Your search keyword '"Brar SK"' showing total 18 results

1. Thermo-chemo-sonic pretreatment of lignocellulosic waste: Evaluating anaerobic biodegradability and environmental impacts.

Author

Panigrahi S, Tiwari BR, Brar SK, and Kumar Dubey B

Subjects

Anaerobiosis, Environment, Sewage, Lignin, Methane

Abstract

In the present study, yard waste was pretreated by thermo-chemo-sonic pretreatment prior to anaerobic digestion to improve its anaerobic biodegradability. First, the pretreatment conditions were optimized using Box-Behnken design based response surface methodology for the maximum organic matter solubilisation. Then, the possible mechanism of delignification by thermo-chemo-sonic pretreatment was discussed. Moreover, the anaerobic digestion performance of untreated yard waste (UYW) and pretreated yard waste (PYW) was compared. The optimum pretreatment condition based on the increase in soluble COD and volatile solids (VS) was: 2997 kJ/kgTS ultrasonic energy, 74 °C, and 10.1 pH. The highest methane yield of 374 ± 28 mL/gVS added for the PYW at the optimum condition was achieved, which was 37.5 % higher than the UYW (272 ± 16 mL/gVS added ). Finally, the environmental impacts associated with anaerobic digestion of both UYW and PYW were compared. The life cycle assessment confirmed a positive environmental impact of pretreatment., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

2. Furfural degradation and its effect on Rhodosporidium toruloides-1588 during microbial growth and lipid accumulation.

Author

Osorio-González CS, Saini R, Hegde K, Brar SK, and Avalos Ramirez A

Subjects

Glucose, Lipids, Furaldehyde pharmacology, Rhodotorula

Abstract

The presence of furfural in the hydrolysates obtained from lignocellulosic biomass sources represents an enormous challenge during their fermentation because furfural is a toxic compound for different microorganisms. Rhodosporidium toruloides-1588 can grow and accumulate lipids using wood hydrolysate as a substrate containing up to 1 g/L of furfural. In this study, the capacity of R. toruloides-1588 to grow and accumulate lipids using furfural without glucose in the media has been observed. R. toruloides-1588 degraded up to 3 g/L of furfural into furfuryl alcohol (1.8 g/L) and 2-furoic acid (0.9 g/L). Furthermore, R. toruloides-1588 accumulated 52% and 30% of its dry weight into lipids using YM media and YM media without glucose, respectively. Fatty acids such as palmitic, stearic and oleic were the most abundant. Finally, R. toruloides-1588 could potentially utilize furfural as a carbon source., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

3. A comparative life cycle assessment of different pyrolysis-pretreatment pathways of wood biomass for levoglucosan production.

Author

Bhar R, Tiwari BR, Sarmah AK, Brar SK, and Dubey BK

Subjects

Animals, Biomass, Carbon Dioxide analysis, Glucose analogs & derivatives, Humans, Life Cycle Stages, Pyrolysis, Wood chemistry

Abstract

In order to identify the most environmental-friendly pretreatment for pyrolsis of wood residue to levoglucosan (LG), for the first time a comparative life cycle assessment (LCA) was carried out for hot water treatment (HWT), torrefaction, acid pretreatment (AP) and salt pretreatment (SP) pathways. Since LG production can facilitate both resource recovery (RR) and wood residue handling (WRH), two different functional units (FUs), i.e., 1 kg LG production and 1 kg wood residue handling were considered. AP was found to generate the least global warming potential of 134.60 kg CO 2 -eq and human carcinogenic toxicity of 0.59 kg 1,4-dichlorobenzene-eq. for RR perspective. However, for WRH perspective, HWT was found to be the best pretreatment (6.39 kg CO 2 -eq; 0.03 kg 1,4-dichlorobenzene-eq.). Sensitivity analysis revealed that a reduction in electricity consumption by 15% could reduce the overall impacts by 14.00-14.82 %. This study also highlights the impact of goal and FU selection on LCA., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

4. Effect of creating a fed-batch like condition using carbon to nitrogen ratios on lipid accumulation in Rhodosporidium toruloides-1588.

