Production of Biopolymer from Bacteria - A Review

Polyhydroxyalkanoates (PHA) producers have been found in a variety of ecological niche’s that are naturally or unintentionally exposed to high organic matter or growth limiting substances such as dairy wastes, hydrocarbon contaminated sites, pulp and paper mill wastes, agricultural wastes, activated sludges of treatment plants, rhizosphere, and industrial effluents. Few of them also create extracellular byproducts such as rhamnolipids, extracellular polymeric compounds, and biohydrogen gas. These microbes can use waste materials of various origin as substrates while producing valuable bioproducts such as PHB. As a result, these microbes are industrially important candidates for production; Implementation of an integrated system to separate their by-products (intracellular and extracellular) could be an economical method. In this study, we reviewed several microorganisms that live in diverse environmental situations and are stimulated to collect carbon as polyhydroxyalkanoates granules, as well as variables that influence their production and composition. Ultimately, the current cost of bioplastic manufacture from stored PHA granules can be decreased by investigating capabilities such as dual generation of microorganisms and utilization of wastes as renewable substrate under optimal growth conditions in either a batch or continuous process.

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Biotechnological Production of Polyhydroxyalkanoates: A Review on Trends and Latest Developments

Chinese Journal of Biology ◽

10.1155/2014/802984 ◽

2014 ◽

Vol 2014 ◽

pp. 1-18 ◽

Cited By ~ 41

Author(s):

Baljeet Singh Saharan ◽

Anita Grewal ◽

Pardeep Kumar

Keyword(s):

Extracellular Polymeric Substances ◽

Continuous Process ◽

Industrial Effluents ◽

Paper Mill ◽

Integrated System ◽

Ecological Niches ◽

Pulp And Paper Mill ◽

Biotechnological Production ◽

Dairy Wastes ◽

By Products

Polyhydroxyalkanoates (PHA) producers have been reported to reside at various ecological niches which are naturally or accidently exposed to high organic matter or growth limited conditions such as dairy wastes, hydrocarbon contaminated sites, pulp and paper mill wastes, agricultural wastes, activated sludges of treatment plants, rhizosphere, and industrial effluents. Few among them also produce extracellular by-products like rhamnolipids, extracellular polymeric substances, and biohydrogen gas. These sorts of microbes are industrially important candidates for the reason that they can use waste materials of different origin as substrate with simultaneous production of valuable bioproducts including PHA. Implementation of integrated system to separate their by-products (intracellular and extracellular) can be economical in regard to production. In this review, we have discussed various microorganisms dwelling at different environmental conditions which stimulate them to accumulate carbon as polyhydroxyalkanoates granules and factors influencing its production and composition. A brief aspect on metabolites which are produced concomitantly with PHA has also been discussed. In conclusion, exploring of capabilities like of dual production by microbes and use of wastes as renewable substrate under optimized cultural conditions either in batch or continuous process can cause deduction in present cost of bioplastic production from stored PHA granules.

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Options for the conversion of pulp and paper mill by-products in Western Canada

Sustainable Energy Technologies and Assessments ◽

10.1016/j.seta.2017.10.003 ◽

2018 ◽

Vol 26 ◽

pp. 83-92

Author(s):

Maryam Akbari ◽

Adetoyese Olajire Oyedun ◽

Siddharth Jain ◽

Amit Kumar

Keyword(s):

Paper Mill ◽

Pulp And Paper ◽

Western Canada ◽

Pulp And Paper Mill ◽

By Products

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Anaerobic treatment of pulp and paper mill effluents – status quo and new developments

Water Science & Technology ◽

10.2166/wst.2007.232 ◽

2007 ◽

Vol 55 (6) ◽

pp. 223-230 ◽

Cited By ~ 13

Author(s):

Leo Habets ◽

Willie Driessen

Keyword(s):

