21. Agricultural Biotechnology - Market Size, Market Share, Demand Forecast, Sales, agricultural biotechnology OVERVIEW general Technology Review Transformation Transgenic Technologies Other agricultural Biotechnologies Research http://www.freedoniagroup.com/Agricultural-Biotechnology.html

Agricultural Biotechnology to 2006 - Market Size, Market Share, Demand Forecast and Sales Study #: 1583 Published: 08/2002 Pages: 241 Full Study Price: US$ 3,900 Per Page Price: US$ 30.00 Agricultural Biotechnology - Market Size, Market Share, Demand Forecast, Sales, Company Profiles, Market Research, Industry Trends US sales of agricultural biotechnology products will grow 5.8 percent yearly through 2006. Transgenic seeds and crops will remain dominant, led by insect-protected and/or herbicide-tolerant corn and soybeans. Longer-term gains will be driven by transgenic wheat and rice seeds, transgenic plant and animal factories, porcine somatotropin, and DNA-based plant diagnostics. This study analyzes the $2.1 billion US agricultural biotechnology industry. It presents historical data (1996, 2001) and forecasts to 2006 and 2011 by product (e.g., transgenic seeds and plants, animal growth hormones, biopesticides, agricultural diagnostics, transgenic livestock, forestry products, aquaculture, transgenic plant factories); by end-use application (e.g., crop protection, livestock health promotion, crop enhancement, chemical production); and by market. The study also examines the market environment, reviews technology, details industry structure and market share, and profiles 33 companies including Monsanto, DuPont, Syngenta, Delta and Pine Land, and Bayer CropScience.

22. World Agricultural Biotechnology: Transgenic Seeds - Market Size, Market Share, CHINA general Total Acreage Transgenic Acreage Transgenic Seed Sales AgriculturalBiotechnology Companies X. OTHER WORLD general Total Acreage Transgenic http://www.freedoniagroup.com/World-Agricultural-Biotechnology--Transgenic-Seeds

World Agricultural Biotechnology: Transgenic Seeds to 2006 - Market Size, Market Share, Demand Forecast and Sales Study #: 1532 Published: 03/2002 Pages: 266 Full Study Price: US$ 4,800 Per Page Price: US$ 30.00 World Agricultural Biotechnology: Transgenic Seeds - Market Size, Market Share, Demand Forecast, Sales, Company Profiles, Market Research, Industry Trends World demand for transgenic seeds will grow 12 percent annually through 2006. The US, Argentina, Canada and China will continue to dominate transgenic crop cultivation. Genetically modified (GM) soybeans, corn and cotton will remain the leading seeds, with GM rice to be introduced in 2003 and expected to reach US$1.3 billion in sales by 2011. This study analyzes the $2.2 billion world agricultural biotechnology industry. It presents historical data (1996, 2001) and forecasts to 2006 and 2011 by transgenic crop and plant (e.g., soybeans, corn, cotton, canola, rice, wheat); by function (e.g., herbicide tolerance, insect protection, stacked traits); and by key country (e.g., US, Argentina, Canada, China, Brazil, South Africa, Mexico, India, Indonesia). The study also examines the global transgenic crop market environment, details industry structure and company market share, and profiles 21 industry competitors including Aventis CropScience, Delta, Pine Land, DuPont, Monsanto, and Syngenta.

23. CAST Biotechnology Communications Informative about agricultural and general biotechnology. Texas biotechnologyEducation Training Project Texas A M University. http://www.cast-science.org/cast/biotech/biot-resources.htm

This list of biotechnology education resources was prepared by CAST intern Hillary Smith and reviewed by the CAST Biotechnology Advisory Committee. Teacher Tools: Lesson Plans, Lab Experiments, Classroom Demonstrations, and More Ag Biotech InfoNet , Ag InfoNet, Inc. This page is a section of Ag Biotech InfoNet that provides information resources for students' projects and teachers' lesson plans. BioChem Links Bio Online , Bio Online, Inc. This site provides more than 50 resources with lesson plans, pictures, and informational material. Biotechnology Education Initiative , The Ohio State University. This site provides resources for Ohio science teachers and gives links to other biotechnology sites and general information. Biotechnology Australia , Commonwealth Government Initiative. This page is maintained by the Australian government the education section features simple teaching tools and is being expanded to include lesson plans. DNA From the Beginning , Josiah Macy, Jr. Foundation. This site explains the science behind DNA through images, interviews, and links. Eisenhower National Clearinghouse , The Ohio State University and the U.S. Department of Education. Lesson plans are available on biotechnology and other science topics; the lesson plans are accompanied by laboratory experiments and demonstrations.

