Reuse of saline aquaculture effluent for energy plant production

Reuse of saline aquaculture effluent for energy plant production

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Title: Reuse of saline aquaculture effluent for energy plant production
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Article_Title: Reuse of saline aquaculture effluent for energy plant production
Authors: Réka Hegedűs*1,2, Dénes Gál1, Ferenc Pekár1, Mária Oncsik Bíróné1 and Gyula Lakatos2
Affiliation: 1Research Institute for Fisheries, Aquaculture and Irrigation, Szarvas, Hungary
2Department of Applied Ecology, University of Debrecen, Debrecen, Hungary
Abstract: Sodium and other elements of salts are persistent in recycled water. To obtain the basic information required before using halophyte tamarisk (Tamarix tetranda Pall) and “energy willow” (Salix viminalis L. Sp. Klon Marzecinski KLV 1052) to phytoremediation, we investigated the effects of saline effluent irrigation on the growth, survival, Na partitioning and the ability of uptake of Mg, Ca and the main macroelements, like N, P and K by plants. In the vegetation period the sodification effect was negligible according to the soil parameters. The highest sodium uptake by the plants was observed at the low-salt treatment (TDS: 369±57 mg/L).
Keywords: effluent, energy plant, irrigation, salt, phytoremediation
References: Arndt SK, Arampatsis C, Foetzki A, Li X, Zeng F, Zhang X, Contrasting patterns of leaf solute accumulation and salt adaptation in four phreatophytic desert plants in hyperarid desert with saline groundwater. Journal of Arid Environments, 59, 259-270, 2004.
Ayers RS, Westcot DW, Water Quality for Agriculture, FAO, Rome, 1985.
Blumwald E, Gilad SA, Maris PA, Sodium transport in plant cells, Biochimica et Biophysica Acta, 1465, 140-151, 2000.
Börjesson P, Environmental effects of energy crop cultivation in Sweden-I: Identification and quantification. Biomass and Bioenergy, 16, 137-154, 1999.
Brown JJ, Glenn EP, Reuse of highly saline aquaculture effluent to irrigate a potential forage halophyte, Sueda esteroa. Aquacultural Engineering, 20, 91-111, 1999.
Brown JJ, Glenn EP, Fitzsimmons KM, Smith SE, Halophytes for the treatment of saline aquaculture effluent. Aquaculture, 175, 255-268, 1999.
Ghate SR, Burtle GJ, Vellidis G, Newton GL, Effectiveness of grass strips to filter catfish (Ictalurus punctatus) pond effluent. Aquacultural Engineering, 16, 149- 159, 1997.
Gorham J, Hardy C, Wyn Jones RG, Joppa LR, Law CN, Chromosomal location of the K/Na discriminating characters in the D genome of wheat. Theoretical Applied Genetics, 74, 584-588, 1987.
Imada S, Yamanaka N, Tamai S, Effects of salinity on growth, Na partitioning, and Na dynamics of a salt-tolerant tree, Populus alba L. Journal of Arid Environments, 73, 245-251, 2009.
Magesan GN, Williamson JC, Yeates GW, Loyd-Jones ARH, Wastewater C:N ratio effects on soil hydraulic conductivity and potential mechanisms for recovery. Bioresource Technology, 71, 21-27, 2000.
Marschner H, Mineral Nutrition of Higher Plants. Academic Press, London, 674 pp, 1986.
McIntosh D, Fitzsimmons K, Characterisation of effluent from an inland, low-salinity shrimp farm: what contribution could this water make if used for irrigation. Aquacultural Engineering, 27,147-156, 2003.
Miranda FR, Lima RN, Crisostomo LA, Santana MGS, Reuse of inland low-salinity shrimp farm effluent for melon irrigation. Aquacultural Engineering, 39, 1-5, 2008.
Pantoja O, Dainty J, Blumwald E, Ion channels in vacuoles from halophytes and glyophytes. Federation of European Biochemical Societies, 255, 92-96, 1989.
Ravindran KC, Venkatesan K, Balakrishnan V, Chellapan KP, Balasubramanian T, Restoration of saline land by halophytes for Indian soils. Soil Biology& Biochemistry, 39, 2661-2664, 2007.
Rusan MJM, Hinnawi S, Rousan L, Long term effect of wastewater irrigation of forage crops on soil and plant quality parameters. Desalination, 215, 143- 152, 2007.
Scholcz V, Ellerbrock R, The growth productivity, and environmental impact of the cultivation of energy crops on sandy soil in Germany. Biomass and Bioenergy, 23, 81-92, 2002.
Tomar OS, Minhas PS, Sharma VK, Singh YP, Raj KG, Performance of 31 tree species and soil conditions in plantation established with saline irrigation. Forest Ecology and Management, 177, 333-346, 2003.
Toze S, Reuse of effluent water-benefits and risks. Agricultural Water Management, 80,147-159, 2006.
Read_full_article: pdf/21-2011/21-4-2011/SU21-4-2011-Hegedus.pdf
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Article Title: Reuse of saline aquaculture effluent for energy plant production
Authors: Réka Hegedűs*1,2, Dénes Gál1, Ferenc Pekár1, Mária Oncsik Bíróné1 and Gyula Lakatos2
Affiliation: 1Research Institute for Fisheries, Aquaculture and Irrigation, Szarvas, Hungary
2Department of Applied Ecology, University of Debrecen, Debrecen, Hungary
Abstract: Sodium and other elements of salts are persistent in recycled water. To obtain the basic information required before using halophyte tamarisk (Tamarix tetranda Pall) and “energy willow” (Salix viminalis L. Sp. Klon Marzecinski KLV 1052) to phytoremediation, we investigated the effects of saline effluent irrigation on the growth, survival, Na partitioning and the ability of uptake of Mg, Ca and the main macroelements, like N, P and K by plants. In the vegetation period the sodification effect was negligible according to the soil parameters. The highest sodium uptake by the plants was observed at the low-salt treatment (TDS: 369±57 mg/L).
Keywords: effluent, energy plant, irrigation, salt, phytoremediation
References:

