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International Journal of Environmental Studies Volume 81, 2024 - Issue 2: Sustainable Development Goals in action
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Research Article

Impact of the use of water from fish farming in the irrigation of pepper crops (Capsicum annuumL.) in the greenhouse in the Biskra region

Abdelhakim Mechoumaa Laboratory of Ecosystems Diversity and Agricultural Production Systems Dynamics in Arid Zones (DEDSPAZA), Department of Agronomy, University of Mohamed Kheider, Biskra, Algeria;b ITDAS is under the supervision of the Ministry of Agriculture and Rural Development (MADR), Technical Institute for the Development of Saharan Agriculture (ITDAS), Biskra, AlgeriaCorrespondence[email protected]
&
Farid Mezerdic Laboratory of Promotion of Innovation in Agriculture in Arid Regions (PIARA), Department of Agronomy, University of Mohamed Kheider, Biskra, Algeria
Pages 734-750 | Published online: 07 Mar 2024

References

  • Lejars, C. and Courilleau, S., 2015, Impact du développement de l’accès à l’eau souterraine sur la dynamique d’une filière irriguée. Le cas de l’oignon d’été dans le Saïs au Maroc. Cahiers Agricultures 24, 1–10. doi: 10.1684/agr.2014.0729
  • Daoudi, A. and Lejars, C., 2016, De l’agriculture oasienne à l’agriculture saharienne dans la région des Ziban en Algérie. Available online at: https://www.newmedit.iamb.it (accessed 9 February 2021).
  • Bouamar, B., (Ed.), 2010, Le développement agricole dans les régions sahariennes. Etude de cas de la région d’Ouargla et de Biskra. Thèse de Doctorat en Sciences économiques (Algérie: Université d’Ouargla).
  • Corner, R., Fersoy, H. and Crespi, V., 2020, Integrated agri-aquaculture in desert and arid lands: Learning from case studies from Algeria, Egypt and Oman. Fisheries and Aquaculture Circular, No. 1195 (Cairo: FAO). https://doi.org/10.4060/ca8610en
  • FAO, 2018, Le développement de l’aquaculture en Algérie en collaboration avec la FAO –Bilan 2008-2016. FAO, Circulaire sur les pêches et l’aquaculture n0. 1176. Rome Licence: CC BY-NC-SA 3.0 IGO (Rome: FAO). Available online at: https://vdocuments.site/le-dveloppement-de-laaquaculture-en-algrie-en-2018-12-18-citation-requise.html?page=1 (accessed 4 January 2021).
  • Ahmed, N., Ward, J.D. and Saint, C.P., 2014, Can integrated aquaculture-agriculture (IAA) produce “more crop per drop”? Food Security 6, 767–779. doi: 10.1007/s12571-014-0394-9
  • Abdelraouf, R.E. and Hoballah, E., 2014, Impact of irrigation systems, fertigation rates and using drainage water of fish farms in irrigation of potato under arid regions conditions. International Journal of Scientific Research in Agricultural Sciences 1(5), 67–79. doi: 10.12983/ijsras-2014-p0067-0079
  • Elnwishy, N.H., Mohammed, S.R. and Samy, M.Z., 2008, Combating desertification through fish farming. Presented at the Future of Drylands Proceedings of the International Scientific Conference on Desertification and Drylands Research, Tunisia, 19–21 June. UNESCO. doi: 10.1007/978-1-4020-6970-3_46
  • Calvet, G. and Villemin, P., (Eds), 1986, Interprétation des analyses de terre (Aspach le Bas: SADEF).
  • Daoud, Y., (Ed.), 2011, Méthodes d’analyse des sols (El-Harrach: ENSA).
  • Baize, D., (Ed.), 1988, Guide des analyses courantes en pédologie (Paris: INRA).