Author

Saini R, Osorio-Gonzalez CS, Hegde K, Brar SK, and Vezina P

Subjects

Biomass, Carbon, Lipids, Rhodotorula, Basidiomycota, Nitrogen

Abstract

Utilizing the undetoxified wood hydrolysate to accumulate maximum lipids in Rhodosporidium toruloides under optimum conditions has been regarded as a renewable and cost-effective strategy. The current investigation aims to identify the best carbon to nitrogen (C/N 20, 70, and 120) ratio for maximum lipid accumulation in R. toruloides-1588 using wood hydrolysate. Additionally, a fed-batch-like condition was employed, where C/N ratios were maintained during the fermentation that inherently decreases in batch fermentation. The C/N ratio 70 has been identified as the best condition with 3 times higher lipid accumulation (43% w/w) than the control. Additionally, >95% and 70% of glucose and xylose consumption were observed, respectively. Moreover, 50% increase in polyunsaturated fatty acids compared to the control media reinforced the potential of R. toruloides-1588 to thrive on undetoxified hydrolysate, high lipid productivity (3.8 mg/g of dry weight per hour) and produce high value monosaturated and polyunsaturated fatty acids., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

5. Psychrozymes as novel tools to biodegrade p-xylene and potential use for contaminated groundwater in the cold climate.

Author

Miri S, Davoodi SM, Brar SK, Rouissi T, Sheng Y, and Martel R

Subjects

Biodegradation, Environmental, Cold Climate, Ecosystem, Humans, Pseudomonas, Xylenes, Groundwater, Petroleum, Soil Pollutants

Abstract

Sites contaminated by petroleum hydrocarbons in cold-climate regions have recently received significant attention due to their sensitive ecosystem and human health impacts. Two cold-adapted pseudomonas strains were isolated from contaminated groundwater and soil. As xylene monooxygenase from Pseudomonas synxantha S2TR-26 and catechol 2,3-dioxygenase from Pseudomonas mandelii S2TR-08, have a matching end product, they acted in symphony to degrade p-xylene. Their unique thermodynamic and kinetic behavior permits them to achieve rapid degradation of p-xylene at low temperatures (<15 °C). The results showed that the sequential action led to the conversion of 200 mg/l of p-xylene within 72 h and complete degradation after 120 h. The cocktail of these enzymes with a ratio of 1:1.5 (xylene monooxygenase: catechol 2, 3-dioxygenase) confirmed the complete degradation of p-xylene within 48 h at 15 °C. This approach will allow efficient biodegradation of p-xylene to minimize the bioremediation duration in cold-climate regions., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2021

6. Pulsed-ozonolysis assisted oxidative treatment of forestry biomass for lignin fractionation.

Author

Osorio-González CS, Hegde K, Brar SK, Vezina P, Gilbert D, and Avalos-Ramírez A

Subjects

Biomass, Forestry, Oxidative Stress, Lignin, Ozone

Abstract

Lignocellulosic biomass has been used to produce biomolecules of industrial interest through thermochemical, biological, and chemical transformation. However, few works have been developed over lignin fractionation to obtain monolignols with commercial potentials, such as sinapyl, coniferyl, and p-coumaryl alcohols. This study is focused on developing a thermochemical method to delignify biomass. Additionally, an oxidative treatment with ozone was studied to increase the release of monolignol compounds. The results showed that with 30 sec of ozonation in liquid samples from softwood sawdust a total concentration of 368.50 ± 0.73 mg/kg of monolignols was released after microwave-assisted extraction (256.5 ± 0.51 mg/kg of sinapyl alcohol and 112 ± 0.22 mg/kg of coniferyl alcohol) and 629.20 ± 0.21 mg/kg was released after thermal treatment (453.70 ± 0.15 mg/kg of sinapyl alcohol and 175.5 ± 0.06 mg/kg of coniferyl alcohol). For p-coumaryl alcohol, 16.32 mg/kg was obtained only in hardwood samples. The results of the present study showed that ozonolysis improves monolignols release from forestry residues., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

7. Microwave-assisted one-pot conversion of agro-industrial wastes into levulinic acid: An alternate approach.

Author

Maiti S, Gallastegui G, Suresh G, Pachapur VL, Brar SK, Le Bihan Y, Drogui P, Buelna G, Verma M, and Galvez-Cloutier R

