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Estimation of Phosphorus Adsorption Capacity of Alum-amended and Composted Paper Mill Sludge
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 Title & Authors
Estimation of Phosphorus Adsorption Capacity of Alum-amended and Composted Paper Mill Sludge
Lee, In-Bog; Chang, Ki-Woon; Park, Jin-Myeon;
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 Abstract
Excess application of paper mill sludge (PMS) in field can limit phosphorus uptake by crops because aluminum presented in the sludge can fix or adsorb available phosphorus which is necessary for crop growth. To investigate phosphorus (P) adsorption characteristics of PMS, we examined P adsorption maximum using Langmuir isotherm and P adsorption energy constant using Freundlich isotherm for PMS without alum, PMS with alum, and composted PMS with alum through a laboratory incubation test. The maximum P adsorption capacities were 800 in soil, 47 in PMS without alum and 61 in PMS with alum. P adsorption capacity with alum treatment for PMS increased by 30%. That of PMS compost was 68 and showed that composting increases 11% of P adsorption. Freundlich constant was 22 in check soil, while values in PMS without alum and in PMS with alum were 398 and 426, respectively. After composting, value of PMS compost significantly increased as 1,819. In conclusions, p adsorption capacity for PMS were increased by alum treatment or composting and therefore excess or continuous land application of alum-amended or composted PMS can limit P uptake for crops by reducing available P in sell.
 Keywords
Phosphorus adsorption;Alum;Aluminum sulfate;Paper mill sludge;
 Language
Korean
 Cited by
1.
간척농경지에서 비종에 따른 동계 청보리 재배 포장의 영양물질 수지 비교,송인홍;이경도;김지혜;강문성;장정렬;

한국환경농학회지, 2012. vol.31. 2, pp.137-145 crossref(new window)
1.
Comparison of Nutrient Balance in a Reclaimed Tidal Upland between Chemical and Compost Fertilization for the Winter Green Barley Cultivation, Korean Journal of Environmental Agriculture, 2012, 31, 2, 137  crossref(new windwow)
 References
1.
Alvarado, A. and Buol, S. W. (1985) Field estimation of phosphate retention by Andepts, Soil Sci. Soc. Am. J. 49, 911-914 crossref(new window)

2.
Ballard, R. and Fiskell, J. G. A. (1974) Phosphorus retention in coastal plain forest soil: I. Relationship to soil properties, Soil Sci. Soc. Am. Proc. 38, 250-255

3.
Barrow, N. J. (1983) A mechanistic model for describing the sorption and desorption of phosphate by soil, J. of Soil Sci. 34, 733-750 crossref(new window)

4.
Barrow, N. J., Madrid, L. and Posner, A. M. (1981) A partial model for the rate of adsorption and desorption of phosphate by goethite, J. of Soil Sci. 32, 399-407 crossref(new window)

5.
Bloom, P. R. (1981) Phosphorus adsorption by an aluminum-peat complex, Soil Sci. Soc. Am. J. 45, 267-272 crossref(new window)

6.
Bowden, J. W., Posner, A. M. and Quirk, J. P. (1974) A model for ion adsorption on variable charge surface, Int. Congr. Soil Sci., Trans. 10th (Moscow). 11, 29-36

7.
Brown, K. W. (1993) Municipal solid waste (MSW) disposal, past, present, and future, Hazardous Waste & Hazardous Materials. 10, 105-106 crossref(new window)

8.
Casey, J. T. (1997) Unit Treatment Processes in Water and Wastewater Engineering, John Wiley and Sons Ltd, England, pp. 113-114

9.
Chaney, R.L. (1980) Agents of health significance: Toxic metals, In G. Bitton, B.L. Damron, G., T. Edds, and J. M. Davidson (eds.). Sludge: Health risks of land application. Ann Arbor Science Publishers, Ann Arbor, Michigan

10.
장기운, 김상덕, 최우영, 이규승. (1992) 제지스럿지 퇴비의 농업적 이용연구. I. 강낭콩에 대한 시용효과, 한국토양비료학회지. 25, 149-154

11.
장기운, 김상덕, 최우영, 이규승. (1992) 제지스럿지 퇴비의 농업적 이용연구. II. 당근에 대한 시용효과, 한국토양비료학회지. 25, 155-159

12.
Day, P. R. (1965) Particle fractions and particlesize analysis, In C. A. Black (ed.). Methods of Soil Analysis. Agronomy No.9, Part 1. American Society of Agronomy, Madison, WI, p. 547-567

13.
Haynes, R. J. (1984) Lime and Phosphate in the soil-plant system, Adv. in Agron. 37, 249-315 crossref(new window)

14.
Hendershot, W. H., Lalande, H. and Carter, M. R (1993) Ion exchange and exchangeable cation, In M. R. Carter (ed.). Soil Sampling and Methods of Analysis, Canadian Society of Soil Science, Lewis Publishers. p. 167-176

