[en] Leaves of Mangifera Indica (MI, mango leaves) and Manihot Utilissima (MU, cassava leaves) are available in tropical regions and are the most accessible vegetal wastes of Kinshasa, capital of Democratic Republic of Congo. These wastes are not suitably managed and are not rationally valorized. They are abandoned in full air, on the soil and in the rivers. They thus pollute environment. By contrast, they can be recuperated and treated in order to produce methane (energy source), organic fertilizer and clean up the environment simultaneously. The main objective of this study was to investigate methane production from MI and MU leaves by BMP tests at 30°C. The yields achieved from the anaerobic digestion of up to 61.3 g raw matter in 1 l medium were 0.001 l/g and 0.100 l CH4/g volatile solids of MI and MU leaves, respectively. The yield of MU leaves was in the range mentioned in the literature for other leaves because of a poor presence of bioactive substrates, and low C/N ratio. This methane yield corresponded to 7% of calorific power of wood. By contrast, the methane yield from MI leaves was almost nil suggesting some metabolism inhibition because of their rich composition in carbon and bioactive substrates. Whereas classical acidogenesis and acetogenesis were recorded.
Therefore, methane production from the sole MI leaves seems unfavorable by comparison to MU leaves at the ambient temperature in tropical regions. Their solid and liquid residues obtained after anaerobic digestion would be efficient fertilizers. However, the methane productivity of both leaves could be improved by anaerobic co-digestion.
Research center :
Centre Wallon de Biologie Industrielle
Disciplines :
Biotechnology Environmental sciences & ecology Energy
Author, co-author :
Mambanzulua Ngoma, Philippe; Université de Liège - ULiège > Agronomie, Bio-ingénierie et Chimie (AgroBioChem) > Bioindustries
Hiligsmann, Serge ; Université de Liège > Agronomie, Bio-ingénierie et Chimie (AgroBioChem) > Bio-industries
Sumbu Zola, Eric; University of Kinshasa > Faculty of Pharmaceutical Sciences
Culot, Marc; Université de Liège - ULiège > Agronomie, Bio-ingénierie et Chimie (AgroBioChem)
Fievez, Thierry ; Université de Liège > Agronomie, Bio-ingénierie et Chimie (AgroBioChem) > Microbiologie et génomique
Thonart, Philippe ; Université de Liège > Agronomie, Bio-ingénierie et Chimie (AgroBioChem) > Bio-industries
Language :
English
Title :
Comparative study of the methane production based on the chemical composition of Mangifera Indica and Manihot Utilissima leaves
Publication date :
2015
Journal title :
SpringerPlus
eISSN :
2193-1801
Publisher :
Springer
Volume :
4
Issue :
75
Pages :
1-8
Peer reviewed :
Peer Reviewed verified by ORBi
Name of the research project :
Thèse : Etude de la biodégradation anaérobie des feuilles de Mangifera Indica (manguier) et Manihot Utilissima (manioc)
Angelidaki I, Ahring B (1993) Thermophilic digestion of livestock waste: the effect of ammonia. Appl Microbiol Biotechnol 38:560–564
Angelidaki I, Ellegaard L, Ahring BK (1993) A mathematical model for dynamic simulation of anaerobic digestion of complex substrates: ocusing on ammonia inhibition. Biotechnol Bioeng 42:159–166
Angenot L (1973) Contribution à l’étude du strychnos usambarensisgilg, principal constituant d’un poison de chasse curarisant africain. Université de Liège, Thèse de doctorat
Anid PJ (1983) Contribution à la caractérisation des composts des déchets urbains: Evaluation de leur état de maturation et des risques éventuels de contamination métalliques des cultures. Thèse de doctorat, Gembloux, FUSA, Gembloux, Belgique
APHA (1992) Standard methods for the examination of water and waste water: method 4500 P-E- Heteropoly blue Method, 18th edn. Washington. Merck. Notice d'utilisation du kit Spectroquant Phoshates, Greenberg, Clesceri, Eaton Editors
Barakat A, Monlau F, Steyer JP, Carrere H (2012) Effect of lignin derived and furan compounds found in lignocellulosic hydrolysates on biomethane production. Bioresour Technol 104:90–99
