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References
Adamtey N, Cofie O, Ofosu-Budu, GK, Danso, SKA, Forster D (2009). Production and storage of N-enriched co-compost. Waste Management 29(9):2429-2436. |
|
Anderson C, Malambo DH, Perez MEG, Nobela HN, de Pooter L, Spit J, Hooijmans CM, de Vossenberg JV, Greya W, Thole B, Lier VJB, Brdjanovic D (2015). Lactic acid fermentation, urea and lime addition: promising fecal sludge sanitizing methods for emergency sanitation. International Journal of Environmental Research and Public Health 12(11):13871-13885. |
|
Andreev N, Ronteltap M, Boincean B, Wernli M, Zubcov E, Bagrin N, Borodin N, Lens PNL (2017). Lactic acid fermentation of human urine to improve its fertilizing value and reduce odour emissions. Journal of Environmental Management 198(1):63-69. |
|
Bettendorf T, Stoeckl M, Otterpohl R (2014). Vermi-composting of municipal solid organic waste and faecal matter as part of Terra Preta Sanitation - a process and product assessment In: Bettendorf T.W., C; Otterpohl R. (Ed.). 1st International Conference on Terra preta sanitation. DBU, Hamburg, Germany. |
|
Brands E (2014). Prospects and challenges for sustainable sanitation in developed nations: A critical review. Environmental Reviews 22:346-363. |
|
Chang Y , Deng C, Dore AJ, Zhuang G (2015). Human excreta as a stable and important source of atmospheric ammonia in the megacity of Shanghai. Plos One 10(12):1-13. |
|
Colehour AM, Meadow JF, Liebert MA, Cepon-Robins TJ, Gildner TE, Urlacher SS, Bohannan BJM, Snodgrass JJ, Sugiyama LS (2014). Local domestication of lactic acid bacteria via cassava beer fermentation. PeerJ 2 , e479. |
|
Desmarchelier PM, Fegan N (2003). Enteropathogenic Escherichia coli. Ch 9 In: Hocking AD (ed) Foodborne microorganisms of public health significance. 6th ed. Australian Institute of Food Science and Technology (NSW Branch), Sydney pp. 267-310. |
|
Factura H, Bettendorf T, Buzie C, Pieplow H, Reckin J, Otterpohl R (2010). Terra Preta sanitation: re-discovered from an ancient Amazonian civilization - integrating sanitation, bio-waste management and agriculture (eng). Water science and technology: a journal of the International Association on Water Pollution Research 61(10):2673-9. |
|
Glaser BHL, Guggenberger G (2001). The "Terra Preta" phenomenon: a model for sustainable agriculture in the humid tropics. Naturwissenschaften 88(1):37-41. |
|
Gold M, Harada H, Therrien JD, Nishida T, Cunningham M., Semiyaga S., Fujii S, Dorea C, Nguyen V.A, Strande L (2018). Cross-country analysis of faecal sludge dewatering. Environmental Technology 39(23):3077-3087. |
|
Harder R, Wielemaker R, Larson TA, Zeeman G, Oberg G (2019). Recycling nutrients contained in human excreta to agriculture: Pathways, processes, and products. Critical Reviews in Envirnmental Sceince and Technology 49(8):695-743. |
|
Huang C, Li J, Kang WL, Tang XY (2006). Effect of adding Lactobacillus plantarum and soluble carbohydrates to swine manure on odorous compounds, chemical composition, and indigenous flora. International Journal of Environmental Science and Technology 18(1):201-206. |
|
Kimetu JM, Mugendi DN, Palm CA, Mutuo PK, Gachengo CN, Bationo A, Nandwa S, Kungu JB (2004). Nitrogen fertilizer equivalencies of organics of differing quality and optimum combination with inorganic nitrogen source in Central Kenya. Nutrient Cycling in Agroecosystems 68(2):127-135. |
|
Kone D (2010). Making urban excreta and wastewater management contribute to cities economic development: a paradigm shift. Water Policy 12(4):602-610. |
|
Larsen TA, Alder AC, Eggen RIL, Maurer M, Lienert J (2009). Source separation: Will we see a paradigm shift in wastewater handling? Environmental Science and Technology 43:6121-6125. |
|
Larsen TA, Hoffmann S, Luthi C, Truffer B, Maurer M (2016). Emerging solutions to the water challenges of an urbanizing world. Science 352(6288):928-933. |