24. CAST Biotechnology Communications the recent scientific developments that underpin modern biotechnology and a when theseare applied to agricultural crops paper is intended for a general audience http://www.cast-science.org/cast/biotech/

Biotechnology Communications Biotechnology Communicators Find experts in: Animal Biotech Plant Biotech Food Safety, Risk and Education Environmental Safety and Risks ... Economics and Trade Publications on Biotechnology Biotechnology in Animal Agriculture: An Overview Comparative Environmental Impacts of Biotechnology-derived and Traditional Soybean, Corn, and Cotton Crops Evaluation of the U.S. Regulatory Process for Crops Developed through Biotechnology Applications of Biotechnology to Crops: Benefits and Risks ... CAST Position Statement Events ABA Biotechnology Roundtable Summaries CAST Biotechnology Communications Coordinator Cindy Lynn Richard, CIH 505 Capitol Ct., NE, Suite 200, Washington, DC 20002-4937, USA, phone: 202-675-8333, fax: 202-675-8334, crichard@cast-science.org CAST Web Site CAST News Scientific Society Position Statements AACC APS IFT AIC ... SIVB Biotechnology in Animal Agriculture: An Overview Written by a task force of nine scientists, this issue paper summarizes existing and emerging technologies and assesses their current and potential impacts. The authors suggest that research on biotechnology in animal production is leading to breakthroughs on many fronts. This paper is the first in a 9-part series on the topic "Animal Agriculture's Future through Biotechnology." Among the issues this paper addresses are uses in human and veterinary medicine; uses in animal production; vaccine development; food safety; environmental impacts; and ethical considerations of animal biotechnology. Chair: Terry D. Etherton, Pennsylvania State University. IP 23, February 2003, 12 pp., $5.00 (Price includes shipping.)

25. AgBioForum 2(1): Exploring The Public's Role In Agricultural Biotechnology Resea the history of market application of biotechnology, in general, has involved Relativeto agricultural biotechnology, an important role of publicly supported http://www.agbioforum.org/v2n1/v2n1a06-sonka.htm

Volume 2 // Number 1 // Article 6 Back Issues Exploring The Public's Role In Agricultural Biotechnology Research Steven Sonka and Steven Pueppke University of Illinois The potential for market failure resulting from under-investment in research is one justification for public agricultural research. This justification seems less germane given recent developments regarding intellectual property protection and the size of private biotechnology firms. This article explores an alternative justification for public support of biotechnology research in agriculture. Key words: biotechnology; public research support; innovation; market failure. As noted in previous issues of AgBioForum , the introduction of biotechnology into agricultural systems has generated considerable interest and controversy, both within the agricultural community and in society at large. Many are optimistic that biotechnology will trigger economic growth and forestall world hunger, but others see the potential for disruptions to the environment and even ecological tragedy. Intertwined with these uncertainties are less visible questions regarding the appropriate levels of public research support for agricultural biotechnology. Even among those who are confident that biotechnology will be beneficial for agriculture, there is real uncertainty about the role of public investment as these technologies evolve. Several times this winter, we have heard farmers and other representatives of the agricultural sector raise this kind of question: "With the vast resources that the major biotechnology companies are investing in agriculture, why should the public sector be trying to compete?"

