Research Article
Year 2019,
Volume: 3 Issue: 1, 22 - 28, 14.03.2019
Abstract
References
- Aksoy, E.(1991). Güney doğu Anadolu bölgesindeki petrocalcik horizonlu toprakların önemli özellikleri oluşu ve sınıflandırılması. Toprak İlmi Derneği 12. bilimsel toplantısı (in Turkish)
- Bouyoucos, G. J. (1951). A Recalibration of Hydrometer for Making Mechanical Analysis of Soils, Agronomy Journal, 43(9), 434-443. Bremner, J.M. and Mulvaney, C.S. (1982). Nitrogen-Total. In: Page, AL, Miller, RH, editors. Methods of Soil Analysis. Part 2. 2nd edition. Agronomy Monographs, 9, Madison, WI: ASA and SSSA, p595–624.
- Burns, R.G. (1978). Soil Enzymes. Academic Press. 149-190. London.
- Coxson, D.S., and Parkinson, D. (1987). Winter respiratory activity in aspen woodland forest floor litter and soils. Soil Biol. Biochem. 19: 49-59.
- Christensen, B.T, Sorensen, L.H. (1985). The distribution of native and labelled carbon between soil particle size fractions isolated from longterm incubation experiments. J Soil Sci 36:219–229.
- Dengiz, O., Kızılkaya, R., Erkoçak, A., Durmuş, M. (2013). Variables of microbial response in natural soil aggregates for soil characterization in different fluvial land shapes. Geomikrobyology Journal. 30; 100-107
- Drever, J.L, Vance, G.F. (1994). Role of soil organic acids in mineral weathering processes. In: Lewan MD, Pittman ED, editors. Role of Soil Organic Acids in Geological Processes. New York: Springer. p138–161.
- Elliott, E.T., Cambardella, C.A., and Cole, C.V. (1993). Modification of ecosystem processes by management and the mediation of soil organic matter dynamics. Plant Soil, 22:129-138.
- FAO-WRB. (2014). World References Base for Soil Resources. International soil classification system for naming soils and creating legends for soil maps. World Soil Rep., 106. FAO. Rome.
- Frankberger W. T., Dick W. A. (1983). Relationships with enzyme activities and microbial growth and activity indices in soil. Soil Sci. Soc. of American J. 47: 945-951.
- Jackson, M. L. 1958. Soil Chemical Analysis. Englewood Cliffs, New Jersey: Prentice Hall Inc.
- Göl, C. and Dengiz, O. (2008). Effect of Modifying Land Cover and Long-Term Agricultural Practices on the Soil Characteristics in Native Forest-Land. Journal of Environmental Biology, 29; 667-682
- Kiss, S., Dragan-Bularda, M., and Radulescu, D. (1975). Biological significance of enzymes accumulated in soil. Adv. Agron., 27:25-87.
- Kowalenko, G.C., L.V Arson, K.C., and Cameron, D.R. (1978). Effects of moisture content, temperature and nitrogen fertilization on carbon dioxide evoluıion from field soils. Soil Biol. Biochem. 10: 4 17- 423.
- Martens, D.A., Johanson, J.B., and Frankenberger JR, W.T. (1992). Production and persistence of soil enzyme with repeated addition of organic residues. Soil Sci., 153:53-61.
- Nakas, J.P., Gould, W.D., and Klein, D.A. (1987). Origin and expression of phosphatase activity in semiarid grassland. Soil Biol. Biochem., 19:13-18.
- Nannipieri, P., Grego, S., and Ceccantl, B. (1990). Ecological Significance of the biological activity in soil. (in). Bollag. J.M. Stotzky. G. Soil Biochemistry. Volume 6. Mareel Dekker Inc. N.Y.
- Nyamadzawo, G., Nyamangara, J., Nyamungafata, P., Muzulu, A. (2009). Soil microbial biomass and mineralization of aggregate protected carbon in fallow-maize systems under conventional no tillage in Central Zimbabwe. Soil Tillage Res 102:151–157.
- Olsen, S.R. (1954). Estimation of Available Phosphorous is Soil by Extraction with Sodium Bicarbonate. Circular No. 939.Washington, DC:U.S. Department of Agriculture.
