Valorization of various sources of rabbit manure in agro-piscicultural system in Benin (West Africa): dynamics and effect of mineralization upon quality of fresh water
Tóm tắt
Rising demand of fish generates various pressures on aquatic ecosystems, causing its deterioration and the loss of its biodiversity. With the aim of a better management and fish production in a salubrious environment, this study proposes the utilization of organic fertilizers from rabbit manure. The treatments consisted of manure of rabbits fed with: manufactured diet (T1), improved diet with Ipomea aquatic (T2), improved diet with Elaeis guineensis (T3), and improved diet with Panicum maximum (T4). Indeed, experimental design was a completely randomized block design with three replications. 6 g in 10 L of water from the different manures from each diet was followed during 50 days. Various nutrients were measured. After the mineralization process, the best manure which released more nutrients was T4 with measured proportions of N-NO2
−, N-NO3
−, N-NH3, P-PO4
3−, Ca2+, Mg2+, K+, and suspended matter being 0.06 ± 0.0, 0.38 ± 0.1, 0.85 ± 0.1, 8.27 ± 0.9, 12.11 ± 0.8, 4.47 ± 0.3, 3.02 ± 0.2, and 140.78 ± 18.6 mg/L, respectively. The highest content of phosphorus and nitrogen was recorded in T4 and T2, respectively. The principal component analysis showed a positive correlation between P-PO4
3−, Ca2+, Mg2+, MES, conductivity, and salinity during mineralization. Manure from rabbits fed by an improved diet with P. maximum (T4) was recommended for agro-piscicultural production system.
Tài liệu tham khảo
Agadjihouèdé H, Montchowui E, Chikou A, Lalèyè PA (2011) Libération comparée de sels dans l’eau par la minéralisation de l’azolla, la bouse de vache, la fiente de volaille et les sons de riz et de maïs utilisés en pisciculture. Int J Biol Chem Sci 5:1883–1897. doi:10.4314/ijbcs.v5i5.10
Akodogbo HH, Bonou CA, Adande R, Sossou DS, Fiogbé ED (2015) Optimization of zooplankton production from pig dung optimal dose: renewed medium. Agric Adv 4:15–21. doi:10.14196/aa.v4i2.1804
Amadou H, Laouali MS, Manzola A (2014) Analyses physico-chimiques et bactériologiques des eaux de trois aquifères de la région de Tillabéry: application des méthodes d’analyses statistiques multi variées. Lar J 20:25–41
Belghiti ML, Chahlaoui A, Bengoumi D, Moustaine REL (2013) Etude de la qualité physico-chimique et bactériologique des eaux souterraines de la nappe plio-quaternaire dans la région de meknès (Maroc). Lar J 14:21–36
Bokossa HKJ, Saïdou A, Fiogbé ED, Kossou D (2014a) Decomposition rate of pig’s manures and nutrient release pattern in wetland condition. Agric For Fish 3:271–278. doi:10.11648/j.aff.20140304.19
Bokossa HKJ, Saïdou A, Sossoukpe E, Fiogbé DE, Kossou D (2014b) Decomposition and mineralization effect of various sources of Pig manure on water quality and nutrients availability for agro-Fish System in Benin. Agric Sci 5:1194–1206. doi:10.4236/as.2014.512129
Borchardt MA (1996) Nutrients. In: Stevenson RJ, Bothwell ML, Lowe RL (eds) Algal ecology: freshwater benthic ecosystems. Ac Press, San Diego, pp 183–227
Cody RJ, Luecke C, Whalen SC, Evans MA (2010) Direct and indirect effects of fish on pelagic nitrogen and phosphorus availability in oligotrophic Arctic Alaskan lakes. NRC Sci 67(10):1635–1648. doi:10.1139/F10-085