26. Food And Agricultural Biotechnology: Incorporating Ethical Considerations be raised in connection with risk analysis, and most of them arise to some degreein applying this general framework to food and agricultural biotechnology. http://www.agriculture.purdue.edu/agbiotech/Thompsonpaper/Thompson3.html

Food and Agricultural Biotechnology: Incorporating Ethical Considerations by Paul Thompson Home General Technological Ethics The 20 th century was a time of unsurpassed technological progress, but it was also a time in which humanity learned that technological changes bring unintended social and environmental consequences. The German philosopher Hans Jonas is generally credited with first recognizing the need for a systematic method of anticipating and evaluating technology. Jonas (1984) understood that this would depart from traditional ethics in that technology has impacts that extend indefinitely in space and time. Jonas argued that technological ethics must integrate science-based attempts to understand the systematic and temporally distant effects of technology with ethical concepts attuned to the fact that many of the people who will be affected by technology will not be known to those who plan and execute a technological practice. Even this short statement suggests that there are many ethical issues that can be raised in connection with risk analysis, and most of them arise to some degree in applying this general framework to food and agricultural biotechnology. Some of the most difficult problems arise simply in organizing the issues. In the literature that has already been generated on agricultural biotechnology, there are five general categories in which the products and processes of rDNA have been alleged to have impact: 1) impact on the environment; 2) impact on humans (including food safety); 3) impact on non-human animals; 4) impact on farming communities in the developed and developing world; and 5) shifting power relations (e.g. the rising importance of commercial interests and multinationals). After discussing each of these topics in this section, I will discuss three general ethical issues or responses to the problems in the succeeding section.

27. Food And Agricultural Biotechnology: Incorporating Ethical Considerations public basis for constraining or regulating the practice of food and agriculturalbiotechnology. the ethical issue that is raised here is a general concern of http://www.agriculture.purdue.edu/agbiotech/Thompsonpaper/Thompson2.html

Food and Agricultural Biotechnology: Incorporating Ethical Considerations by Paul Thompson Home Special Arguments Pertaining to the Use of rDNA Technology Straughan (1995) and Comstock (1998) review a series of ways to extend the claim that gene technology is unnatural into a more substantive ethical argument for regulating or restricting crop biotechnology. The general problem is that while, in one sense, all forms of modern technology are unnatural, no one has succeeded in articulating a principled way of stating why the unnaturalness associated with the manipulation of DNA is unethical, while ordinary plant and animal breeding, computers and modern transport are not. More persuasive extensions of the claim that gene technology is unnatural cite environmental risks, but with this argument there is no need to attribute special ethical significance to the fact that DNA has been manipulated. Any technology can be evaluated ethically with respect to its environmental risks. Manipulation of DNA may or may not create unique opportunities for environmental impacts, but that is an empirical, not an ethical, question. The ethical significance of environmental risks will be discussed below. 2.1 Genes and essences.

28. Reading Rooms - The National Agricultural Law Center Resources Seeds of Opportunity Plant Genomics and agricultural biotechnology (USHouse Committee Print) Reports on biotechnology (general Accounting Office http://www.nationalaglawcenter.org/readingrooms/biotechnology/

/* contains all tags and class definitions for public content styles. */ @import "/link/dom_content.css"; /* contains all id and class definitions for document layout. Optional hide for printing. */ @import "/link/dom_layout.css"; Home Page About the Center Reading Rooms Research Publications ... Decisions Biotechnology Overview A uniformly accepted definition of biotechnology does not exist. Under the broadest definition, the use of biological sciences to develop products, conventional plant and animal breeding techniques, conducted since the dawn of civilization, fall under biotechnology. In the popular press, biotechnology generally refers to newly-developed scientific methods used to create products by altering the genetic makeup of organisms and producing unique individuals or traits that are not easily obtained through conventional breeding techniques. These products are often referred to as transgenic, bioengineered, or genetically modified because they contain foreign genetic material. Agriculture is one of the first industries radically affected by this new technology on both a fundamental production level and a legal level. Read the full overview Major Statutes Plant Protection Act Plant Variety Protection Act Plant Patent Act Regulations Genetically Engineered Plant Pest Regulations Plant Incorporated Protectant Regulations Plant Variety and Protection Regulations Federal Register Rules Open for Comment Center published Federal Register Digest Case Law Case Summaries from the National AgLaw Reporter

