EFFECT OF SEWAGE SLUDGE ON SOIL FERTILITY AND ON THE NUTRITIONAL QUALITY OF DURUM WHEAT (TRITICUM DURUM, WAHA VARIETY)
DOI:
https://doi.org/10.4314/jfas.v12i3.5Keywords:
Seed; ash; Proline; nitrate; starch; organic matterAbstract
In aims to assess the effect of increasing doses of sludge on the nutritional quality of the durum wheat and on soil fertility. An experiment is carried out in a green house in Faculty of Exact Sciences and Natural and Life Sciences at the University of Tébessa. Four levels of sewage sludge (control = 0 g of sludge/pot; B1 = 120 g of sludge/pot, B2 = 300 g of sludge /pot, B3 = 600 g of sludge/pot) are brought into plastic pots; each treatment is reproduced in three repetitions. The results revealed significant increase in the humidity of the wheat seed witch amended by the sludge. Plants treated with sludge accumulate more ash, nitrogen and fatty acidity compared to control plants. The sewage sludge improves soil fertility; the results have shown an increase in organic matter, nitrates and phosphorus. In addition, the electrical conductivity reveals a strong accumulation of salts in the pots amended by the sewage sludge in comparison with the control.
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References
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[24] Fukushi K, Babel S, and Burakrai S. Survival of Salmonella spp. in a simulated acid-phase anaerobic digester treating sewage sludge.J. Bioresource technology., 2003 86(2): 177-181.
[25] Adam C, Peplinski B, Michaelis M, Kley G, and Simon F G. Thermochemical treatment of sewage sludge ashes for phosphorus recovery. J. Waste management., 2009,29(3), 1122-1128.
[26] Samaras V, Tsadilas, C D and Stamatiadis S. Effects of repeated application of municipal sewage sludge on soil fertility,cotton yield, and nitrate leaching. J. Agronomy Journal., 2008, 100(3): 477-483.
[27] Vogeler I, Green S R, Mills T and Clothier B E. Modelling nitrate and bromide leaching from sewage sludge. J. Soil and Tillage Research., 2006, 89(2): 177-184.
[28] Albiach R, Canet R, Pomares F and Ingelmo F. Organic matter components, aggregate stability and biological activity in a horticultural soil fertilized with different rates of two sewage sludges during ten years. J. Bioresource Technology., 2001, 77(2), 109-114.
[29] Ozdemir S, Dede O H, and Dede G. Comparison of the composting performance of four different sewage sludge amendments. J. Compost science & utilization. 2014, 22(4): 207-215.
[30] Benbelkacem A, Brinis L and Sadli F. La recherche pour la qualité des blés durs en Algérie. Options Méditerranéennes CIHEAM, Série A, Séminaires Méditerranéen, 1995, p 61 -65.
[31] Sampoux J P, Gallais A, and Lefort-Buson M. Intérêt de la valeur propre des descendances S1 associée à la valeur en croisement avec un testeur pour la sélection du maïs fourrage. Agronomie, EDP Sciences., 1989, 9 (5) : pp.511-520.
[32] Feillet P. Le grain de blé. Composition et utilisation. (Eds.), Quae. INRA.2000, pp 305-307.
[33] Coord grosclaude. G. Un point sur l’eau, Tome1, Milieu naturel et maîtrise, (Eds.), Quae, Paris : 1999, pp 189 -200.
[34] GODON.B. Biotransformation des produits céréaliers.(Eds.), Tec et Doc, Lavoisier, Paris : 1991, pp 218-219.
[35]Dicko M H, Gruppen H, Traoré A S, Voragen A G and van Berkel W. J. Sorghum grain as human food in Africa: relevance of content of starch and amylase activities. J. African journal of biotechnology., 2006, 5(5), 384-395.
[36] Goullé, J P, Mahieu L, Castermant J, Neveu N, Laine G, Nouveau M P and Lacroix C. Validation d'une technique de dosage multiélémentaire des métaux par ICP-MS dans les milieux biologiques. In Annales de Toxicologie Analytique, EDP Sciences, 2003, 15(4): 271-280.
