PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2013 | 22 | 6 |

Tytuł artykułu

Effects of bentonite addition on sandy soil chemistry in a long-term plot experiment (I); effect on organic carbon and total nitrogen

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
In 0.8 m² microplots, a very poor sandy soil that contained only traces of organic matter was enriched with bentonite (BNT) at rates of 0, 3, 6, and 12 kg/m² . For 30 years the microplots were planted with different crops and regularly enriched with mineral and organic fertilizers. For the next eight years the microplots were left barren. The soils with BNT added contained significantly higher amounts of organic carbon (OC) and total nitrogen than the control soil (CS). Furthermore, in comparison to CS, organic matter in the soil with 12 kg/m² of BNT contained significantly more humins. Such durable stabilization of OC by BNT can be important for processes of carbon sequestration in soil.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

22

Numer

6

Opis fizyczny

p.1661-1667,fig.,ref.

Twórcy

autor
  • Agricultural Microbiology Department, Institute of Soil Science and Plant Cultivation – State Research Institute, Czartoryskich 8, 24-100 Puławy, Poland
autor
  • Department of Soil Science, Erosion and Land Protection, Institute of Soil Science and Plant Cultivation-State Research Institute, Czartoryskich 8, 24-100 Puławy, Poland
autor
  • Department of Soil Science, Erosion and Land Protection, Institute of Soil Science and Plant Cultivation-State Research Institute, Czartoryskich 8, 24-100 Puławy, Poland
  • Department of Soil Science, Erosion and Land Protection, Institute of Soil Science and Plant Cultivation-State Research Institute, Czartoryskich 8, 24-100 Puławy, Poland