15.
허종수, 김광식. (1985) 제지슬러지 시용이 논토양의 화학성과 수도생육에 미치는 영향. I. 슬러지시용이 토양중 질소형태 및 무기성분 변화에 미치는 영향, 한국환경농학회지. 4, 78-87

16.
허종수, 김광식. (1986) 제지슬러지 시용이 논토양의 화학성과 수도생육에 미치는 영향, II. 토양중 부식형태에 미치는 슬러지의 영향, 한국환경농학회지. 5, 1-10

17.
허종수, 김광삭. 하호성. (1988) 제지슬러지 시용이 논토양의 화학성과 수도생육에 미치는 영향, III. 슬러지시용이 수도생육에 미치는 영향. 한국환경농학회지. 7, 26-42

18.
Jackson, M. L. (1958) Soil chemical analysis, Prentice-Hall, Inc. Englewood Cliffs, N.J

19.
Kamprath, E. J. and Foy, C. D. (1985) In O. P. Engelstad (ed.). Fertilizer technology and use, 3nd ed., Soil Science Society of America, Madison, WI, p. 91-151

20.
Karam, A. (1993) Chemical properties of organic soils, In M. R Carter (ed.). Soil sampling and methods of analysis, Canadian Society of Soil Science, Lewis Publishers. p. 459-471

21.
Karthikeyan, K. G., Tshablala, M. A., Wang D. and Kalbasi, M. (2004) Solution chemistry effects on orthophosphate adsorption by cationized solid wood residues, Environ. Sci. Technol 38, 904-911 crossref(new window)

22.
Lee, I. B., Lim, J. S. and Chang, K. W. (2006) Effect of water treatment sludge on growth of rice seedling, Kor. J of Environ. Agric. 25, 382-385 crossref(new window)

23.
Lehr, J. J. and Von Wesemael, J. C. (1952) [cited by Haynes, R. J. 1984. Lime and phosphate in the soil-plant system. Adv. in Agron. 37, 249-315]

24.
Parfitt, R. L. (1977) Phosphate adsorption on an oxisol, Soil Sci. Soc. Am. J. 41, 1064-1067 crossref(new window)

25.
Ping, C. L. and Michaelson, G. J. (1986) Phosphorus sorption by major agricultural soils of Alaska, Commun. Soil Sci. Plant Anal. 17, 299-320 crossref(new window)

26.
Rural Development Administration (RDA). (1988) Soil Chemical Analysis, RDA

27.
Saunders, W. M. H. (1965) Phosphate retention by New Zealand soil and its relationship to free sesquioxide organic matter and other soil properties, N.Z. J. Agric. Res. 8, 30-57 crossref(new window)

28.
Simpson, G. G., King, L. D., Carlile, B. L. and Blickensderfer, P. S. (1983) Paper mill sludges, coal fly ash, and surplus lime mud as soil amendments in crop production, TAPPIJ. 66, 71-74

29.
Singh, B. and Tabatabai, M. A. (1976) [cited by Haynes, R. J. 1984. Lime and phosphate in the soil-plant system, Adv. in Agron. 37, 249-315]

30.
Singh, B. and Gilkes, R. J. (1991) Phosphorus sorption in relation to soil properties for the major soil types of south-western Australia, Aust. J. Soil Res. 29, 603-618 crossref(new window)

31.
Sommers, L. E. (1977) Chemical composition of sewage sludges and analysis of their potential use as fertilizers, J. Environ. Qual. 6, 225-232 crossref(new window)

32.
Syers, J. K., Evans, T. D., Williams, J. D. H. and Murdock, J. T. (1971) Phosphate sorption parameters of representative soils from Rio Grande Do Sul, Brazil, Soil Sci. 112, 267-275 crossref(new window)

33.
Thiel, D. A (1984) Sweet com grown on land treated with combined primary/secondary sludge, In Proceedings, 1984 TAPPI Environmental Conference. TAPPI Press, Atlanta, Georgia. p. 93-102

34.
Tran, T. S. and Simard, R. R. (1993) Melich III-extractable elements, In M. R. Carter (ed.). Soil Sampling and Methods of Analysis, Canadian Society of Soil Science, Lewis Publishers. p. 43-49

35.
Van Riemsdijk, W. H, Beek, J. and De Haan, F. A. M. (1979) Phosphates in soils treated with sewage water: N. Bonding of phosphate from sewage water in sand columns containing aluminum hydroxide, J. Environ. Qual. 8, 207-210 crossref(new window)

36.
Yoshida, S. and Kitou, M. (1992) A simple manufacturing method of plant culture soil by combination of weed and sludges produced from water purification process, Jpn. J. Alternative Resource and Environ. 28, 215-219