- Ovalles, F.A., Collins, M.E. (1986). Soil-landscape relationships and soil variability in north central Florida. Soil Sci. Soc. of American J. 50: 401-408.
- Soil Survey Staff. (1992). Procedures for Collecting Soil Samples and Methods of Analysis for Soil Survey. Soil Surv. Invest. Report, Washington D.C., USA: I. U.S. Gov. Print. Office.
- Soil Survey Staff. (1993). Soil Survey Manual, USDA Handbook, Washington D.C., No: 18.
- Soil Survey Staff. (1999). Soil Taxonomy. A Basic of Soil Classification for Making and Interpreting Soil Survey. USDA Handbook, Washington D.C., No: 436.
- Sommer, M., Gerke, H.H. and Deumlich, D. (2008). Modelling soil landscape genesis-A time split approach for hummocky agricultural landscapes. Geoderma 145: 480–493.
- Tabatabai, M.A. and Bremmer, J.M. (1969). Use of p-nitrophely phosphate for assay of soil phosphatase activity. Soil Biol. Biochem.1: 301-307.
- Tate R. L. (1987). Soil enzymes and organic matter transformations. In soil organic matter, biological and ecological effects. Wiley-Interscience Publications, 69-94, New York.
Phosphatase enzyme activity in different soils formed on bazaltic parent material under semi humid climate conditions
Abstract
Soil enzymes have an important role in determining the function of microorganism in soil ecosystem. In addition, the enzyme activities give much knowledge on the biochemical processes occurring in soil. Therefore, soil enzymes such as dehydrogenase, phosphatase and urease are indicators of soil biological productivity and activity. This study was carried out to determine phosphatase activity in different land use of Bafra-Engiz Basin, Samsun and to investigate the relations between soil pedogenetic processes, land use, elevation and phosphatase activities. For this purpose, soil samples taken from the four soil profiles classified as Typic Haplustert and Lithic Ustorthent. The analysis results related to phosphatase activity of soils in the study area changed between 8.1-177.3 μg p-nitrophenol. Moreover, according to statistical analysis results different profiles and different elevation were found to be important at 1% level of effect on phosphatase enzyme activity in the soils. Finally, it was also determined that the effect of different land use type on the activity of phosphatase enzyme activity in the soil was insignificant as statistically.
References
- Aksoy, E.(1991). Güney doğu Anadolu bölgesindeki petrocalcik horizonlu toprakların önemli özellikleri oluşu ve sınıflandırılması. Toprak İlmi Derneği 12. bilimsel toplantısı (in Turkish)
- Bouyoucos, G. J. (1951). A Recalibration of Hydrometer for Making Mechanical Analysis of Soils, Agronomy Journal, 43(9), 434-443. Bremner, J.M. and Mulvaney, C.S. (1982). Nitrogen-Total. In: Page, AL, Miller, RH, editors. Methods of Soil Analysis. Part 2. 2nd edition. Agronomy Monographs, 9, Madison, WI: ASA and SSSA, p595–624.
- Burns, R.G. (1978). Soil Enzymes. Academic Press. 149-190. London.
- Coxson, D.S., and Parkinson, D. (1987). Winter respiratory activity in aspen woodland forest floor litter and soils. Soil Biol. Biochem. 19: 49-59.
- Christensen, B.T, Sorensen, L.H. (1985). The distribution of native and labelled carbon between soil particle size fractions isolated from longterm incubation experiments. J Soil Sci 36:219–229.
- Dengiz, O., Kızılkaya, R., Erkoçak, A., Durmuş, M. (2013). Variables of microbial response in natural soil aggregates for soil characterization in different fluvial land shapes. Geomikrobyology Journal. 30; 100-107
- Drever, J.L, Vance, G.F. (1994). Role of soil organic acids in mineral weathering processes. In: Lewan MD, Pittman ED, editors. Role of Soil Organic Acids in Geological Processes. New York: Springer. p138–161.
- Elliott, E.T., Cambardella, C.A., and Cole, C.V. (1993). Modification of ecosystem processes by management and the mediation of soil organic matter dynamics. Plant Soil, 22:129-138.
- FAO-WRB. (2014). World References Base for Soil Resources. International soil classification system for naming soils and creating legends for soil maps. World Soil Rep., 106. FAO. Rome.