Bibliografia

  • 1. CROKER J., POSS R., HARTMANN C., BHUTHORNDHARAJ S. Effects of recycled bentonite addition on soil properties, plant growth and nutrient uptake in a tropical sandy soil. Plant Soil, 267, 155, 2004.
  • 2. FILIPEK T. Natural and anthropogenic causes and effects of soil acidification. Nawozy i Nawożenie - Fertilizers and Fertilization, 3, 5, 2001 [In Polish].
  • 3. FOTYMA M., PIETRUCH C. The actual status of soil reaction and demand for limestone in Poland. Nawozy i Nawożenie - Fertilizers and Fertilization, 3, 27, 2001 [In Polish].
  • 4. KÁTAI J., TÁLLAI M., SÁNDOR ZS., OLÁH ZSUPOSNÉ Á. Effect of bentonite and zeolite on some characteristics of acidic sandy soil and on the biomass of a test plant. Agrokém. Talajtan, 59, 165, 2010.
  • 5. NOBLE A.D., GILLMAN G.P., RUAYSOONGNERN S. A cation exchange index for assessing degradation of acid soil by further acidification under permanent agriculture in the tropics. Eur. J. Soil Sci., 51, 233, 2000.
  • 6. BENKHELIFA M., BELKHODJA M., DAOUD Y., TESSIER D. Effect of Maghnian bentonite on physical properties of sandy soils under semi arid Mediterranean climate. Pak. J. Biol. Sci., 11, 17, 2008.
  • 7. KOBUS J. Influence of bentonite on the yield and chemical composition of some cultivated plants. Pamiętnik Puławski 55, 57, 1972 [In Polish].
  • 8. LAZÁNYI J. Effects of bentonite on the water budget of sandy soil. In: Technologii de Cultura Pentru Grau Si Porumb Sympozion International, Oradea-Romania, pp. 293-300, 2005.
  • 9. LHOTSKÝ J., KREMER J., PODLEŠÁKOVÁ E., SHRBENÁ B., SKOKAN E., SKOKANOVÁ P. Theory of Bentonite Behaviour in Soils. Scientific monographs. Research Institute for Land Reclamation and Improvement, Zbraslav, Czech Republik, pp. 375, 1970.
  • 10. NOBLE A.D., SUZUKI S. Improving the productivity of degraded cropping systems in northeast Thailand: improving farmer practices with innovative approaches. In: Proceedings of the International Conference on Research Highlights and Vanguard Technology on Environmental Engineering in Agricultural Systems, Kanazawa, Japan, pp. 371-380, 2005.
  • 11. KÁTAI J., TÁLLAI M., LAZÁNYI J., LUKACSNÉ E.V., SÁNDOR Z. The effect of bentonite on specific soil parameters and microbial characteristics of the carbon cycle. In: Procedings of Joint International Conference on Long-term Experiments. Debrecen, Hungary. pp. 247-254, 2007.
  • 12. SALETH M., INOCENCIO A., NOBLE A., RUAYSOONGNERN S. Economic Gains of Improving Soil Fertility and Water Holding Capacity with Clay Application: The Impact of Soil Remediation Research in Northeast Thailand. IWMI Research Report 130, 2009, http://www.iwmi.cgiar.org/Publications/IWMI_Research_R eports/PDF/PUB130/RR130.pdf.
  • 13. SATJE A., NELSON P. Bentonite treatments can improve the nutrient and water holding capacity of sugarcane soils in the wet tropics. Proc. Aust. Soc. Sugar Cane Technol. 31, 166, 2009.
  • 14. SODA W., SUZUKI S., CHINABUT N., NOBLE A.D., SIMMONS R.W., SINDHUSEN L., BHUTHORNDHARAJ S. The role of clay based materials in the rejuvenation of degraded light textured soils from northeast Thailand: Changes in physical and chemical attributes associated with the application of these materials. LDD Technical Meeting, pp. 1-23, 2005.
  • 15. SODA W., NOBLE A.D., SUZUKI S., SIMMONS R., SINDHUSEN L., BHUTHORNDHARAJ S. Co-composting of acid waste bentonites and their effects on soil properties and crop biomass. J. Environ. Qual. 35, 2293, 2006.
  • 16. YSSAD H.R., BELKHODJA M. The effect of bentonite on the physic chemical characteristics of sandy soils in Algeria. J. Appl. Sci. 7, 2641, 2007.
  • 17. KNOPS J.M.H., TILMAN D. Dynamics of soil nitrogen and carbon accumulation for 61 years after agricultural abandonment. Ecology 81, 88, 2000.
  • 18. MARLAND G., GARTEN C.T.JR., POST W.M., WEST T.O. Studies on enhancing carbon sequestration in soils. Energy 29, 1643, 2004.
  • 19. KNICKER H. Soil organic N – An under-rated player for C sequestration in soils? Soil Biol. Biochem. 43, 1118, 2011.
  • 20. SPARKS D.L., CHEN C. The role of mineral complexation and metal redox coupling in carbon cycling and stabilization. In: Functions of Natural Organic Matter in Changing Environment. Springer Netherlands, pp. 7-12, 2013.
  • 21. KOBUS J. Effect of bentonite added to loose sandy soil together with excess of P and K on the yield and chemical composition of cereals. Pol. J. Soil Sci., 12, 45, 1979.