Subjects

Fermentation, Malus, Industrial Waste, Levulinic Acids, Microwaves

Abstract

Brewery liquid waste (BLW), brewery spent grain (BSG), apple pomace solid wastes (APS), apple pomace ultrafiltration sludge (APUS) and starch industry waste (SIW) were evaluated as alternative feedstocks for levulinic acid (LA) production via microwave-assisted acid-catalyzed thermal hydrolysis. LA production of 204, 160, 66, 49 and 12 g/kg was observed for BLW, BSG, APS, APUS, and SIW, respectively, at 140 °C, 40 g/L substrate concentration (SC), 60 min and 2 N HCl (acid concentration). Based on the screening studies, BLW and BSG were selected for optimization studies using response surface methodology. Maximum LA production of 409 and 341 g/kg for BLW and BSG, respectively were obtained at 160 °C, 4.5 M HCl, 85 g/L SC and 27.5 min. Results demonstrated the possibility of using brewery wastes as promising substrates for economical and higher yield production of LA, a renewable platform chemical and versatile precursor for fuels and chemicals., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

8. Hydrolytic pre-treatment methods for enhanced biobutanol production from agro-industrial wastes.

Author

Maiti S, Gallastegui G, Suresh G, Sarma SJ, Brar SK, Drogui P, LeBihan Y, Buelna G, Verma M, and Soccol CR

Subjects

Butanols, Ethanol, Fermentation, Hydrolysis, Industrial Waste

Abstract

Brewery industry liquid waste (BLW), brewery spent grain (BSG), apple pomace solid wastes (APS), apple pomace ultrafiltration sludge (APUS) and starch industry wastewater (SIW) have been considered as substrates to produce biobutanol. Efficiency of hydrolysis techniques tested to produce fermentable sugars depended on nature of agro-industrial wastes and process conditions. Acid-catalysed hydrolysis of BLW and BSG gave a total reducing sugar yield of 0.433 g/g and 0.468 g/g respectively. Reducing sugar yield from microwave assisted hydrothermal method was 0.404 g/g from APS and 0.631 g/g from APUS, and, 0.359 g/g from microwave assisted acid-catalysed SIW dry mass. Parameter optimization (time, pH and substrate concentration) for acid-catalysed BLW hydrolysate utilization using central composite model technique produced 307.9 g/kg glucose with generation of inhibitors (5-hydroxymethyl furfural (20 g/kg), furfural (1.6 g/kg), levulinic acid (9.3 g/kg) and total phenolic compound (0.567 g/kg)). 10.62 g/L of acetone-butanol-ethanol was produced by subsequent clostridial fermentation of the substrate., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2018

9. Valorization of raw glycerol and crustacean waste into value added products by Yarrowia lipolytica.

Author

Magdouli S, Guedri T, Tarek R, Brar SK, and Blais JF

Subjects

Animals, Biofuels, Lipase, Biomass, Glycerol, Yarrowia

Abstract

Crude glycerol has been widely investigated as a renewable carbon source for biodiesel production. In the present study, this feedstock was supplemented by various inducers: surfactants and oils to enhance lipid and lipase production by the newly isolated yeast, Yarrowia lipolytica. Results have shown that a culture medium composed of olive oil could enhance lipase activity at 25U/mL and lipid content up to 35% (w/w). The fortification of the medium with crustacean waste increased the lipase activity up to 38U/mL. The hydrolytic activity of the extracellular lipases produced in mentioned medium was satisfactory and opened avenues for other biotechnological processes., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

10. Bio- and hydrochars from rice straw and pig manure: Inter-comparison.

Author

Liu Y, Yao S, Wang Y, Lu H, Brar SK, and Yang S

Subjects

Animals, Carbon Sequestration, Charcoal chemistry, Soil chemistry, Swine, Temperature, Manure, Oryza

Abstract

Conversion of rice straw (RS) and pig manure (PM) into chars is a promising disposal/recycling option. Herein, pyrolysis and hydrothermal carbonization were used to produce bio- and hydrochars from RS and PM, affording lower biochar (300-700°C) and hydrochar (180-300°C) yields at higher temperatures within the specified range. The C contents and C/N ratios of RS chars were higher than those of PM ones, with the opposite trend observed for yield and ash content. C and ash contents increased with increasing temperature, whereas H/C, O/C, and (O+N)/C ratios decreased. The lower H/C ratio of biochars compared to that of hydrochars indicated greater stability of the former. KCl was the main inorganic fraction in RS biochars, whereas quartz was dominant in PM biochars, and albite in PM hydrochars. Thus, RS is more suitable for carbon sequestration, while PM is more suitable for use as a soil amendment substrate., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

11. Valorization of crude glycerol and eggshell biowaste as media components for hydrogen production: A scale-up study using co-culture system.