- Frankberger W. T., Dick W. A. (1983). Relationships with enzyme activities and microbial growth and activity indices in soil. Soil Sci. Soc. of American J. 47: 945-951.
- Jackson, M. L. 1958. Soil Chemical Analysis. Englewood Cliffs, New Jersey: Prentice Hall Inc.
- Göl, C. and Dengiz, O. (2008). Effect of Modifying Land Cover and Long-Term Agricultural Practices on the Soil Characteristics in Native Forest-Land. Journal of Environmental Biology, 29; 667-682
- Kiss, S., Dragan-Bularda, M., and Radulescu, D. (1975). Biological significance of enzymes accumulated in soil. Adv. Agron., 27:25-87.
- Kowalenko, G.C., L.V Arson, K.C., and Cameron, D.R. (1978). Effects of moisture content, temperature and nitrogen fertilization on carbon dioxide evoluıion from field soils. Soil Biol. Biochem. 10: 4 17- 423.
- Martens, D.A., Johanson, J.B., and Frankenberger JR, W.T. (1992). Production and persistence of soil enzyme with repeated addition of organic residues. Soil Sci., 153:53-61.
- Nakas, J.P., Gould, W.D., and Klein, D.A. (1987). Origin and expression of phosphatase activity in semiarid grassland. Soil Biol. Biochem., 19:13-18.
- Nannipieri, P., Grego, S., and Ceccantl, B. (1990). Ecological Significance of the biological activity in soil. (in). Bollag. J.M. Stotzky. G. Soil Biochemistry. Volume 6. Mareel Dekker Inc. N.Y.
- Nyamadzawo, G., Nyamangara, J., Nyamungafata, P., Muzulu, A. (2009). Soil microbial biomass and mineralization of aggregate protected carbon in fallow-maize systems under conventional no tillage in Central Zimbabwe. Soil Tillage Res 102:151–157.
- Olsen, S.R. (1954). Estimation of Available Phosphorous is Soil by Extraction with Sodium Bicarbonate. Circular No. 939.Washington, DC:U.S. Department of Agriculture.
- Ovalles, F.A., Collins, M.E. (1986). Soil-landscape relationships and soil variability in north central Florida. Soil Sci. Soc. of American J. 50: 401-408.
- Soil Survey Staff. (1992). Procedures for Collecting Soil Samples and Methods of Analysis for Soil Survey. Soil Surv. Invest. Report, Washington D.C., USA: I. U.S. Gov. Print. Office.
- Soil Survey Staff. (1993). Soil Survey Manual, USDA Handbook, Washington D.C., No: 18.
- Soil Survey Staff. (1999). Soil Taxonomy. A Basic of Soil Classification for Making and Interpreting Soil Survey. USDA Handbook, Washington D.C., No: 436.
- Sommer, M., Gerke, H.H. and Deumlich, D. (2008). Modelling soil landscape genesis-A time split approach for hummocky agricultural landscapes. Geoderma 145: 480–493.
- Tabatabai, M.A. and Bremmer, J.M. (1969). Use of p-nitrophely phosphate for assay of soil phosphatase activity. Soil Biol. Biochem.1: 301-307.
- Tate R. L. (1987). Soil enzymes and organic matter transformations. In soil organic matter, biological and ecological effects. Wiley-Interscience Publications, 69-94, New York.
There are 26 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Agricultural Engineering |
| Journal Section | Research Articles |
| Authors | |
| Publication Date | March 14, 2019 |
| Submission Date | September 1, 2018 |
| Acceptance Date | November 28, 2018 |
| Published in Issue | Year 2019 Volume: 3 Issue: 1 |
Cite
Cited By
The International Journal of Agriculture, Environment and Food Sciences content is licensed under a Creative Commons Attribution-NonCommercial (CC BY-NC) 4.0 International License which permits third parties to share and adapt the content for non-commercial purposes by giving the appropriate credit to the original work. Authors retain the copyright of their published work in the International Journal of Agriculture, Environment and Food Sciences.
Web: dergipark.org.tr/jaefs E-mail: editor@jaefs.com WhatsApp: +90 850 309 59 27