F.J. 1994. Humus chemistry: genesis, composition, reactions. John Wiley, New York.
  • Szombathová N. 2010. Chemical and physico-chemical properties of soil humus substances as an indicator of anthropogenic changes in ecosystems (Báb a Dolná Malanta localities). Monogr. SUA, Nitra, pp. 96. (in Slovak)
  • Šimanský V., Bajčan D., Ducsay L. 2013. The effect of organic matter on aggregation under different soil management practices in a vineyard in an extremely humid year. Catena, 101: 108-113.
  • Šimanský V., Polláková N. 2014. Soil organic matter and sorption capacity under different soil management practices in a productive vineyard. Arch. Agron. Soil Sci., 60(8): 1145-1154.
  • Šimanský V., Tobiašová E. 2010. Impact of tillage, fertilization and previous crop on chemical properties of Luvisol under barley farming system. J. Cent. Eur. Agr., 11: 245-254.
  • Šimanský V., Tobiašová E., Chlpík J. 2008. Soil tillage and fertilization of Orthic Luvisol and their influence on chemical properties, soil structure stability and carbon distribition in water- stable macro-aggregates. Soil Tillage Res., 100(1-2): 125-132.
  • Thomas G.A., Dalal R.C., Standley J. 2007. No-till effects on organic matter, pH, cation exchange capacity and nutrient distribution in a Luvisol in the semi-arid subtropics. Soil Tillage Res., 94: 295-304.
  • Whalen J.K., Chang C., Clayt on G.W., Carefoot J.P. 2000. Cattle manure amendments can increase the pH of acid soils. Soil Sci. Soc. Am. J., 64: 962-966.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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