Diallo AD, Ibnonamr K, N’diaye AD, Garmes H, Kankou M, Wane O (2014) L’intérêt des méthodes d’analyses statistiques dans la gestion du suivi de la qualité physicochimique de l’eau de la rive droite du fleuve Sénégal. Lar J 17:101–114
Durand M, Beaumatin P, Dumay C (1983) Estimation in vitro à l’aide du phosphore radioactif des besoins en phosphore des microorganismes du rumen. Reprod Nutr Dév 23:727–739
Dwamd (1994) Division of water ambient monitoring database, 18th edn p 325
FAO (2010) (Food and Agriculture Organization). Statistical databases. rome: fao [online]. http://www.fao.org. Accessed 09 Oct 2016
FAO (2012) (Food and Agriculture Organization). The State of world fisheries and aquaculture, 2000, p 230
Foster IDL, Charlesworth SS (1996) Hearvy metals in the hydrological cycle: trends and explanation. Hydr Processes 10(2):227–261
Goulding K, Jarvis S, Whitmore A (2008) Optimizing nutrient management for farm systems. Philos Trans R Soc B 363:667–680. doi:10.1098/rstb.2007.2177
Grunert O, Reheul D, Labeke MCV, Perneel M, Sanabria EH, Siegfried EV, Boon N (2016) Growing media constituents determine the microbial nitrogen conversions in organic growing media for horticulture. Micro Biotechol 9:389–399. doi:10.1111/1751-7915.12354
Guckland A, Brauns M, Flessa H, Thomas FM, Leuschner C (2009) Acidity, nutrient stocks and organic matter content in soils of a temperate deciduous forest with different abundance of European beech (Fagus sylvatica L.). J Plant Nutr Soil Sci 172:500–511
Guibaud G, Charriau A, Bordas F, Rabiet M (2013) Evaluation, through the measurements of electric conductivity and mineral compound contents in waters and soils, of the impact of an old municipal landfill on a wetland (peat bog). Eur J Water Qual 44:13–38
Güsewell S, Verhoeven JTA (2006) Litter N: p ratios indicate whether N or P limits the decomposability of graminoid leaf litter. JTA Plant Soil 287:131. doi:10.1007/s11104-006-9050-2
Kaushik S (2014) L’apport de la pisciculture à l’alimentation de l’homme. Cah Agric 23:18–23. doi:10.1684/agr.2014.0679
Ladhar C, Tastard E, Casse N, Denis F, Ayadi H (2014) Strong and stable environmental structuring of the zooplankton communities in interconnected salt ponds, p15. Hydro. doi:10.1007/s10750-014-1998-y
Lazard J (2014) La diversité des piscicultures mondiales illustrée par les cas de la Chine et du Nigeria. Cah Agric 23:24–33. doi:10.1684/agr.2014.0680
Lemaire G, Franzluebbers A, Carvalho PCF, Dedieu B (2013) Integrated crop-livestock systems: strategies to achieve synergy between agricultural production and environmental quality. Agric Ecosyst Environ 190:4–8. doi:10.1016/j.agee.2013.08.009
Li SF (2002) Aquaculture research and its relation to development in China. In: Zhang LX, Liu J, Li SF, Yang NS, Gardiner PR (eds) Agricultural development and the opportunities for aquatic resources research in China. World Fish Center, Penang, p p58
Liady MND, Tangou TT, Fiogbe ED, Cauchie HM, Vasel JL (2015) About the interest of a zooplankton compartment in pond systems: methodology to study the growth of D. pulex. Wat Sci Technol 71:1436–1443
Mackie RI (2002) Mutualistic fermentative digestion in the gastrointestinal tract: diversity and evolution. Int Comp Biol 42:319–326
Martin C, Picard G, de la Noüe J (1985) World Epuration biologique du lisier de porc par production de biomasses d’algues unicellulaires. J Microbiol Biot 1:173. doi:10.1007/BF01742582
