Abstract
Continuous discharge of lignin containing colored wastewater from pulp paper mill into the environment has resulted in building up their high level in various aquatic systems. In this study, the chemical texture of kraft lignin in terms of pollution parameters (COD, TOC, BOD, etc.) was quite different and approximately twofold higher as compared to model lignin at same optical density (OD 3.7 at 465 nm) and lignin content (2000 mg/L). For comparative bacterial degradation and detoxification of model and kraft lignin two bacteria Citrobacter freundii and Serratia marcescens were isolated, screened and applied in axenic and mixed condition. Bacterial mixed culture was found to decolorize 87 and 70 % model and kraft lignin (2000 mg/L), respectively; whereas, axenic culture Citrobacter freundii and Serratia marcescens decolorized 64, 60 % model and 50, 55 % kraft lignin, respectively, at optimized condition (34 °C, pH 8.2, 140 rpm). In addition, the mixed bacterial culture also showed the removal of 76, 61 % TOC; 80, 67 % COD and 87, 65 % lignin from model and kraft lignin, respectively. High pollution parameters (like TOC, COD, BOD, sulphate) and toxic chemicals slow down the degradation of kraft lignin as compared to model lignin. The comparative GC–MS analysis has suggested that the interspecies collaboration, i.e., each bacterial strain in culture medium has cumulative enhancing effect on growth, and degradation of lignin rather than inhibition. Furthermore, toxicity evaluation on human keratinocyte cell line after bacterial treatment has supported the degradation and detoxification of model and kraft lignin.
Highlights
The increasing scarcity of water in the world caused by the steady growth of the population and the industrial development raises serious concerns about the need for appropriate water management practices
The chemical texture of model lignin (ML) and kraft lignin (KL) at same optical density and lignin concentration was quite different in nature, which was noted as pH: 8.2, 8.2; sulphate: 4.7, 211; color: 6700, 6700
Results obtained for comparative degradation of ML and KL through GC–MS analysis of the ethyl extracted products showed the massive consumption of compounds as compared to their respective controls (Fig. 3)
Summary
The increasing scarcity of water in the world caused by the steady growth of the population and the industrial development raises serious concerns about the need for appropriate water management practices. The pulp paper mills are water-intensive industries generating several types of wastewater with different characteristics, depending on the production process and its raw material. The color of pulp paper wastewater is mainly due to lignin and its derivatives, which causes various problems along with aesthetically unacceptable intense coloring of water bodies, which block the passage of light to the lower depths of the aquatic system resulting in cessation of photosynthesis, leading to anaerobic conditions, which in turn result in the death of aquatic life causing foul smelling and toxicity of waters bodies (Ali and Sreekrishnan 2001) Several physical and chemical methods are available for the treatment of wastewater, they are less desirable than biological process because of cost-ineffectiveness and residual effect (Singhal and Thakur 2009)
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