[37] Paul M. Planchton C. Ecochard R. Etude des relations entre le développement foliaire, le cycle de développement et la productivité chez le Soja. Annale amélioration des plantes, 1979, 29: 479 – 492.
[38]Troll W, Lindsley J. A photometric method for the determination of proline. J. Biologie Chémosphère., 1955;215:655- 660.
[39] Mathieu C. Pieltain F et Jeanroy E. Analyse chimique des sols: Méthodes choisies. (Eds.) Tec & doc, (2003), Paris : 408p.
[40] Olsen S R, Watanabe F S, Cosper H R, Larson W E and Nelson L B. Residual phosphorus availability in long-time rotations on calcareous soils.J. Soil Science., 1954, 78(2): 141-152.
[41] BANAS. D. & LATA J. C. (2006). Nitrates. The White Paper pollutants habitat. 10p.
[42] Feddes R A, Kowalik P, Neuman S P and Bresler E. finite difference and finite element simulation of field water uptake by plants/Simulation de la différence finie de l'élément fini de l'humidité du sol utilisée par les plantes. J. Hydrological Sciences Journal, (1976). 21(1), 81-98.
[43] Van Zwieten L, Kimber S, Morris, S, Chan K Y, Downie A, Rust J andCowie A. Effects of biochar from slow pyrolysis of papermill waste on agronomic performance and soil fertility.J. Plant and soil, 2010, 327(1-2), 235-246.
[44] Orman S, Ok H and Kaplan M. Application of Sewage Sludge for Growing Alfalfa, Its Effects on the Macro-Micronutrient Concentration, Heavy Metal Accumulation and Translocation. Ekoloji, 2014, 23(90), 10-19.
[2] Bride Mc. Effet à long terme d’apports d’engrais minéraux et de fumier sur les teneurs en C et en N des fractions densimétriques et des agrégats. J.Canadian journal of Soil Science., 2003, (77): 351-358.
[3] Mäder P, Fliessbach A, Dubois D, Gunst L, Fried P, and Niggli U. Soil fertility and biodiversity in organic farming.J. Science., 2002, 296(5573): 1694-1697.
[4] Mekliche L, Bousalhih B, Aissat A, et Halim SB. Etude du déterminisme génétique de l'indice de récolte du blé dur (Triticum durum Desf) en conditions semi-arides. J. African Journal of Biotechnology., 2016, 15 (47) :2671-2677.
[5] Hemery Y, Rouau x,Lullien-Pellerin V, Barron C and Abecassis J. Dry processes to develop wheat fractions and products with enhanced nutritional Quality. J. Journal of Cereal Science-Elsievier., 2007, 327-347.
[6] BAR –ON. M. Contrôle de la qualité des céréales et des protéagineux. Guide pratique (Eds), ITCF. Paris: 2001, pp260- 268.
[7] Shewry P R. The Health grain programme opens new opportunities for improving wheat for nutrition and health Nutrition. J. Journal of experimental Botany., 2009, 34(2): 225–231.
[8] Raiffaud C. Mixing properties of durum wheat semolina as influenced by protein quality and quantity. J. Food and Technology., 2001, ( 6): 615 -641.
[9] Hernandez J A Z, Santiveri F, Michelena A and Pena R J.Durum wheat (Triticum turgidum L.) carryng the 1BL/1RS chromosomal translocation : agronomic performance and quality characteristics under Mediterranean conditions. European Journal of Agronomy., 2004, (30) : 33 -47.
[10] Li S, Di X, Wu D and Zhang J. Effects of sewage sludge and nitrogen fertilizer on herbage growth and soil fertility improvement in restoration of the abandoned open cast mining areas in Shanxi China. J. Environ Earth Sci., 2013, (70): 23-33.
[11] Bouajila K, Sanaa M. Effects of organic amendments on soil physico-chemical and biological properties. J. Mater. Environ. Sci., (2011), 2(1): 485-490.