|
Magri ME, Fidjeland J, Jonsson H, Albihn A, Vinneras B (2015). Inactivation of adenovirus, reovirus and bacteriophages in fecal sludge by pH and ammonia. Science of the Total Environment 520:213-221. |
|
Nahata M, Chang YS, Krishnakumar P, Schwank J (2017). New approaches to water purification for resource-constrained settings: Production of activated biochar by chemical activation with diammonium hydrogenphosphate. Frontiers of Chemical Science and Engineering 12(1):194-208. |
|
News F (2011). Shocking-food-waste-starts/Food New. |
|
Niwagaba C, Kulabako RN, Mugala P, Jonsson H (2009). Comparing microbial die-off in separately collected faeces with ash and sawdust additives. Waste Management 29(7):2214-2219. |
|
Odey EA, Li Z, Zhou X, Yan Y (2018). Locally produced lactic acid bacteria for pathogen inactivation and odor control in fecal sludge. Journal of Cleaner Production 184:798-805. |
|
Omar FN, Rahman NA, Hafid HS, Yee PL, Hassan MA (2009). Separation and recovery of organic acids from fermented kitchen waste by an integrated process. African Journal of Biotechnology 8(21):5807-5813. |
|
Otterpohl R, Buzie C (2013). Treatment of the solid fraction. In: Larsen, T., Udert, K., Lienert, J. (Eds.), Source Separation and Decentralization for Wastewater Management. IWA Publishing, London pp. 259-273. |
|
Phang LY, Wakisaka M, Shirai Y, Hassan MA (2002). Freezing and thawing technique for the removal of suspended solids and concentration of palm oil mill effluent (POME). Journal of Chemical Engineering of Japan 35(10):1017-1019. |
|
Sanni A, Franz C, Schillinger U, Huch M, Guigas C, Holzapfel W (2013). Characterization and technological properties of lactic acid bacteria in the production of "sorghurt", a cereal-based product. Food Biotechnology 27(2):178-198. |
|
Sinha RK, Herat S, Bharambe G, Brahambhatt A (2009). Vermistabilization of sewage sludge (biosolids) by earthworms: converting a potential bihazard destined for landfill disposal into a pathogen-free, nutritive and safe biofertilizer for farms. Waste management and Research 28(10):872- 881. |
|
Soewondo P, Febriana A, Handajani M, Firdayati M (2014). Faeces Treatment by lactic acid fermentation process and future perspectives of Terra Preta sanitation concept in Indonessia. In Terra Preta sanitation; Bettendorf, TWC, Otterpohl R. Eds. Deutsche Bundesstiftung Umwelt: Hamburg, Germany. |
|
Strande L, Ronteltap M, Brdjanovic D (2014). Faecal Sludge Management: systems Approach for Simple Implementation and Operation. IWA Publishing 13(5):1-14. |
|
Thimann KV (1963). The Life of Bacteria: Their Growth, Metabolism, and Relationships. second ed. Macmillan. |
|
Wang Q, Yamabe K, Narita J, Morishita M, Ohsumi Y, Kusano K, Shirai Y, Ogawa HI (2001). Suppression of growth of putrefactive and food poisoning bacteria by lactic acid fermentation of kitchen waste. Process Biochemistry 37(4):351-357. |
|
WHO (2006). Guidelines for the Safe Use of Wastewater, Excreta and Greywater in Agriculture and Aquaculture. WHO, Geneva. |
|
Wilsenach JA, Maurer M, Larsen TA, van Loosdrecht MCM (2003). From waste treatment to integrated resource management. Water Science and Technology 48(1):1-9. |
|
Yang J, Cao Y, Cai Y, Tereda F (2010). Natural populations of lactic acid bacteria isolated from vegetable residue and silage fermentation. Journal of Dairy Science 93:3136-3145. |
|
Yemaneh A (2015). Evaluation of lactic acid fermentation process in terra preta sanitation system and application in Arba Minch, Ethiopia. Hamburg University. Hamburg Technical University, Hamburg. |
|
Yemaneh A, Bulbo M, Factura H, Buzie C, Otterpohl R (2012). Development of System for Waterless Collection of Human Excreta by Application of Lactic Acid Fermentation Process in Terra Preta SanitationSystem. 4th International Dry Toilet Conference. |
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