29. Agricultural Biotechnology On The Web brochures, resources, and general information on food testimony on biotechnology regulatoryissues the transfer of agricultural biotechnology applications from http://www.ucsusa.org/food_and_environment/biotechnology/page.cfm?pageID=804

30. BITN. Core Topic: Agricultural Biotechnology (GM Foods) And Gene Therapy note that this issue is not restricted to GMOs, but is a general concern. * Harveston the Horizon Future Uses of agricultural biotechnology (September 2001 http://www.geocities.com/Athens/Thebes/5118/bitn/br_c3.htm

Biotechnology in the News (BITN) Core topic: Agricultural biotechnology (GM foods) and Gene therapy Introduction Agricultural biotechnology (GM food) Gene therapy Miscellaneous (other books, web sites, comments) ... Bottom of page; return links and contact information Introduction Why are GM foods and gene therapy shown as one topic? Because they are fundamentally the same. Both involve the intentional and directed modification of an organism's genome. In general, one might carry out such a modification either by changing a gene within the organism, or by delivering a new gene to the organism. In the latter case, the new gene may either replace an original version of the gene that was within the organism, or may add into the genome. You might suggest that delivering a new gene, which then replaces the original, would be considered changing the original gene. Fair enough. But there also are procedures being considered that result in changing a gene without delivery/replacement in the usual sense, so there is still some distinction worth keeping. Most work on genetic modification of higher organisms is currently done by adding a gene, rather than changing or replacing.

31. Agricultural Biotechnology, UM Libraries general Reference Sources. Several campus libraries have excellent reference sourcesto help you with your search for information on agricultural biotechnology. http://www.lib.umd.edu/MCK/GUIDES/ag_biotech.html

Guides to Info. Resources Agriculture and Natural Resources Agricultural Biotechnology Scope: Biotechnology the use of genetically engineered organisms is being applied to major aspects of agriculture including the development of food crops and livestock, as well as enhancing the nutritional quality of foods and reducing the need for toxic pesticides and herbicides. This is a selective guide to campus library resources on Agricultural Biotechnology. Email the subject area specialist at Bethr (@umd.edu) or call (301)405-9666 for more information. Table of Contents Locating References Using the Catalog Bibliographies and Government Documents Directories and General Reference Sources Indexes and Abstracts ... Introductions to Agricultural Biotechnology Locating References Using the library Catalog To locate books, search the library's Catalog . Books can be searched by subject, author, title and more. Examples of words and terms you may wish to use to retrieve books on the subject of agricultural biotechnology are: Agricultural Biotechnology Animal Breeding Animal Genetic Engineering Animal Genetics Biotechnology Crops - Genetic Engineering Field Crops - Genetics Genetics Livestock Breeding Livestock Genetic Breeding Plant Biotechnology Plant Breeding Plant Genetic Enginering Plant Genetics Academic Search and other periodical indexes are available from the Libraries' Home Page.

32. Agricultural Biotechnology GG Khachatourians, DK Arora general Fungi biotechnology agricultural biotechnology Food Science Medical / Nursing Medical Microbiology . http://topics.practical.org/browse/Agricultural_Biotechnology

topics.practical.org Agricultural Biotechnology Agricultural Biotechnology: Challenges and Prospects (Acs Symposium Series, 866) Mahesh K. Bhalgat William P. Ridley Allan S. Felsot ... Agriculture - Agronomy

33. Accounting,Accounting Other,Accounting Technician,Acting And agricultural Supplies Retailing And Wholesaling, Agriculture andoragricultural Sciences general, Art general, biotechnology Research, http://www.universities.com/Search/Degrees/Undergraduate_less-than-4-year_certif

Colleges and universities. go to Home Have you considered distance learning Schools United States Programs ... Undergraduate Less-than-4-year certificate choose a degree : Accounting Accounting Other Accounting Technician Acting and Directing ... Womens Studies Featured online schools: Walden University Kennedy-Western University University of Phoenix Online

34. Accounting,Accounting Other,Accounting Technician,Acting And Agriculture andor agricultural Sciences general, Agriculture and-or agriculturalSciences Other, Biostatistics, biotechnology Research, Botany general, http://www.universities.com/Search/Degrees/Masters_degree/

Colleges and universities. go to Home Have you considered distance learning Schools United States Programs ... Master's degree choose a degree : Distance Learning Master's Degrees Accounting Accounting Other Accounting Technician ... Zoology General Featured online schools: Walden University Kennedy-Western University University of Phoenix Online

35. Agricultural Sciences Major agricultural biotechnology Option (18 credits). Required courses (9 credits). FDSC535, Food biotechnology, 3. Suggested sequence of courses (general option). Year 1. http://www.mcgill.ca/plant/undergraduate/general/

var GJSBrowserName = 'Unknown'; var mcgilllogo_Off = new Image(119,29); mcgilllogo_Off.src = "http://upload.mcgill.ca/global/new_options/mcg_0.gif"; var mcgilllogo_On = new Image(119,29); mcgilllogo_On.src = "http://upload.mcgill.ca/global/new_options/mcg_1.gif"; var SectLink_Off = new Image(136,53); SectLink_Off.src = "http://upload.mcgill.ca/global/sections/sectionlink501_en_0.gif"; var SectLink_On = new Image(136,53); SectLink_On.src = "http://upload.mcgill.ca/global/sections/sectionlink501_en_1.gif"; Prospective students Student information ... Larger Smaller Sign in Department of Plant Science Faculty and staff Graduate programs ... Botanical Science Major Agricultural Sciences Major Internship major Environmetrics Food Production and Environment Student mobility ... Contact us New Program!!! Agricultural Sciences Internship Click here for more information. Agricultural Sciences Major Academic Advisor: Professor Katherine McClintock Department of Plant Science Rm R2-026a Raymond Building Macdonald Campus Ste. Anne de Bellevue, Quebec H9X 3V9

36. SENIOR EXECUTIVE RECRUITING FOR AGRIBUSINESS AND AGRICULTURAL BIOTECHNOLOGY of biotechnology research and development. The successful candidate was the VicePresident and general Manager of a high technology agricultural products http://www.gottfriedinternational.com/seniorexecrecruitingAGRIBUSINESS.htm

Providing Quality Service and Value to Our Clients Worldwid e Home Primary Goals Biotechnology Gottfried Capital Senior Executive Recruiting for the Commercial Space Technology Industry, Representative Search Assignments Senior Executive Recruiting for the International Oil and Gas Industry, Representative Search Assignments Senior Executive Recruiting for Agribusiness and Agricultural Biotechnology, Representative Assignments Educational Initiatives Contact History/Biographical Information SENIOR EXECUTIVE RECRUITING FOR AGRIBUSINESS AND AGRICULTURAL BIOTECHNOLOGY, REPRESENTATIVE ASSIGNMENTS Vice President of Business Development for a leading plant science company, backed by well known venture capital firms and corporate partners in the U.S. and Europe, focused on commercializing improved foods and food ingredients through discoveries of superior genetic traits in plants. The successful candidate served earlier in his career as Vice President of Business Development, and as a Member of Boards of Directors, for leading agricultural biotechnology companies. Vice President of Sales and Marketing for the U.S. operating division of a fully integrated and international market leader in supply chain management of new and niche plant derived products for the industrial chemical, dietary supplement, nutrition, specialty foods, pharmaceutical, and personal care markets. Our client is one of the oldest seed and specialty crop businesses worldwide. We are seeking a high level business development executive with extensive experience in marketing specialty plant derived products to our client’s target markets in the U.S.