[12] Casado-Vela, Selle´s S, Navarro J, BustamanteM A, Mataix J, Guerrero C and Gomez I. Evaluation of composted sewage sludge as nutritional source for horticultural soils., J.Waste management. 2006,( 26) : 956-952.
[13] Djekoun A. Fertilisation minérale des cultures. Bulletin mensuel d’information et de liaison du PNTTA N°155. Ecole nationale d’agriculture de Meknès. 2007, 53- 54.
[14]Singh M, Agrawal C. Effects of sewage sludge amendment on heavy metal accumulation and consequent responses of Beta vulgaris plants. J. Chemosphere., 2007, (67): 2229- 2240.
[15]Su D C, Wong J W C. Chemical speciation and phytoavailability of Zn, Cu, Ni and Cd in soil amended with fly ash-stabilized sewage sludge.J. Environment International.,2004,29(7): 895-900.
[16] Guilbot B. Growth and yield responses of two contrasting barley cultivars in a Mediterranean environment. J. Journal of Cereal Science., 1985, 3(4): 271-278.
[17] Boudjabi S, Kribaa M, and Tamrabet L. Contribution of Sewage Sludge to the Fertility of the Soil and the Growth of Barley (Hordium Vulgare L) Variety Jaidor. Springer, Berlin Heidelberg : In Efficient Management of Wastewater., 2008, pp. 227-235.
[18]Temgoua E, Tsafack H N, Pfeifer H R et Njine T. Teneurs en éléments majeurs et oligoéléments dans un sol et quelques cultures maraîchères de la ville de Dschang, Cameroun. J. African crop science journal., 2015, 23(1): 35-44.
[19] Courtney R.G, Mullen G J. Soil quality and barley growth as influenced by the land application of two compost types. J. Bioresource Technology., 2008, 99(8), 2913-2918.
[20] Marie E. Stress metabolism. IX. The significance of end-product inhibition of proline biosynthesis and of compartmentation in relation to stress induced proline accumulation. Aust. J Plant Physiol., 2011, 3: 5 I 3-525.
[21]Bagreev A, Bandosz T J and Locke D C. Pore structure and surface chemistry of adsorbents obtained by pyrolysis of sewage sludge-derived fertilizer. J. Environmental science & technology, 2001, 35(7): 1537-1543.
[22]Monneveux P. Response of plants to environmental stresses. Vol. l. (Eds.) Chilling, freezing and high temperature stresses. New York: Academic Press, 1992. P497.
[23] Zhang T, Wang T, Liu K S, Wang L, Wang K, and Zhou Y. Effects of different amendments for the reclamation of coastal saline soil on soil nutrient dynamics and electrical conductivity responses. J. Agricultural water management., 2015, (159): 115-122.
[24] Fukushi K, Babel S, and Burakrai S. Survival of Salmonella spp. in a simulated acid-phase anaerobic digester treating sewage sludge.J. Bioresource technology., 2003 86(2): 177-181.
[25] Adam C, Peplinski B, Michaelis M, Kley G, and Simon F G. Thermochemical treatment of sewage sludge ashes for phosphorus recovery. J. Waste management., 2009,29(3), 1122-1128.
[26] Samaras V, Tsadilas, C D and Stamatiadis S. Effects of repeated application of municipal sewage sludge on soil fertility,cotton yield, and nitrate leaching. J. Agronomy Journal., 2008, 100(3): 477-483.
[27] Vogeler I, Green S R, Mills T and Clothier B E. Modelling nitrate and bromide leaching from sewage sludge. J. Soil and Tillage Research., 2006, 89(2): 177-184.
[28] Albiach R, Canet R, Pomares F and Ingelmo F. Organic matter components, aggregate stability and biological activity in a horticultural soil fertilized with different rates of two sewage sludges during ten years. J. Bioresource Technology., 2001, 77(2), 109-114.
