Browse > Article
http://dx.doi.org/10.12925/jkocs.2010.27.4.6

A study on the Effect of Agricultural Industry Supporter for Durability using Waste Shell such as Crassostrea gigas  

Oh, Eun-Ha (Center for life & Environmental Science Neodin Medical Science Institute)
Kong, Seung-Dae (Technology & Research Center, Korea Environment & Resources Corporation)
Publication Information
Journal of the Korean Applied Science and Technology / v.27, no.4, 2010 , pp. 427-436 More about this Journal
Abstract
Much oyster shell is breeding by character and conduct of oyster-industry for a long time among them. An experimental study was carried out to investigate the recycling possibility of waste oyster shells, which induce environmental pollutions by piling up out at the open or the temporary reclamation. The purpose of this study is to develope eco-friendly binder using waste oyster shells, and to reinforce soils fur soft soil improvement. In this paper, a series of laboratory tests including compressive pot tests were performed to evaluate characteristics of soils treated by developed waste oyster shells with different water content of soils. Based on test results, eco-friendly Supporter manufactured from waste oyster shells were estimated as good resource materials for soft soil improvements. We got the conclusion by a series of experiment, It is verified that change of pH of soil is improved by mixing with oyster shells. The homogenization method for deducing apparent of oyster shells, which can consider micro-structure of mixed soil, is introduced. The improvement treatment leaded to enlarge fluctuation of soil moisture content. The effect of calcium concentration was good though improvement treatment of physical property. In addition, the crop yield in amelioration plots increased. It means that the increase of crop yield was caused by improvement of soil physical properties rather than improvement of calcium concentration.
Keywords
waste oyster shell; polyoxin; durability; rosin gum; agricultural chemicals;
Citations & Related Records
연도 인용수 순위
  • Reference
1 T. Benitez, S. Ramos and A. Garcia Acha, Protoplasts from Tricoderma viride: Formation and regeneration., Arch. Microbiol., 103, 199(1975).   DOI   ScienceOn
2 A. Alarcon, J. M. C. Bolarin, M. J. Sanchiz-Blanco, and A. Torrecilas, Growth, yield and water relations of normal fruited cherry tomato cultivars irrigated with saline water, J. Hort. Sci., 74(2), 283 (2004).
3 T. Soria, J. Cuartero, M. Munoz, and R, Carpena, Tomato fruit yield and water consumption with salty water irrigation, Acta-Horticulturae., 458, 215 (1998).
4 K. Ohta, N. Ito, T. Hososki, and H. Higa shimura, Influence of the concentrations of nutrient solution and salt supplement on quality and yield of cherry tomato grown hydroponically, J. Japan. Soc. Hort. Sci., 60(1), 89 (2003).
5 J. Kowalenko, Transport and transformation of fertilization in a sandy field plot using trancer technique, Soil Sci., 129(4), 218 (1980).   DOI
6 A. Trembly, N. J. Trude, and A. Gosselin, Influence of supplementality lighting(HPS) on yield and mineral nutrition of tomato plant grown in hydroponic culture. proc., 6th Int. conger., soilless culture, Lunteren., 697 (1984).
7 J. D. Williams, J. K. Syers, R. F. Harris, and D. E. Armstrong, Fractionation of inorganic phosphate in calcareous lake sediments, Soil Sci. Soc. Amer. Proc., 35, 250 (1981).
8 D. H. Lee, Pathogenicity of Didymella bryoniae on the seedings of Cucurbits, Kor. J. Plant Pathol., 1(3), 173 (2002).
9 B. D. Pearce, R. I. Grange, and K. Hardwick, The growth of young tomato fruit. II. Environmental influences on glasshouse crops grown in rockwool or nutrient film, Planta., 68, 13 (1993).
10 E. Heuvelink, Effects of plant density on biomass allocation to the fruit in tomato. Sci. Hortic., 64(3), 193 (1995).   DOI   ScienceOn
11 C. F. Lin, and H. C. Hsi, Resource recovery of waste fly ash : synthesis of zeolite-like materials, Environ. Sci. Technol., 29(4), 1109 (2001).
12 R. L. David and H, P. R. Frederikse, Properties of the elements and Inorganic compounds, "Handbook of chemistry and physics", 74th ed., Boca Raton, Florida, 48 (1990).
13 J. K. Yang, I. L. Shih, Y. M. Tzeng, and M. Wang, Production and purification of protease from a Bacillus subtilis that can deproteinize crustacean wastes, Enzyme Microb. Technol., 26, 406 (2000).   DOI   ScienceOn
14 C. H. Lee, D. K. Lee, and M. A. Ali, Effects of oyster shell on soil chemical and biological properties and cabbage productivity as liming materials, Waste Manag., 28, 2702 (2008).   DOI   ScienceOn
15 K. Y. Kim, J. K. Kwon, and Y. K. Sung., Release of Cytarabine from Biodegradable Poly(benzyl glutamate)/ Poly(ethylene oxide)/ Poly(benzyl glutamate) Block Copolymer Microsphere, J. Macromol. Sci.-Rev. Macromol. Chem. Phys., 15(1) 33 (2001).
16 K. L. Feldman, D. A. Armstrong, B. R. Dumbauld, T. H., DeWitt, and D. C. Doty, Oysters, crabs, and burrowing shrimp: An environmental conflict over aquatic resources and pesticide use in Washington State's (USA) coastal estuaries, 23, 141 (2000).   DOI   ScienceOn
17 W. S. Wu and J. K. Chou, Chemical and biological control of Alternaria carthami on zinnia, Seed Sci. Technol., 23, 193 (1995).
18 X. Huang and C. S. Brazel, On the importance and mechanisms of burst release in matrix-controlled drug delivery systems, J. Controlled Release, 73, 121(2001).   DOI   ScienceOn
19 A. C. Tanquary, and R. E. Lacey, Controlled Release of Biologically Active Agents, Plenum press, 234 (1994).
20 Y. Araki, Growth of greenhouse-grown tomato irrigated on the basis of and soil moisture status., J. Jpn. Horti. Sci., 63, 91 (1994).   DOI   ScienceOn
21 M. Charbonneau, J. A. Gosselin, and M. J. Trudel, Effects of electric conductivity and intermittent flow of the nutrient solution on growth and yield of greenhouse tomato in NFT, Soilless Culture., 1(1), 19 (1998).
22 S. S. Park, J. H. Kim, and H. C. Lee, Study on the Preparation of Calcium Carbonate from the Waste Solution of Industry, J. Kor. Sol. Wastes Eng. Soc., 2, 199 (2005).
23 C. H. Lee, J. Y. Lee, and B. H. Ha, Increased available phosphate by shell meal fertilizer application in upland soil., Kor. J. Soil Sci. Fert,. 38, 52 (2005).
24 G. L. Yoon, B. T. Kim, and S. H. Han, Chemical-Mechanical Characteristics of Crushed Oyster-shell, Waste Management, 23, available online(http://www. sciencedirect.com), (2003).   DOI   ScienceOn
25 T. Fujita, M. Fukase, M. Nakada, and M. Koishi, Intestinal calcium absorption of oyster shell electrolyte, Bone & Mineral, 4, 321 (1998).