Buffiere P, Carrere M, Lemaire O, Vasquez J (2007) Guide méthodologique pour l’exploitation d’unités de méthanisation de déchets solides: Projet METHAPI-Expertise, Centre de Recherche Propreté & Energie
Chandra R, Takeuchi H, Hasegawa T (2012) Methane production from lignocellulosic agricultural crop wastes. Renew Sust Energ Rev 16:1462–1476
Chen Y, Cheng JJ, Creamer KS (2008) Inhibition of anerobic digestion process: a review. Bioresour Technol 99:4044–4064
Chynoweth DP, Turick CE, Owens JM, Jerger DE, Peckq MW (1993) Biochemical methane potential of biomass and waste feedstocks. Biomass Bioenergy 5:95–111
Davet P (1996) Vie microbienne du sol et production végétale. INRA, Paris
Ducat N, Bock L (1995) Etat organique des terres agricoles en Hesbaye. In: Geypens Met Honnay JP (ed) Matières organiques dans le sol: conséquences agronomiques et environnementales. Comité de recherche sur la matière organique du so, Bruxelles: I.R.S.I.A, pp 33–43
Gerardi MH (2003) The Microbiology of Anaerobic Digesters, John Willey et Sons, Inc, p 107
Gunaseelan VN (1997) Anaerobic digestion of biomass for methane production: a review. Biomass Bioenergy 13:83–114
Gunaseelan VN (2004) Biochemical methane potential of fruits and vegetable solid waste feedstocks. Biomass Bioenergy 26:389–399
Hiligsmann S, Masset J, Hamilton C, Beckers L, Thonart P (2011) Comparative study of biological hydrogen production by pure strains and consortia of facultative and strict anaerobic bacteria. Bioresour Technol 102:3810–3812
Hobson PN, Wheatley AD (1993) Anaerobic digestion modern theory and practice. Elesevier applied science, London and New York, pp 21–232
Kamdem I, Tomekpe K, Thonart P (2011) Production potentielle de bioethanol, de biométhane et de pellets à partir des déchets de biomasse lignocellulosique du bananier (Musa spp.) au Cameroun. Biotechnol Agron Soc Environ 15(3):461–473
Kamdem I, Hiligsmann S, Vanderghem C, Bilik I, Paquot M, Thonart P (2013) Comparative biochemical analysis during the anaerobic digestion of lignocellulosic biomass from six morphological parts of Williams Cavendish banana (Triploid Musa AAA group) plants. World J Microbiol Biotechnol 29(12):2259–2270
Kamra DN, Patra AK, Chatteerjee PN, Kumar R, Agarwal N, Chaudhary LC (2008) Effect of plant extracts on methanogenesis and microbial profile of the rumen of buffalo: a brief overview. Aust J Exp Agric 48:175–178, doi:10.1071/EA07268
Luo G, Karakashev D, Xie L, Zhou Q, Angelidaki I (2011) Long term of inoculums pretreatment on fermentative hydrogen production by repeated batch cultivations: homoacetogenesis and methanogenesis as competitors to hydrogen production. Biotechnol Bioeng 108:1816–1827
Lusakibanza M (2012) Etude phytochimique et pharmacologique de plantes antipalidiques utilisées en medecine traditionnelle congolaise. Université de Liège, Thèse de doctorat, pp 130–135
Macheboeuf D, Bergeault R, Papon Y, Arturo-Schaan M (2011) Effets comparés de trois sources de saponines extraites de Yucca schidigera, Quillaj Saponaria ou Trigonellafoenum-graecum sur les fermentations ruminales in vitro et les émissions de méthane. Renc Rech Ruminants 18:135
Mahamat AY, Gourdon R, Leger P, Vermande P (1989) Methane recovery by anaerobic digestion of cellulosic materials available in Sahel. Biological Wastes 30:181–197
Mambanzulua N, Kayembe K, Noki V (1999) Détermination des activités méthanogéniques spécifiques des lisiers dans le traitement anaérobie des déchets. Med Fac Landbouww Univ Gent 64(1):183–188
Masibo M, He Q (2009) In vitro antimicrobial activity and the major polyphenol in leaf extract of Mangifera indica L. Malaysian Journal of Microbiology 5:73–80
Masset J, Hiligsmann S, Hamilton C, Beckers L, Franck F, Thonart P (2010) Effect of pH on glucose and starch fermentation in batch and sequenced-batch mode with a recently isolated strain of hydrogen-production Clostridium butyricum CWBI 1009. Int J Hydrogen Energy
Mbonigaba MJJ (2007) Etude de l’impact des composts à base de biomasse végétale sur la dynamique des indicateurs physico-chimiques, chimiques et microbiologiques de la fertilité des sols: application sur trois sols acides tropicaux du Rwanda. Faculté Universitaire des Sciences Agronomiques Gembloux, Belgique, Thèse de doctorat