[29] Ozdemir S, Dede O H, and Dede G. Comparison of the composting performance of four different sewage sludge amendments. J. Compost science & utilization. 2014, 22(4): 207-215.
[30] Benbelkacem A, Brinis L and Sadli F. La recherche pour la qualité des blés durs en Algérie. Options Méditerranéennes CIHEAM, Série A, Séminaires Méditerranéen, 1995, p 61 -65.
[31] Sampoux J P, Gallais A, and Lefort-Buson M. Intérêt de la valeur propre des descendances S1 associée à la valeur en croisement avec un testeur pour la sélection du maïs fourrage. Agronomie, EDP Sciences., 1989, 9 (5) : pp.511-520.
[32] Feillet P. Le grain de blé. Composition et utilisation. (Eds.), Quae. INRA.2000, pp 305-307.
[33] Coord grosclaude. G. Un point sur l’eau, Tome1, Milieu naturel et maîtrise, (Eds.), Quae, Paris : 1999, pp 189 -200.
[34] GODON.B. Biotransformation des produits céréaliers.(Eds.), Tec et Doc, Lavoisier, Paris : 1991, pp 218-219.
[35]Dicko M H, Gruppen H, Traoré A S, Voragen A G and van Berkel W. J. Sorghum grain as human food in Africa: relevance of content of starch and amylase activities. J. African journal of biotechnology., 2006, 5(5), 384-395.
[36] Goullé, J P, Mahieu L, Castermant J, Neveu N, Laine G, Nouveau M P and Lacroix C. Validation d'une technique de dosage multiélémentaire des métaux par ICP-MS dans les milieux biologiques. In Annales de Toxicologie Analytique, EDP Sciences, 2003, 15(4): 271-280.
[37] Paul M. Planchton C. Ecochard R. Etude des relations entre le développement foliaire, le cycle de développement et la productivité chez le Soja. Annale amélioration des plantes, 1979, 29: 479 – 492.
[38]Troll W, Lindsley J. A photometric method for the determination of proline. J. Biologie Chémosphère., 1955;215:655- 660.
[39] Mathieu C. Pieltain F et Jeanroy E. Analyse chimique des sols: Méthodes choisies. (Eds.) Tec & doc, (2003), Paris : 408p.
[40] Olsen S R, Watanabe F S, Cosper H R, Larson W E and Nelson L B. Residual phosphorus availability in long-time rotations on calcareous soils.J. Soil Science., 1954, 78(2): 141-152.
[41] BANAS. D. & LATA J. C. (2006). Nitrates. The White Paper pollutants habitat. 10p.
[42] Feddes R A, Kowalik P, Neuman S P and Bresler E. finite difference and finite element simulation of field water uptake by plants/Simulation de la différence finie de l'élément fini de l'humidité du sol utilisée par les plantes. J. Hydrological Sciences Journal, (1976). 21(1), 81-98.
[43] Van Zwieten L, Kimber S, Morris, S, Chan K Y, Downie A, Rust J andCowie A. Effects of biochar from slow pyrolysis of papermill waste on agronomic performance and soil fertility.J. Plant and soil, 2010, 327(1-2), 235-246.
[44] Orman S, Ok H and Kaplan M. Application of Sewage Sludge for Growing Alfalfa, Its Effects on the Macro-Micronutrient Concentration, Heavy Metal Accumulation and Translocation. Ekoloji, 2014, 23(90), 10-19.
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Published
2020-07-08
How to Cite
BOUDJABI, S. EFFECT OF SEWAGE SLUDGE ON SOIL FERTILITY AND ON THE NUTRITIONAL QUALITY OF DURUM WHEAT (TRITICUM DURUM, WAHA VARIETY). Journal of Fundamental and Applied Sciences, [S. l.], v. 12, n. 3, p. 1067–1089, 2020. DOI: 10.4314/jfas.v12i3.5. Disponível em: https://mail.jfas.info/index.php/JFAS/article/view/825. Acesso em: 25 jan. 2026.
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