  • Ayers, R.S. and Wastcot, D.W., 1985, Water Quality for Agriculture. FAO Irrigation and Drainage Paper 29 Rev 1 (Rome: FAO). Available online at: https://www.fao.org/3/T0234E/T0234E00.htm (accessed 31 January 2022).
  • Somerville, C., Cohen, M., Pantanella, E., Stankus, A. and Lovatelli, A., 2014, Small-scale aquaponic food production integrated fish and plant farming. FAO Fisheries and Aquaculture Technical Paper N° 589 (Rome: FAO). Available online at: https://www.fao.org/in-action/globefish/publications/details-publication/en/c/338354/.
  • Soltner, D., (Ed.), 1999, Les bases de la production végétale.Tome (III) la plante et son amélioration 2ème édition Sciences et techniques agricoles (Angers: Sciences et Techniques Agricoles).
  • Wei Liu, C., Sung, Y., Chen, B.-C. and Lai, H.-Y., 2014, Effects of nitrogen fertilizers on the growth and nitrate content of lettuce (Lactuca sativa L.). International Journal of Environmental Research and Public Health 11, 4427–4440. doi: 10.3390/ijerph110404427
  • Fathi, A., 2022, Role of nitrogen (N) in plant growth, photosynthesis pigments, and N use efficiency: A review. Agrisost 28, 1–8. doi: 10.5281/zenodo.7143588
  • Segnou, J., Akoa, A., Youmbi, E. and Njoya, J., 2012, Effet de La fertilisation minérale et organique sur le rendement en fruits du piment (Capsicum AnnuumL.; Solanaceae) en zone forestiere de basse altitude au Cameroun. AgronomieAfricaine 24(3), 231–240. Available online at: https://www.ajol.info/index.php/aga/article/view/87016 (accessed 17 May 2023).
  • Alhrout, H.H., 2017, Response of growth and yield components of sweet pepper to tow different kinds of fertilizers under greenhouse conditions in Jordan. Journal of Agricultural Science 9, 10. doi: 10.5539/jas.v9n10p265
  • Abdelraouf, R.E., 2017, Reuse of fish farm drainage water in irrigation. In: A.M. Negm (Ed.) Unconventional Water Resources and Agriculture in Egypt (Cham: Springer), pp. 393–410. doi: 10.1007/698_2017_92
  • Zouakh, D.E., Ferhane, D. and Bounouni, A., 2016, Intégration de la pisciculture a l’agriculture en Algérie: cas de la wilaya de Ouargla [Integration of fish farming to agriculture in Algeria: case of Ouargla]. Revue des Bioressources 257(5757), 1–17. doi: 10.12816/0045897
  • Bouhali, F.Z., SmeutKouadri, M., Amira, A.B. and Hfsaoui, I., 2021, The integration of aquaculture with agriculture in a semi-arid region in Northwest of Algeria. Egyptian Journal of Aquatic Biology & Fisheries 25(4), 981–1001. Available online at: https://ejabf.journals.ekb.eg/article_196769_a5f4931af8768f4c32e17c39b3414431.pdf (accessed 27 July 2022).
  • Thorarinsdottir, R., 2015, Aquaponics Guidelines. Technical Report The Agricultural University of Iceland) (Reykjavik: Haskolaprent). doi: 10.13140/RG.2.1.4975.6880
  • Endut, A., Jusoh, A., Ali, N., Wan Nik, W.B. and Hassan, A., 2010, A study on the optimal hydraulic loading rate and plant ratios in recirculation aquaponic system. Bioresource Technology 101, 1511–1517. doi: 10.1016/j.biortech.2009.09.040
  • Lennard, W. and Goddek, S., 2020, Aquaponics: The basics. In: S. Goddek, A. Joyce, B. Kotzen and G.M. Burnell (Eds) Aquaponics Food Production Systems. Combined Aquaculture and Hydroponic Production Technologies for the Future (Cham: Springer Nature), pp. 113–143. doi: 10.1007/978-3-030-15943-6
  • Rafiee, G. and Saad, C.R., 2005, Nutrient cycle and sludge production during different stages of red tilapia (Oreochromis sp.) growth in a recirculating aquaculture system. Aquaculture 244, 109–118. doi: 10.1016/j.aquaculture.2004.10.029
  • da Silva Cerozi, B. and Fitzsimmons, K., 2016, Phosphorus dynamics modeling and mass balance inaquaponics systems. In: B. da Silva Cerozi (Ed.) Phosphorus Dynamics, Mass Balance and Mineralization in Aquaponics Systems. Doctoral Dissertation (Arizona: University Libraries), pp. 42–64. Available online at: httsp://hdl.handle.net/10150/193835.
  • Strauch, S.M., Wenzel, L.C., Bischoff, A., Dellwig, O., Klein, J., Schüch, M., Wasenitz, B. and Palm, H.W., 2018, Commercial African catfish (Clarias gariepinus) recirculating aquaculture systems: Assessment of element and energy pathways with special focus on the phosphorus cycle. Sustainability 10, 1805. doi: 10.3390/su10061805
  • Palm, H.W., Knaus, U., Appelbaum, S., Staurch, S.M. and Kotzen, B., 2020, Coupled aquaponics systems. In: S. Goddek, A. Joyce, B. Kotzen and G.M. Burnell (Eds) Aquaponics Food Production Systems. Combined Aquaculture and Hydroponic Production Technologies for the Future (Cham: Springer Nature), pp. 113–143. doi: 10.1007/978-3-030-15943-6
  • Pernes-Debuyser, A. and Tessier, D., 2002, Influence du pH sur les propriétés des sols: l’essai de longue durée des 42 parcelles à Versailles. Revue des Sciences de l’Eau/Journal of Water Science 15, 27–39. doi: 10.7202/705484ar
  • Centre de Recherches sur l’Utilisation des Eaux Salées en Irrigation, 1970, Rapport technique 1962–1969. Recherches et formation en matière d’irrigation avec des eaux salées (cas du Tunisie) (Paris: Centre de Recherches sur l’Utilisation des Eaux Salées en Irrigation).
  • Masmoudi, A., 2011, Effet de la salinité des eaux et la fréquence d’irrigation sur le sol et le végétal. Courrier du Savoir 11, 61–69. Available online at: https://RS=tNaPhyIuSeAqxmLjtMRokmMz86E- (accessed 19 March 2023).
  • Ben Hamida, J., El Mokh, F. and Nagaz, K., 2013, Irrigation déficitaire à l’eau salée : étude du cas de la pomme de terre d’automne irriguée au goutte à goutte de surface et souterrain en milieu aride. Revue des Régions Arides 35, 3. Available online at: https://RS=4zZcTVrqaGmesCsA8haLSre (accessed 13 March 2022).
  • Elnwishy, N.H., 2008, Effectiveness of fish culture implementation to improve irrigation water quality. International Journal of Agriculture & Biology 10, 591–592. Available online at: http://www.fspublishers.org.
  • Stouvenakers, G., Dapprich, P., Massart, S. and Jijakli, M.H., 2020, Plant pathogens and control strategies in aquaponics. In: S. Goddek, A. Joyce, B. Kotzen and G.M. Burnell (Eds) Aquaponics Food Production Systems. Combined Aquaculture and Hydroponic Production Technologies for the Future (Cham: Springer Nature), pp. 113–143. doi: 10.1007/978-3-030-15943-6
  • Khan, S.A., Mulvaney, R.L., Ellsworth, T.R. and Boast, C.W., 2007, The myth of nitrogen fertilization for soil carbon sequestration. Journal of Environmental Quality 36, 1821–1832. doi: 10.2134/jeq2007.0099
  • Powlson, D.S., Jenkinson, D.S., Johnston, A.E., Poulton, P.R., Glendining, M.J. and Goulding, K.W.T., 2010, Comments on “synthetic nitrogen fertilizers deplete soil nitrogen: A global dilemma for sustainable cereal production” by R.L. Mulvaney, S.A. Khan, and T.R. Ellsworth in the Journal of Environmental Quality 2009 38, 2295-2314. Journal of Environmental Quality 39, 1–4. doi: 10.2134/jeq2010.0001le
  • Ladha, J.K., Kesava Reddy, C., Padre, A.T. and van Kessel, C., 2012, Role of nitrogen fertilization in sustaining organic matter in cultivated soils. Better Crops 964, 24–25. Available online at: https://www.ipni.net/publication/bettercrops.nsf/0/9F4C8AD50BFF8F0406257ABB005B9F22/$FILE/BC%202012-4%20p.%2024.pd.f.