Arndt SK, Arampatsis C, Foetzki A, Li X, Zeng F, Zhang X, Contrasting patterns of leaf solute accumulation and salt adaptation in four phreatophytic desert plants in hyperarid desert with saline groundwater. Journal of Arid Environments, 59, 259-270, 2004.
Ayers RS, Westcot DW, Water Quality for Agriculture, FAO, Rome, 1985.
Blumwald E, Gilad SA, Maris PA, Sodium transport in plant cells, Biochimica et Biophysica Acta, 1465, 140-151, 2000.
Börjesson P, Environmental effects of energy crop cultivation in Sweden-I: Identification and quantification. Biomass and Bioenergy, 16, 137-154, 1999.
Brown JJ, Glenn EP, Reuse of highly saline aquaculture effluent to irrigate a potential forage halophyte, Sueda esteroa. Aquacultural Engineering, 20, 91-111, 1999.
Brown JJ, Glenn EP, Fitzsimmons KM, Smith SE, Halophytes for the treatment of saline aquaculture effluent. Aquaculture, 175, 255-268, 1999.
Ghate SR, Burtle GJ, Vellidis G, Newton GL, Effectiveness of grass strips to filter catfish (Ictalurus punctatus) pond effluent. Aquacultural Engineering, 16, 149-159, 1997.
Gorham J, Hardy C, Wyn Jones RG, Joppa LR, Law CN, Chromosomal location of the K/Na discriminating characters in the D genome of wheat. Theoretical Applied Genetics, 74, 584-588, 1987.
Imada S, Yamanaka N, Tamai S, Effects of salinity on growth, Na partitioning, and Na dynamics of a salt-tolerant tree, Populus alba L. Journal of Arid Environments, 73, 245-251, 2009.
Magesan GN, Williamson JC, Yeates GW, Loyd-Jones ARH, Wastewater C:N ratio effects on soil hydraulic conductivity and potential mechanisms for recovery. Bioresource Technology, 71, 21-27, 2000.
Marschner H, Mineral Nutrition of Higher Plants. Academic Press, London, 674 pp, 1986.

McIntosh D, Fitzsimmons K, Characterisation of effluent from an inland, low-salinity shrimp farm: what contribution could this water make if used for irrigation. Aquacultural Engineering, 27,147-156, 2003.
Miranda FR, Lima RN, Crisostomo LA, Santana MGS, Reuse of inland low-salinity shrimp farm effluent for melon irrigation. Aquacultural Engineering, 39, 1-5, 2008.
Pantoja O, Dainty J, Blumwald E, Ion channels in vacuoles from halophytes and glyophytes. Federation of European Biochemical Societies, 255, 92-96, 1989.
Ravindran KC, Venkatesan K, Balakrishnan V, Chellapan KP, Balasubramanian T, Restoration of saline land by halophytes for Indian soils. Soil Biology& Biochemistry, 39, 2661-2664, 2007.
Rusan MJM, Hinnawi S, Rousan L, Long term effect of wastewater irrigation of forage crops on soil and plant quality parameters. Desalination, 215, 143-152, 2007.
Scholcz V, Ellerbrock R, The growth productivity, and environmental impact of the cultivation of energy crops on sandy soil in Germany. Biomass and Bioenergy, 23, 81-92, 2002.
Tomar OS, Minhas PS, Sharma VK, Singh YP, Raj KG, Performance of 31 tree species and soil conditions in plantation established with saline irrigation. Forest Ecology and Management, 177, 333-346, 2003.
Toze S, Reuse of effluent water-benefits and risks. Agricultural Water Management, 80,147-159, 2006.

*Correspondence: