This report provides:
Introduction
Study Background
A microbe is a minute living organism, such as a bacterium, yeast, or fungus. The first commercial applications of microbes date back to around 1750 BC, when the ancient Sumerians used yeast to brew beer. Microbes were used for centuries to produce bread, wine, vinegar and other common products—without anyone knowing the scientific basis for the ingredient.
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The systematic study of microbes began in the 17th century with the work of scientists like Antonie Van Leeuwenhoek and Robert Hooke. However, the discipline known today as microbiology was not established until the late 19th century through the work of pioneers like Louis Pasteur, Robert Koch, Martinus Beijerinck and Sergei Winogradsky.
The technology related to microbial production of metabolites such as ethanol, lactic acid, butanol, riboflavin, etc. and enzymes such as protease, amylase and invertase were developed as early as the first few decades of the 20th century. Large-scale production of the antibiotic penicillin from Penicillium fungi was perfected during World War II and the microbial production of other antibiotics, amino acids, nucleotides, enzymes and such soon followed.
Today, genetically engineered microbes are used for the commercial production of nonmicrobial products such as insulin, interferon, human growth hormone and viral vaccines. Microbes are also used to produce energy (e.g., biodiesel and bioethanol) and to clean up environmental pollutants such as sewage and oil spills. As the active ingredient in biofertilizers and biopesticides, microbes contribute to increasing agricultural productivity, and microbes form the basis of cost-effective methods of mining and metallurgy
Study Goals and Objectives
Yet all this seems to be only the beginning: The commercial possibilities of microbes are seemingly endless. However, intuition alone tells us that not all of these technological possibilities are likely to become commercial realities.
This report is an update of an earlier report published in 2011. Its goal is to survey microbial applications in a wide range of fields based on the most recent data, identify the applications that appear to have significant commercial potential in the near- to mid-term and to develop quantitative estimates of their current and/or future sales.
The updated report’s specific objectives support this broad goal. These objectives include identifying microbial technologies and applications that have the greatest commercial potential in the 2013 through 2018 time frame, identifying market drivers, evaluating obstacles to their successful commercialization, and projecting future sales of each application.
Scope and Format
This report addresses the global market for microbes and microbial products used in commercial applications during the period from 2012 through 2018. These applications include agricultural, healthcare, manufacturing, energy and environmental applications.
Viruses are sometimes classified as microbes, but this report excludes them because they are non-living.
The format of this study includes the following major elements:
Both primary and secondary research methodologies were used in preparing this study. The findings and conclusions of this report are based on information gathered from developers, vendors, and users of microbial products for commercial applications. Interview data were combined with information gathered through an extensive review of secondary sources such as trade publications, trade associations, company literature, and online databases to produce the baseline market estimates contained in this report.
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The base year for analysis and projection is 2012. With 2012 as a baseline, market projections were developed for 2013 through 2018. The projections are based on a combination of a consensus among the primary contacts combined with understanding of the key market drivers and their impact from a historical and an analytical perspective.
The specific assumptions and the approach used to develop the projections (both near/mid-term and long term) for each application are documented in detail under the various segments addressed. This way, readers can see how the market estimates were developed and, if they so desire, can test the impact on the final numbers of changing assumptions regarding matters such as the date of regulatory approval.
All dollar projections presented in this report are in 2012 constant dollars.
Get a copy of this report @ http://www.rnrmarketresearch.com/microbial-products-technologies-applications-and-global-markets-market-report.html
- An overview of the global market for microbes and microbial products.
- Analyses of global market trends, with data from 2012, estimates for 2013, and projections of compound annual growth rates (CAGRs) through 2018.
- Identifications of microbial applications in a wide range of fields, the applications and end uses that appear to have significant commercial potential in the near to mid-term, and quantitative estimates of their current and/or future sales.
- Examination of market drivers, regulations, and recent technological developments.
- Comprehensive company profiles of major players.
Introduction
Study Background
A microbe is a minute living organism, such as a bacterium, yeast, or fungus. The first commercial applications of microbes date back to around 1750 BC, when the ancient Sumerians used yeast to brew beer. Microbes were used for centuries to produce bread, wine, vinegar and other common products—without anyone knowing the scientific basis for the ingredient.
Request a copy of this report @ http://www.rnrmarketresearch.com/contacts/request-sample?rname=110131
The systematic study of microbes began in the 17th century with the work of scientists like Antonie Van Leeuwenhoek and Robert Hooke. However, the discipline known today as microbiology was not established until the late 19th century through the work of pioneers like Louis Pasteur, Robert Koch, Martinus Beijerinck and Sergei Winogradsky.
The technology related to microbial production of metabolites such as ethanol, lactic acid, butanol, riboflavin, etc. and enzymes such as protease, amylase and invertase were developed as early as the first few decades of the 20th century. Large-scale production of the antibiotic penicillin from Penicillium fungi was perfected during World War II and the microbial production of other antibiotics, amino acids, nucleotides, enzymes and such soon followed.
Today, genetically engineered microbes are used for the commercial production of nonmicrobial products such as insulin, interferon, human growth hormone and viral vaccines. Microbes are also used to produce energy (e.g., biodiesel and bioethanol) and to clean up environmental pollutants such as sewage and oil spills. As the active ingredient in biofertilizers and biopesticides, microbes contribute to increasing agricultural productivity, and microbes form the basis of cost-effective methods of mining and metallurgy
Study Goals and Objectives
Yet all this seems to be only the beginning: The commercial possibilities of microbes are seemingly endless. However, intuition alone tells us that not all of these technological possibilities are likely to become commercial realities.
This report is an update of an earlier report published in 2011. Its goal is to survey microbial applications in a wide range of fields based on the most recent data, identify the applications that appear to have significant commercial potential in the near- to mid-term and to develop quantitative estimates of their current and/or future sales.
The updated report’s specific objectives support this broad goal. These objectives include identifying microbial technologies and applications that have the greatest commercial potential in the 2013 through 2018 time frame, identifying market drivers, evaluating obstacles to their successful commercialization, and projecting future sales of each application.
Scope and Format
This report addresses the global market for microbes and microbial products used in commercial applications during the period from 2012 through 2018. These applications include agricultural, healthcare, manufacturing, energy and environmental applications.
Viruses are sometimes classified as microbes, but this report excludes them because they are non-living.
The format of this study includes the following major elements:
- Summary.
- Definitions.
- Description of microbes.
- End uses and applications of microbes.
- Regulation.
- Recent technological developments.
- Market size and segmentation, 2012 to 2018.
- Company profiles.
- Key patents.
Both primary and secondary research methodologies were used in preparing this study. The findings and conclusions of this report are based on information gathered from developers, vendors, and users of microbial products for commercial applications. Interview data were combined with information gathered through an extensive review of secondary sources such as trade publications, trade associations, company literature, and online databases to produce the baseline market estimates contained in this report.
Purchase a copy of this report @ http://www.rnrmarketresearch.com/contacts/purchase?rname=110131
The base year for analysis and projection is 2012. With 2012 as a baseline, market projections were developed for 2013 through 2018. The projections are based on a combination of a consensus among the primary contacts combined with understanding of the key market drivers and their impact from a historical and an analytical perspective.
The specific assumptions and the approach used to develop the projections (both near/mid-term and long term) for each application are documented in detail under the various segments addressed. This way, readers can see how the market estimates were developed and, if they so desire, can test the impact on the final numbers of changing assumptions regarding matters such as the date of regulatory approval.
All dollar projections presented in this report are in 2012 constant dollars.
Get a copy of this report @ http://www.rnrmarketresearch.com/microbial-products-technologies-applications-and-global-markets-market-report.html
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