37. BioFirst > Applications > Agriculture information about plants with novel traits, including genetically engineered cropspecies, and other general agricultural biotechnology related information. http://www.biofirst.nsw.gov.au/applications/agriculture.asp

Premier's Message Committees Lead Agencies Contact Us ... Agriculture Agriculture Biotechnology has the potential to make agricultural activities more efficient and environmentally friendly The application of biotechnology techniques to primary production can help Australia to maintain and improve existing production efficiency and therefore our share of world markets, through: increased productivity and yield; more efficient use of agricultural and veterinary chemicals; savings in energy inputs to farm production; recovery of degraded land; reduced chemical sprays, with less exposure of farm workers; improved food storage and nutritional quality; and improved identification and management of agricultural pests and diseases. NSW Agriculture provides leadership in agricultural research, extension, education and regulation and provision of practical farm production solutions for profitable agriculture and for a better environment. This website provides further information relating to biotechnology in the area of food production, the NSW Government BioFirst Awards, etc. The development of genetically modified crops is a well known area of biotechnology activity. In Australia matters relating to genetically modified organisms are regulated by the Gene Technology Regulator, a position established under Commonwealth legislation.

38. LESSON PLANET - 30,000 Lessons And 240 Lesson Plans For Agricultural Biotechnolo 239 agricultural biotechnology Lesson Plans whose primary goal is todemystify biotechnologyand bring can understand its principles, general techniques, and http://www.lessonplanet.com/search/Science/Environment/Agriculture/Agricultural_

Powered by Over 30,000 Lesson Plans, Teacher Tools and More! All Grades Pre-K K-2 Higher Ed Search the largest directory of lesson plans on the web! Attention Teachers! Join Lesson Planet Today! For only $9.95 (a year) gain full access to Lesson Planet's directory of 30,000+ lesson plans as a Lesson Planet Silver Member! For only $24.95 (a year), become a Gold Member and gain full access to 30,000+ lessons AND our TeacherWebTools suite of online tools (featuring TeacherSiteMaker, Online Storage, NewsletterMaker, LessonMaker and more!) Learn More TeacherWebTools: TeacherSiteMaker NewsletterMaker AssignmentMaker LessonMaker ... Your Account Teacher Web Resources: Current Top Sites Top Site Archives Curriculum Corners Maps Planet ... Agriculture Found Agricultural Biotechnology ' Lesson Plans. Also for ' Agricultural Biotechnology 965 Web Sites 4 Books 2 Software Titles 1 Map ... 4 Supplies * Log in or become a Lesson Planet Member to gain access to lesson plans. Lesson Plans (1 - 10 of 240): Biotech in a Bag - Students carry out a series of experiments using self-locking plastic baggies. Each experiment demonstrates a phenomenon or principle of biotechnology. Grades: Dinosaur and DNA Days - This is a unit on biotechnology whose primary goal is todemystify biotechnology and bring it to the level where a literate citizen can understand its principles, general techniques, and potential applications.

39. EOO - Biotechnology use of agricultural biotechnology products. Located Blacksburg, VA. USGOV NationalCenter for biotechnology Information (NCBI). biotechnology general - US http://www.ekas.org/sites/biotech.html

40. Environmental Law - GP|Solo Magazine - March 2004 - ABA General Practice, Solo A agricultural biotechnology (ag biotech) encompasses plant LMOs that are tied to the mayconclude that the bioengineered product is safe for general consumption http://www.abanet.org/genpractice/magazine/march2004/agricultural.html

GPSolo Magazine - March 2004 Table of Contents Archives of past issues Editorial Board Subscriptions ... Advertising Environmental Law Agricultural Biotechnology, The Environment, And Health By Blake A. Biles In addition to the commercial and regulatory controversies that typically arise, ag biotech brings to the table at least three elements that compound and magnify legal disputes: (1) an evolving and controversial technology that implicates consumer products and choice; (2) health and environmental considerations that are not easily defined and resolved on a consensus basis; and (3) economic and political dimensions presented in an international framework that affects businesses and individuals throughout the world. At the intergovernmental level, strong disagreements among developed nations have been manifested in trade negotiations that may lead to more formal dispute proceedings. The resolution of differences between developed and developing nations is perhaps even more significant to the long-term success of ag biotech because such differences often implicate both financial and social welfare considerations. Thorny and contentious issues of access and benefits-sharing often conflict with the need for commercial entities to protect their intellectual property in the transgenic products and to obtain profits. Moreover, national political and economic interests might weigh against the use of ag biotech products in a way that adversely affects large segments of indigenous populations.

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