  • Mahal, N.K., Osterholz, W.R., Miguez, F.E., Poffenbarger, H.J., Sawyer, J.E., Olk, D.C., Archontoulis, S.V. and Castellano, M.J., 2019, Nitrogen fertilizer suppresses mineralization of soil organic matter in maize agroecosystems. Frontiers in Ecology and Evolution 7, 59. doi: 10.3389/fevo.2019.00059
  • Joyce, A., Timmons, M., Goddek, S. and Pentz, T., 2020, Bacterial relationships in aquaponics: New research directions. In: S. Goddek, A. Joyce, B. Kotzen and G.M. Burnell (Eds) Aquaponics Food Production Systems’ Combined Aquaculture and Hydroponic Production Technologies for the Future (Cham: Springer Nature), pp. 113–143. doi: 10.1007/978-3-030-15943-6
  • da Silva Cerozi, B. and Fitzsimmons, K., 2016, The effect of PH on phosphorus availability andspeciation in an aquaponics nutrient solution. In: B. da Silva Cerozi (Ed.) Phosphorus Dynamics, Mass Balance and Mineralization in Aquaponics Systems. Doctoral dissertation (Arizona: University Libraries), pp. 65–78. Available online at: https://hdl.handle.net/10150/193835.
  • Yildiz, H.Y., Robaina, L., Pirhonen, J., Mente, E., Dominguez, D. and Parisi, G., 2017, Fish welfare in aquaponic systems: Its relation to water quality with an emphasis on feed and faeces-A review. Water 9, 13. doi: 10.3390/w9010013
  • Chambenoit, C., Laurent, F. and Machet, J.M., Scheurer, O., (Eds), 2002, Fertilisation azotée de la pomme de terre guide pratique (Val de Loir: ITCF, ITPT, INRA et Agro-Transfert d’Alternatech).
  • d’Orbcastel, E.R., Blancheton, J.P., Boujard, T., Aubin, J., Moutounet, Y., Przybyla, C. and Belaud, A., 2008, Comparison of two methods for evaluating waste of a flow through trout farm. Aquaculture 274, 72–79. doi: 10.1016/j.aquaculture.2007.10.053
  • Schmautz, Z., Graber, A., Mathis, A., GriesslerBulc, T. and Junge, R., 2015, Tomato production in aquaponic system: Mass balance and nutrient recycling. Presented at the Conference: Aquaculture Europe at Rotterdam, The Netherlands. Available online at: https://www.researchgate.net/publication/283085279_Tomato_Production_in_Aquaponic_System_Mass_Balance_and_Nutrient_Recycling_abstract?enrichId=rgreq5f6dbbed789bce429ae147431dd3fec5XXX&enrichSource=Y292ZXJQYWdlOzI4MzA4NTI3OTtBUzoyODc2MjUxODIyMzY2NzJAMTQ0NTU4NjU5NTQ0MA%3D%3D&el=1_x_2&_esc=publicationCoverPdf.
  • Somsak, M., 2019, Nutrient dynamics of an aquaponic system in Southern Thailand. Journal of Agricultural 11, 17. doi: 10.5539/jas.v11n17p57

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