MCDF (1993) Memento de l’agronome Paris: 4ème éd (réimpression), collection techniques rurales en Afrique Ministère de la coopération et du développement (France)
Mital KM (1996) Biogas systems: principles and applications. New Age International Publishers Limited, New Delhi
Mulaji KC (2011) Utilisation des composts de biodéchets ménagers pour l’amélioration de la fertilité des sols acides de la Province de Kinshasa (Rép. Dém. du Congo). Thèse de Doctorat, Gembloux Agro-Bio Tech, Université de Liège. Gembloux, Belgique
Multon JL (1991) Techniques d’analyse et de controle dans les industries agro-alimentaires. Vol 4, analyss des constituants alimentaires. Lavoisier Tec et Doc, Paris, pp 370–380
Mze SP (2008) influence d’apports en matières organiques sur l’activité biologique et la disponibilité du phosphore dans deux sols de la région des grands lacs d’Afrique. Thèse de doctorat, Faculté Universitaire de Sciences Agronomique de Gembloux, Belgique
NF T 90 – 024 (1963) Essais des eaux, dosage spectrophotométrique du manganèse, AFNOR, Paris
Nunez-Selles AJ (2005) Antioxidant Therapy: Myth or reality? J Braz Chem Soc 16:699–710
Nyamangara J, Mtambanengwe F, Musvoto C (2009) Carbon and nitrogen mineralization from selected organic resources available to smallholder farmers for soil fertility improvement in Zimbabwe. Afr J Agric Res 4:870–877
Nzuzi L (1999) La gestion des déchets domestiques: bilan annuel d’une expérience pilote de l’Hôtel de Ville de Kinshasa. Med Fac Landbouww Univ Gent 64(1):107–114
Oliveira L, Cordeiro N, Evtuguin DV, Torres IC, Silvestre AJD (2007) Chemical composition of different morphological parts from Dwarf Cavendish banana plant and their potential as non-wood renewable source of natural products. Ind Crops Prod 26:163–172
Owen WF, Stuckey DC, Healey JB, Young LY, McCarty PL (1979) Bioassay for monitoring biochemical methane potential and anaerobic toxicity. Water Res 13:485–492
Palm CA, Gachengo N, Delve RJ, Cadisch G, Giller KE (2001) Organic inputs for soil fertility management in tropical agroecosystems: application of an organic resource database. Agric Ecosys Environ 83:27–42
Patra AK, Saxena J (2010) A new perspective on the use of plant secondary metabolites to inhibit methanogenesis in the rumen. Phytochemistry 71:1205–1217, 10.1016/j.phytochem. 2010.05.010
Rodier J (1966) Analyse de l'eau. 8e édition Dunod, Paris
Rodriguez C, Hiligsmann S, Ongena M, Charlier R, Thonart P (2005) Development of an enzymatic assay for the determination of cellulose bioavailability in municipal solid waste. Biodegradation 16:415–422
Shuku NO (2011) Impact de l'utilisation de l'énergie-bois dans la ville province de Kinshasa en République Démocratique du Congo (RDC). Mémoire, Université du Québec, Montréal
Shyam M, Sharma PK (1994) Solid-state anaerobic digestion of cattle dung and agro-residues in small capacity field digesters. Bioresour Technol 48:203–207
Singleton VL, Rossi JA Jr (1965) Colorunetry of total phenolics with phosphomolybdic-phosphotungstic acid reagents. Amer J Enol Viticult University of California 16(3):144–158
Vanhaelen M (1994) Identification de matières premières d’origine végétale par chromatographie planaire et microscopie à l’usage du pharmacien d’officine. Rapport mi-projet
Vögeli Y, Lohri CR, Gallardo A, Diener S, Zurbrügg C (2014) Anaerobic Digestion of Biowaste in Developing. Countries: Pratical information and case studies, Swiss Federal Institute of Aquatic Science and Technology (Eawag). Dübendorf, Switzerland
Wagner H, Bladt S (1966) Plant drug analysis. Springler Verglag, Berlin
Wang YS, Byrd CS, Barlaz MA (1994) Anaerobic biodegradability of cellulose and hemicellulose in excavated refuse samples using a biochemical methane potential assay. J Ind Microbiol 13:147–153
Wang J, Liu H, Bo F, Kewei X, Chen J (2013) Trophic link between syntrophic acetogens and homoacetogens during the anaerobic acidogenic fermentation of sewage sludge. Biochem Eng J 70:1–8