Paper Industry ◽

Industrial Effluents ◽

Paper Mill ◽

Anaerobic Treatment ◽

Pulp And Paper ◽

Pulp And Paper Mill ◽

Widespread Application ◽

Paper Mills ◽

Paper Mill Effluents ◽

Pre Treatment

Since the early 1980s, anaerobic treatment of industrial effluents has found widespread application in the pulp and paper industry. Over 200 installations are treating a large variety of different pulp and paper mill effluents. Amongst various anaerobic systems the UASB and IC are the most applied anaerobic reactor systems. Anaerobic treatment is well feasible for effluents originated from recycle paper mills, mechanical pulping (peroxide bleached), semi-chemical pulping and sulphite and kraft evaporator condensates. The advantages of anaerobic pre-treatment are (1) net production of renewable energy (biogas), (2) minimized bio-solids production, (3) minimal footprint and (4) reduced emission of greenhouse gases. Via in-line application of anaerobic treatment in closed circuits (paper kidney technology) further savings on cost of fresh water intake and effluent discharge levies are generated.

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Effects of cellular stress on pigment production in Rhodotorula mucilaginosa/alborubescens AJB01 strain from the Caribbean region of Colombia

10.1101/2020.05.20.107201 ◽

2020 ◽

Cited By ~ 2

Author(s):

Alejandra Garcia Cortes ◽

Julián Andres Garcia Vásquez ◽

Yani Cristina Aranguren Díaz ◽

Mauricio Ramirez Castrillón

Keyword(s):

Uv Light ◽

Light Stress ◽

Industrial Effluents ◽

Optimal Growth ◽

Growth Conditions ◽

Caribbean Region ◽

Rhodotorula Mucilaginosa ◽

Carcinogenic Effects ◽

The Caribbean ◽

Cellular Stresses

ABSTRACTConsidering that a large proportion of industrially used pigments are toxic and potentially mutagenic, with some having carcinogenic effects, it is essential to replace them as well as eliminate them from industrial effluents. The discovery of biopigments has received considerable attention from the industry sector. The main objective of this study was to increase the production of carotenoid pigments in naturally pigmented yeast by subjecting the yeast to various cellular stresses. The fungal strain Rhodotorula mucilaginosa/alborubescens AJB01 was isolated from a food sample collected in Barranquilla, Colombia, and one of the pigments produced was β-carotene. This strain was subjected to various stress conditions, including osmotic stress using different salts, physical stress by ultraviolet (UV) light, and light stress using different photoperiods. The optimal growth conditions for carotenoid production were determined to be 1 min of UV light, 0.5 mg/L of magnesium sulfate, and 18:6 h light/dark period, which resulted in a carotenoid yield of 118.3 μg of carotenoid per gram of yeast.

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Improvement of COD Elimination in Activated Sludge Treatment Plant for Pulp and Paper Mill Waste Waters

Water Science & Technology ◽

10.2166/wst.1988.0015 ◽

1988 ◽

Vol 20 (1) ◽

pp. 121-132 ◽

Cited By ~ 2

Author(s):

C. H. Möbius

Keyword(s):

Activated Sludge ◽

Treatment Plant ◽

Industrial Effluents ◽

Paper Mill ◽

Operating Conditions ◽

Waste Waters ◽

Pulp And Paper Mill ◽

Sludge Treatment ◽

Paper Mill Waste ◽

Mill Waste

In recent years, authorities have issued more stringent COD regulations for industrial effluents in addition to BOD limitations. Optimization of operation in the activated sludge treatment plant can be an effective way to meet those regulations without increasing treatment cost. A well dimensioned aerobic or anaerobic plus aerobic treatment plant for pulp or paper mill waste waters is capable of reducing BOD effluent concentrations to values below 25 mg/l. If the aerobic plant is just big enough to meet this limit, COD elimination will be found to be in a certain ratio to BOD elimination, which has become well known in recent years. If this COD elimination is not sufficient to meet official requirements for COD concentration in the effluent, improvement of COD elimination by optimizing the operating conditions of the activated sludge plant may be possible. Lowering BOD sludge loading and increasing hydraulic retention time to more than 8 hours generally are the ways to do this. Concentration of dissolved oxygen has no effect on COD elimination above 1 mg/l. The best COD elimination can be obtained in optimized aeration cascade reactors and two stage aeration reactors.

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