Author

Pachapur VL, Das RK, Brar SK, Le Bihan Y, and Buelna G

Subjects

Animals, Batch Cell Culture Techniques, Biofuels, Bioreactors, Biotechnology instrumentation, Coculture Techniques, Fermentation, Hydrogen-Ion Concentration, Microscopy, Electron, Scanning, Waste Products, Biotechnology methods, Culture Media chemistry, Egg Shell chemistry, Glycerol chemistry, Hydrogen metabolism

Abstract

The properties of eggshells (EGS) as neutralizing and immobilizing agent were investigated for hydrogen (H 2 ) production using crude glycerol (CG) by co-culture system. Eggshells of different sizes and concentrations were used during batch and repeated-batch fermentation. For batch and repeated-batch fermentation, the maximum H 2 production (36.53±0.53 and 41.16±0.95mmol/L, respectively) was obtained with the EGS size of 33μm5 <75μm. Hydrogen production increased with the decreasing size of EGS. Eggshells maintained the fermentation pH (6.00-6.30) and provided immobilization support as confirmed by scanning electron microscopy. As media components, the EGS concentration of 0.25% (w/v) was found to be optimum for maximum H 2 production (31.66±0.55mmol/L) and the production profile was comparable to H 2 production (32.07±0.92mmol/L) obtained with all media components. In scale-up study with semi-continuous bioreactor (7.5L), almost 1.5-fold increase (in comparison to mono-culture) i.e. 312.12mmol-H 2 /L-of medium with 86.65% glycerol utilization was obtained., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017

12. Biohydrogen production by co-fermentation of crude glycerol and apple pomace hydrolysate using co-culture of Enterobacter aerogenes and Clostridium butyricum.

Author

Pachapur VL, Sarma SJ, Brar SK, Le Bihan Y, Buelna G, and Verma M

Subjects

Biofuels microbiology, Bioreactors microbiology, Carbon metabolism, Coculture Techniques methods, Ethanol metabolism, Propylene Glycols metabolism, Clostridium butyricum metabolism, Enterobacter aerogenes metabolism, Fermentation physiology, Glycerol metabolism, Hydrogen metabolism, Malus metabolism

Abstract

Co-substrate utilization of various wastes with complementary characteristics can provide a complete medium for higher hydrogen production. This study evaluated potential of apple pomace hydrolysate (APH) co-fermented with crude glycerol (CG) for increased H2 production and decreased by-products formation. The central composite design (CCD) along with response surface methodology (RSM) was used as tool for optimization and 15 g/L of CG, 5 g/L of APH and 15% (v/v) inoculum were found to be optimum to produce as high as 26.07 ± 1.57 mmol H2/L of medium. The p-value of 0.0017 indicated that APH at lower concentration had a significant effect on H2 production. By using CG as sole carbon source, reductive pathway of glycerol metabolism was favored with 19.46 mmol H2/L. However, with APH, oxidative pathway was favored with higher H2 production (26.07 ± 1.57 mmol/L) and decrease in reduced by-products (1,3-propanediol and ethanol) formation. APH inclusion enhanced H2 production, and decreased substrate inhibition., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

13. Economic process to produce biohydrogen and volatile fatty acids by a mixed culture using vinasse from sugarcane ethanol industry as nutrient source.

