Production of Single Cell Protein from Date Waste

This study aimed to utilize the waste of date’s industry to produce single cell protein. Five fungal strains were evaluated and the production conditions were optimized. A. oryzae was selected as the optimum strain due to its vigorous growth and high protein production. Ammonium sulfate at 0.8% was the best source of nitrogen for the selected strain, pH at 5.5 and the medium ratio of 75 g in 250 ml flask were the best for growth. The single cell protein produced has a good source of nutrition, as the ratio of essential to the total amino acids was 46%. These results benefit establishing large-scale production to produce single cell protein from date’s waste which creates a source of income to this sector and prevent pollution from such waste. Abbreviations Single cell protein (SCP); American Type Culture Collection (ATCC); Potato dextrose agar (PDA); Peptone yeast extract glucose agar (PYG); Dates waste agar (DWA). Introduction Single cell protein (SCP) is dried cell of microorganisms, which used as protein supplement in human foods and animal feeds. The SCP is cheap and competes well with other source of protein and may provide good nutritive value. Besides high protein content (60-82%), SCP contains fat, carbohydrates, vitamins and minerals [1,2]. SCP also rich in essential amino acids like lysine and methionine which are limiting in most plant and animal foods [3]. With increase in population and worldwide protein shortage, the use of SCP as a food and feed is more needed [4]. A number of agricultural and agro-industrial waste products have been used for production of SCP, including orange waste, mango waste, cotton stalks, kinnow-mandarin waste, barley straw, corn cops, rice straw, corn straw, onion juice and sugar cane bagasse [5], cassava starch [6], wheat straw [7], banana waste [8], capsicum powder [9] and coconut water [10]. Date syrup production end with waste consist of date fiber and seed. According to Al-Farsi et al [11], the production of date syrup will end with 59% syrup, 23% press cake and 12% seed. Therefore, for instance Al Baraka Dates Company in Dubai, UAE produced 4000 tons of date syrup in the year 2016 [12], this production will end with 1560 kg of press cake, which can be used for SCP production. Al Farsi et al [11] reported the composition of the syrup waste for three varieties, their protein ranged between 3.6-5.2%, fat between 1.4-2.2% and carbohydrates between 81.9-83.3%. The usage of such wastes as a sole carbon and nitrogen source for production of SCP by microorganisms could be simply attributed to their presence in nature on large scale and their cheap cost. Also, utilization of such waste prevents pollution problems and sanitary hazard as well as creating another source of income to this sector. By-Products of Palm Trees and Their Applications Materials Research Forum LLC Materials Research Proceedings 11 (2019) 302-312 doi: https://doi.org/10.21741/9781644900178-26 303 Different type of microorganisms can be used for SCP production, such as algal, bacteria, fungi and yeast. The microorganisms used for SCP should be low in nutritional requirements, rapid growth rate, stability during growth, non-pathogenic, low nucleic acid content, non-toxic and good digestibility [13]. While the substrate should be non-toxic, abundant, non-exotic, cheap and able to support rapid growth of organisms resulting in high quality of biomass [14]. During microorganism process for conversion of lignocellulosic wastes into feed, at least one of the three objectives must be reached: 1An increase in the protein level 2An increase in digestibility 3An increase in the essential amino acids [15]. In this work five different fugal strains were evaluated for SCP production from date’s syrup waste and the medium condition of the selected strain was optimized for maximum production. This study could be the first research on utilizing dates waste to produce SCP, as no other studies found in this area. Materials and Methods Dates waste The dates waste used in this study was procured from Al Foah Company, Al Ain, UAE. This is a by-product of date’s syrup production consists of date fiber and seed, which packed in polyethylene bags and stored in -30°C until used. Fungal Strains Five fungal strains were obtained from American Type Culture Collection (ATCC, Manassas, Virginia, USA) based on their characteristics as SCP producers and capability of utilizing lignocellulosic by-products. The strains were Trichoderma reesei (ATCC 13631), Fusarium venenatum (ATCC 20334), Thermomyces lanuginosus (ATCC 34626), Aspergillus oryzae (ATCC 14895) and Fusarium graminearum (ATCC 20333). All cultures were processed according to the specific directions of ATCC. Culture Media Two types of media were used for maintenance and routine subculture including: 1standard ATCC recommended media for freeze dried culture which were as follows: potato dextrose agar (PDA) for Trichoderma reesei and Fusarium