Lactic acid fermentation of human excreta for agricultural application / Nadejda Andreev.
Material type:
TextPublisher: Boca Raton, FL : CRC Press, [2017]Copyright date: ©2017Description: 1 online resource (xiv, 207 pages)Content type: text Media type: computer Carrier type: online resourceISBN: 9781315116280; 9781351639828Subject(s): Nitrogen fertilizers -- Control | Nitrogen excretionAdditional physical formats: Print version: : No titleDDC classification: 631.84 LOC classification: S651 | .A53 2017Online resources: Click here to view. Includes bibliographical references.
chapter 1 General Introduction -- chapter 2 Increasing the agricultural value of human excreta by lactic acid fermentation, composting and biochar addition (literature review) -- chapter 3 Treatment of source-separated human faeces via lactic acid fermentation combined with thermophilic and vermi-composting for agricultural application -- chapter 4 The effect of lacto-fermented faeces, biowaste and addition of biochar soaked in urine on soil quality, growth, yield and yield components of Zea mays L -- chapter 5 Lactic acid fermentation of human urine for improving its fertilizing value and reducing odour emissions in urine diverting dry toilets -- chapter 6 General Discussion and Outlook.
"Human excreta is a valuable fertilizer for improving soil quality and crop productivity, with a potential to replace or complement the mineral fertilizers. The main challenges related to human excreta regarding agricultural applications are microbial contamination risks, loss of nutrients, and odor issues. Fertilization by lacto-fermented faeces supplemented by biochar has benefits such as improved soil bulk density, nitrate and potassium concentrations as well as the yield and yield components of corn, compared to untreated, simple stored faeces, urine, cattle manure, and unfertilized controls. Even though the mineral fertilizer produced corn with significantly higher height and leaf length, it did not add significantly higher yields than lacto-fermented faeces supplemented by biochar. A faeces treatment process by combined lacto-fermentation with thermophilic composting and biochar supplementation had better reduction of coliforms, Escherichia coli, Enterococcus faecalis and Clostridium perfringens, and higher germination of radish and growth of tomatoes than combined lacto-fermentation with vermicomposting. Urine lacto-fermentation contributed to a pH reduction below 4, a decrease in the ammonium concentration and odor strength, as well as an increase in the germination rates compared to untreated stored urine. The results of this study provide important information that can set the basis for scaling up a sustainable technology for the treatment of source separated human excreta while improving its potential for resource recovery."--Provided by publisher.