Author

Sydney EB, Larroche C, Novak AC, Nouaille R, Sarma SJ, Brar SK, Letti LA Jr, Soccol VT, and Soccol CR

Subjects

Bioreactors microbiology, Carbon pharmacology, Fatty Acids, Volatile economics, Hydrogen economics, Hydrogen-Ion Concentration, Industrial Waste, Models, Theoretical, Biofuels economics, Biotechnology economics, Biotechnology methods, Ethanol pharmacology, Fatty Acids, Volatile biosynthesis, Hydrogen metabolism, Microbial Consortia drug effects, Saccharum chemistry

Abstract

This work evaluates the potential of vinasse (a waste obtained at the bottom of sugarcane ethanol distillation columns) as nutrient source for biohydrogen and volatile fatty acids production by means of anaerobic consortia. Two different media were proposed, using sugarcane juice or molasses as carbon source. The consortium LPBAH1 was selected for fermentation of vinasse supplemented with sugarcane juice, resulting in a higher H2 yield of 7.14 molH2 molsucrose(-1) and hydrogen content in biogas of approx. 31%, while consortium LPBAH2 resulted in 3.66 molH2/molsucrose and 32.7% hydrogen content in biogas. The proposed process showed a rational and economical use for vinasse, a mandatory byproduct of the renewable Brazilian energy matrix., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

14. Mitigation of the inhibitory effect of soap by magnesium salt treatment of crude glycerol--a novel approach for enhanced biohydrogen production from the biodiesel industry waste.

Author

Sarma SJ, Brar SK, Le Bihan Y, Buelna G, and Soccol CR

Subjects

Enterobacter aerogenes drug effects, Enterobacter aerogenes metabolism, Sodium Chloride pharmacology, Biofuels, Biotechnology methods, Glycerol pharmacology, Hydrogen metabolism, Industrial Waste analysis, Magnesium Sulfate pharmacology, Soaps pharmacology

Abstract

Owing to its inhibitory effect on microbial growth, soap present in crude glycerol (CG) is a concern in biological valorization of the biodiesel manufacturing waste. By salting out strategy, up to 42% of the soap has been removed and the approach has beneficial effect on H2 production; however, removal of more than 7% of the soap was found to be inhibitory. Actually, soap is utilized as a co-substrate and due to removal; the carbon-nitrogen ratio of the medium might have decreased to reduce the production. Alternatively, without changing the carbon-nitrogen ratio of CG, MgSO4 treatment can convert the soap to its inactive form (scum). The approach was found to increase the H2 production rate (33.82%), cumulative H2 production (34.70%) as well as glycerol utilization (nearly 2.5-folds). Additionally, the treatment can increase the Mg (a nutrient) content of the medium from 0.57 ppm to 201.92 ppm., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2014

15. Efficient and simple method for determination of suspendibility of bio-inoculant suspensions.

Author

Rouissi T, Tyagi RD, Brar SK, Prevost D, John RP, and Surampalli RY

Subjects

Hydrogen-Ion Concentration, Particle Size, Static Electricity, Viscosity, Cell Culture Techniques methods, Sinorhizobium meliloti cytology, Suspensions chemistry

Abstract

This study assessed the utilization of viscosity and zeta potential as a novel method to evaluate suspendibility of formulation of Sinorhizobium meliloti grown in starch industry wastewater for use as bio-inoculants. For this objective, sorbitol was used as a suspending agent at concentrations of 0 to 10% w/v. Model, based on multiple linear regression (with pH as dependant variable, and zeta potential, average particle size and sorbitol concentration as independent variables) demonstrated an important relation which was significant (p<0.001, R2=0.98). Sigmoid regression revealed a significant relation between zeta potential and suspendibility with p value=0.007 and R-squared=0.86, and between viscosity and suspendibility (p value<0.0001 and R squared=0.9823). Thus, these direct correlations established the lowering of measurement time from 12 h to 5 min., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

16. Laccases for removal of recalcitrant and emerging pollutants.

Author

Majeau JA, Brar SK, and Tyagi RD

Subjects

Biodegradation, Environmental, Enzyme Stability, Laccase biosynthesis, Laccase isolation & purification, Substrate Specificity, Water Purification, Laccase metabolism, Water Pollutants isolation & purification

Abstract

Bioremediation of wastewater can be enhanced by the use of lignolytic enzymes such as laccases. Laccases oxidize, polymerize or transform phenolic or anthropogenic compounds to less toxic derivatives. Laccase substrates are diverse, and include phenols, dyes, pesticides, endocrine disrupters and polycyclic aromatic hydrocarbons, some of which can be oxidized by extracellular fungal or bacterial laccase. Despite their enormous potential, the use of laccases for decontamination has so far usually been limited to the laboratory scale due to high enzyme production costs. The use of lignocellulosic waste material and/or wastewater as culture media for the growth of microorganisms producing laccase is gaining popularity, but is still low profile due to the ever-present challenges of this approach. The last two decades have seen the publication of numerous reviews on laccases; however, information on laccase properties and production parameters remains sketchy. Hence, a global overview of parameters affecting the biocatalysis of pollutants by laccases, particularly with regard to the economical production of these enzymes using synthetic media and waste materials, is timely., (Copyright 2009 Elsevier Ltd. All rights reserved.)