graminearum. malt agar medium (ATCC 323) for Fusarium venenatum malt extract agar medium (ATCC 325) for Aspergillus oryzae peptone yeast extract glucose agar (PYG, ATCC 663) medium for Thermomyces lanuginosus 2Dates waste agar (DWA) used as production medium for fungal strains. The medium contains 25% date waste, 2% agar, 0.3% ammonium sulfate and 72.7% water. The pH was kept at the natural date fibers at 5.3. Strain Selection The five fungal strains were grown on DWA after autoclaving the medium in 250 ml flasks at 121 0C for 15 min (duplicates). The inoculation was carried out by spore suspension with absorbance of 1.00 at 600 nm and surface fermentation was conducted under static condition at 25 0C, except Thermomyces lanuginosus , which was incubated at 45 0C for 120 hrs. The biomass and growth medium were dried at 70 0C until constant weight, ground to fine powder and analyzed for protein content. The cultures were stored at 36 0C until processed for culturing. By-Products of Palm Trees and Their Applications Materials Research Forum LLC Materials Research Proceedings 11 (2019) 302-312 doi: https://doi.org/10.21741/9781644900178-26 304 Determination of Optimal Production Conditions Optimal nitrogen source: Ammonium chloride, ammonium sulfate and urea were used at 0.2% level in the growth medium DWA with a control containing no added nitrogen. Optimal concentration of nitrogen source: The selected nitrogen source was added to the growth medium DWA at 0, 0.2, 0.4, 0.6, 0.8 and 1.0%. Optimal medium weight to flask volume: The production medium DWA was dispensed in 250 ml flasks at 45, 60, 75, and 90 g/ each flask prior to sterilization and inoculation with the selected strain spore suspension, incubated and processed as described above. Optimal Initial pH: The pH of the DWA medium was adjusted by 1N HCL at 4.0, 4.5, 5.0, 5.5, 6.0 and 6.5 prior to sterilization. Protein Determination Protein content of SCP was determined by analyzing the powdered samples for nitrogen content in CHNSO analyzer (HEKAtech GmbH, Wegberg, Germany) and the obtained values were converted to protein by the factor 6.25. Determination of amino acids Amino acid content of dates fiber and SCP were determined according to the Official European Union regulation No 152/2009 [16]. This method determines free and total amino acids (peptide bound and free) using amino acid analyzer (Shimadzu, Japan). Statistical analysis Results were expressed as mean ± standard deviation on a wet weight basis. Statistical significance (t-test: two-sample equal variance, using two-tailed distribution) was determined using the Microsoft Excel Statistical Data Analysis. Differences at p < 0.05 were considered to be not significant. Results and discussion Strain selection The DWA medium which used as a medium for fungal growth was simple to prepare and has clear economic potential in large scale part of the project. No hydrolyses treatment been used for this media, as the date fiber macerated from dates syrup processing. The presence of sugar in date fibers along with complex lignocelluloses components has induction effect on production of essential carbohydrate hydrolyses. Figure 1 present growth of the five fungal strains and figure 2 shows the protein content produced by these fungal strains. It’s clearly shows the vigorous growth of A. oryzae compares to other fungi, also the protein content produced by A. oryzae was significantly higher than others. Based on the obtained results (vigorous growth and high protein) A. oryzae was selected as the optimum strain for DWA and used for optimal production condition. Jin et al [17] found A. oryzae as the best option to produce SCP from starch waste water. Also, Ahmadi et al [18] reported 57% protein content produced by A. oryzae from rice bran. By-Products of Palm Trees and Their Applications Materials Research Forum LLC Materials Research Proceedings 11 (2019) 302-312 doi: https://doi.org/10.21741/9781644900178-26 305 Trichoderma reesei Fusarium venenatum Thermomyces lanuginosus Aspergillus oryzae Fusarium graminearum Fig. 1. Growth of the five fungal strains. By-Products of Palm Trees and Their Applications Materials Research Forum LLC Materials Research Proceedings 11 (2019) 302-312 doi: https://doi.org/10.21741/9781644900178-26 306 Fig. 2. Protein content (%) produced by different fungal strains. The values followed by the same letters are not significantly different (p < 0.05). Nitrogen source In order to select the optimum nitrogen source for maximum fungal growth, three nitrogen sources, ammonium chloride, ammonium sulfate and urea were used. Figure 3 present the effect of nitrogen source on protein content produced by A. oryzae after 5 days growth. The result shows that ammonium sulfate was the best source as the protein content produced was significantly highest (13.8%). Rao et al [19] also found ammonium sulfate is the best nitrogen source for fungi strain Penicillium janthinellum to produce SCP from bagasse. The possible reason may be th