Martinez-Ballestra MC, Lopez-Perez L, Hernandez M, Lopez-Berenguer C, Fernandez-Garcia N, Carvajal M (2008) Agricultural practices for enhanced human health. Phyto Chem Rev 7:251–260. doi:10.1007/s11101-007-9071-3
Mascha J, Karin V, Andrea P, Frank MT (2010) Leaf litter decomposition in temperate deciduous forest stands with a decreasing fraction of beech (Fagus sylvatica). Ecol 164:1083–1094. doi:10.1007/s00442-010-1699-9
Massa F (2000) Sédiment, physico-chimie du comportement interstiel et développement larvaire de la truite commune (Salmo-trutta) : Etude en milieu naturel antropisée et en condition contôlée, Thèse de l’INA-P-G, p. 199
Mérigout P (2006) Etude du métabolisme de la plante en réponse à l’apport de différents fertilisants et adjuvants culturaux. Influence des phytohormones sur le métabolisme azoté. Sciences of the Universe [physics]. INAPG (AgroParisTech), 2006. HAL Id: pastel-00002273 https://pastel.archivesouvertes.fr/pastel-00002273. Submitted on 22 Mar 2007
Michelland RJ, Combes S, Monteils V, Bayourthe C, Cauquil L, Enjalbert FJC, Kimse M, Troegeler-Meynadier AZA, Gidenne T, Fortun-Lamothe L (2012) Analyse comparée des écosystèmes digestifs du rumen de la vache et du caecum du lapin. INRA Prod Anim 25:395–406
Moura E Silva MS, Graciano TS, Losekann ME, Luiz AJ (2016) Assessment of benthic macroinvertebrates at Nile tilapia production using artificial substrate samplers. Braz J Biol 76(3):735–742. doi:10.1590/1519-6984.02815
Nechad I, Fadil K, Fadil F (2014) Qualité physicochimique des eaux des sources ain regrag et ain Sidi Bouali dans la région de Sefrou (moyen atlas, Maroc). Lar J 20:127–146
Oyenuga AV (1960) Effet of stage of growth and frequency of cutting on the yield and chemical composition of some Nigerian fodder grasses-Panicum maximum Jacq. With 10 text-figures printed in Great Britain. J Agric Sci 55:339. doi:10.1017/S0021859600023212
Peterson RH, Coombs K, Power J, Paim U (1989) Responses of several fish species to pH gradients. Rev Can de Zool 67:1566–1572. doi:10.1139/z89-222
Pucher J, Steinbronn S, Mayrhofer R, Schad I, El-Matbouli M, Focken U (2012) Improved sustainable aquaculture systems for small-scale farmers in Northern Vietnam. Environ Sci and Eng, pp 4–8. doi 10.1007/978-3-642-33377
Qiu S, Mc Comb AJ, Bell RW (2012) Leaf litter decomposition and nutrient dynamics in woodland and wetland conditions along a forest to wetland hill slope. Int Sch Res Netw ISRN Soil Sci 12:8 (id 346850)
Rejmánková E (2001) Effect of experimental phosphorus enrichment on oligotrophic tropical marshes in Belize, Central America. Plant Soil 236:33. doi:10.1023/A:1011953715153
Rodier JBL, Merlet N, Coll (2012) Analyse de l’eau. 9e édition, DUNOD, p 20225
Steinbronn S (2009) A case study: fish production in the integrated farming system of the Black Thai in Yen Chau district (Son La province) in mountainous North-Western Vietnam—current state and potential. Ph. Dissertation, University of Hohenheim, Stuttgart
Vodounnou DSJV, Kpogue DNS, Tossavi CE, Mensah GA (2016) Effect of animal waste and vegetable compost on production and growth of earthworm (Eisenia fetida) during vermiculture. IRWA 5:87–92. doi:10.1007/s40093-016-0119-5
Wilkins RJ (2008) Eco-efficient approaches to land management: a case for increased integration of crop and animal production systems. Philos Trans R Soc B Biol Sci 363:517–525. doi:10.1098/rstb.2007.2167