Published

2010

17. Entomotoxicity, protease and chitinase activity of Bacillus thuringiensis fermented wastewater sludge with a high solids content.

Author

Brar SK, Verma M, Tyagi RD, Valéro JR, and Surampalli RY

Subjects

Animals, Insecta, Microbial Viability, Oxygen metabolism, Sewage microbiology, Spores, Bacterial metabolism, Time Factors, Bacillus thuringiensis enzymology, Chitinases metabolism, Endopeptidases metabolism, Fermentation, Pest Control, Biological, Sewage chemistry, Waste Disposal, Fluid

Abstract

This study investigated the production of biopesticides, protease and chitinase activity by Bacillus thuringiensis grown in raw wastewater sludge at high solids concentration (30 g/L). The rheology of wastewater sludge was modified with addition of Tween-80 (0.2% v/v). This addition resulted in 1.6 and 1.3-fold increase in cell and spore count, respectively. The maximum specific growth rate (micro(max)) augmented from 0.17 to 0.22 h(-1) and entomotoxicity (Tx) increased by 29.7%. Meanwhile, volumetric mass transfer coefficient (k(L)a) showed marked variations during fermentation, and oxygen uptake rate (OUR) increased 2-fold. The proteolytic activity increased while chitinase decreased for Tween amended wastewater sludge, but the entomotoxicity increased. The specific entomotoxicity followed power law when plotted against spore concentration and the relation between Tx and protease activity was linear. The viscosity varied and volume percent of particles increased in Tween-80 amended wastewater sludge and particle size (D(50)) decreased at the end of fermentation. Thus, there was an increase in entomotoxicity at higher suspended solids (30 g/L) as Tween addition improved rheology (viscosity, particle size, surface tension); enhanced maximum growth rate and OUR.

Published

2009

18. Starch industry wastewater as a substrate for antagonist, Trichoderma viride production.

Author

Verma M, Brar SK, Tyagi RD, Surampalli RY, and Valéro JR

Subjects

Animals, Biodegradation, Environmental, Glucose metabolism, Larva physiology, Meat, Moths physiology, Peptones metabolism, Pest Control, Biological, Spores, Fungal drug effects, Spores, Fungal growth & development, Trichoderma metabolism, Water chemistry, Industrial Waste, Starch chemistry, Trichoderma growth & development, Waste Disposal, Fluid

Abstract

Starch industry wastewater was investigated to assess and improve its potential as a raw material for the conidia production of biocontrol fungi, Trichoderma viride. The wastewater was tested with and without supplements of glucose, soluble starch, meat peptone and probable conidiation inducer chemicals in shake flask culture. Addition of complex carbon source (soluble starch, 1% and 2% w/v) produced maximum conidia ( approximately 3.02 and 4.2 x 10(10)CFU/mL, respectively). On the other hand, glucose addition as a simpler carbon source was either ineffective or, reduced conidia production (from 1.6 x 10(8) in control to 3.0 x 10(7)CFU/mL in 5% w/v glucose supplement). Supplement of nitrogen source showed a small increase of conidia concentration. Propionic, maleic and humic acids, EDTA, pyridine, glycerol and CaCO(3) were examined as probable conidiation inducers and showed effect only on initial rate of conidiation with no increase in final conidia concentration. Intra and extracellular ATP correlation with spore production showed dependence on growth media used and conidia concentration at the end of fermentation. Addition of carbon and nitrogen sources showed an increase in protease activity (from 0.4985 to 2.43 IU/mL) and entomotoxicity (from 10448 to 12335 spruce budworm unit (SBU)/microL). Entomotoxicity was improved by 11% in fermenter over shake flask when starch industry wastewater was supplemented with meat peptone.

Published

2007