  • 22. KOBUS J. Effect of the loose sandy soil fertilization with kaolinite and bentonite on the yield and the some mineral elements content of cereal crops. Roczniki Gleboznawcze - Soil Science Annual, 34, 181, 1983 [In Polish].
  • 23. KOBUS J., PASZKOWSKI W. Effect of bentonite on biological activity and accumulation of carbon and nitrogen in a loose sandy soil in a long-term microplot experiment. Pamiętnik Puławski, 84, 175, 1985 [In Polish].
  • 24. LITYŃSKI T., JURKOWSKA H., GORLACH E. Chemico-Agricultural Analyses, Soil and Fertilizers. PWN Warszawa, pp. 32-50, 1976 [In Polish].
  • 25. NEMES A., RAWLS W.J. Soil texture and particle-size distribution as input to estimate soil hydraulic properties. In: Development of Pedotransfer Functions in Soil Hydrology, Y. Pachepsky and W.J. Rawls (Eds.) Elsevier, pp. 47-70, 2004.
  • 26. OSTROWSKA A., GAWLIŃSKI S., SZCZUBIAŁKA Z. Methods for analyzing and assessing the properties of soil and plants. Instytut Ochrony Środowiska, Warsaw, Poland, 1991 [In Polish].
  • 27. KONONOVA M.M. Soil organic matter. Its nature, properties and methods of examination. PWRiL. Warsaw, Poland, pp, 56-58 and 273-276, 1968 [In Polish].
  • 28. MROCZKOWSKI W., CYGAŃSKI A. Spectrophotometric determination of nitrogen in plant materials. Chemia Analityczna 28, 319, 1983 [In Polish].
  • 29. MROCZKOWSKI W., STUCZYŃSKI T. Determination of total nitrogen in soils by spectrophotometric methods. In: Nauka i Przemysł – Metody Spektroskopowe w Praktyce, Nowe Wyzwania i Możliwości. Uniwersytet Marii Skłodowskiej-Curie, Lublin, pp. 50-53, 2009 [In Polish].
  • 30. SUZUKI S., NOBLE A.D., RUAYSOONGNERN S. AND CHINABUT N. Improvement in water-holding capacity and structural stability of a sandy soil in northeast Thailand. Arid Land Res. Manag., 21, 37, 2007.
  • 31. HASSINK J. Density fractions of soil macroorganic matter and microbial biomass as predictors of C and N mineralization. Soil Biol. Biochem., 27, 1099, 1995.
  • 32. DZIENIA S., DOJSS D., WERESZCZAKA J. The influence of crop-rotation and fallow on some chemical properties of a sandy soil. Roczniki Gleboznawcze – Soil Science Annual. 48b, 15, 1997 [In Polish].
  • 33. KOBUS J. The role of montmorillonite in transformation of organic compounds. Pamiętnik Puławski. 39, 189, 1970 [In Polish].
  • 34. KOBUS J., PACEWICZOWA T.. Effect of clay minerals on the biological activity of light soils. Roczniki Gleboznawcze – Soil Science Annual. 16, 53, 1966 [In Polish].
  • 35. HAYES M.B., SWIFT R.S., BYRNE C.M., SIMPSON A.J. The isolation and characterization of humic substances and humin from grey brown podzolic and gley grassland soils. 19th World Congress of Soil Science, Soil Solutions for a Changing World, Brisbane, Australia, 2010. http://www.carbolea.ul.ie/files/Brisbane,%20World%20Soil%20Congress.pdf.
  • 36. KALISZ B., LACHACZ A., GLAZEWSKI R. Transformation of some organic matter components in organic soils exposed to drainage. Turk. J. Agric. For. 34, 245, 2010.
  • 37. KÖGEL-KNABNER I., GUGGENBERGER G., KLEBER M., KANDELER E., KALBITZ K., SCHED S., EUSTERHUES K., LEINWEBER P. Organo-mineral associations in temperate soils: Integrating biology, mineralogy, and organic chemistry. J. Plant. Nutr. Soil Sci. 171, 61, 2008.
  • 38. INDRARATNE S.P. Occurrence of organo-mineral complexes in relation to clay mineralogy of some Sri Lancan soils. J. Natn. Sci. Foundation Sri Lanca 34, 29, 2006.
  • 39. RÜHLMANN J. A new approach to estimating the pool of stable organic matter in soil using data from long-term field experiments. Plant Soil, 213, 149, 1999.
  • 40. BORKOTOKI B. Effect of Added Bentonite Clay on Carbon and Nitrogen Mineralization. A case Study from Tarai Soils of Uttarkhand, India. VDM Verlag. pp. 156, 2011.
  • 41. CHURCHMAN G.J., NOBLE A.D., CHITTLEBOROUGH D.J. Addition of clay and clay minerals to enhance the sequestration of carbon in soils. Australian Regolith and Clays Conference. Mildura, Australia, pp. 117-120, 2012.
  • 42. CHITTLEBOROUGH D., CHURCHMAN J. Effects upon carbon sequestration of adding reactive clays to soils. 7-8 in Geoscience Honours Projects 2013 The University of Adelaide, Australia http://www.ees.adelaide.edu.au/student/honours/2013geoscience-honours.pdf, 2013.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-833537e1-437c-4d67-8aa3-54dedc9d9db7
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.