The Development Of Biotechnology in Poland
In: Maximizing the Security and Development Benefits from the Biological and Toxin Weapons Convention, S. 273-276
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In: Maximizing the Security and Development Benefits from the Biological and Toxin Weapons Convention, S. 273-276
In: The Implementation of Legally Binding Measures to Strengthen the Biological and Toxin Weapons Convention; NATO Science Series II: Mathematics, Physics and Chemistry, S. 243-247
Rapeseed is an essential crop which is used in many different areas as edible oil, biodiesel, lubricant, and feed. It is one of the most popular oil crops in Europe (63% of oilseeds production in 2017). The current study highlights the potential for further rapeseed development in European Union (EU), with special emphasis on Germany (19% of EU production) and Poland (12% of EU production). The study focused on three factors: cultivation area, volume of production and the numbers of Intellectual Property Rights (IPR), particularly patents granted for rapeseed or rapeseed-related inventions and plant variety rights. Possible further obstacles to development, such as current legal framework, were also taken under consideration. The analyzed statistical data shows that both the cultivation area, as well as the volume of production of rapeseed fluctuated in the last decade in both examined countries, while the numbers for European patent publications and Community Plant Variety Rights showed a rising trend, indicating investments in the Research and Development (R&D) of the crop. The data analysis seems to confirm a hypothesis that there is a potential for the development of rapeseed as a versatile, multi-use crop; however, the current EU GMO policies and a legal uncertainty as to the status of products of certain modern gene editing techniques may hamper making optimal use of this potential.
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Bioeconomy, biotechnology and genetically-modified organisms in particular have been the subject of discussion for a long time. Biotechnology is applied in a variety of economic areas which include biopharmaceuticals, biobased products and agriculture. During the last 20 years, innovative biotechnological techniques for plant genome improvement have been developed. Many factors worldwide have led to the status quo : different legislations around the world, the lack of public acceptance in the EU and high expectations for new strategies for sustainability and food security. Therefore, a clear regulatory status for new techniques is crucial for research and development, as well as for their practical implementation. This should be based on solid science which plays a critical role in developing the bioeconomy. ; This paper was partially supported by both the Polish Ministry of Science and Higher Education within the KNOW program and a grant for young scholars as well as the Polish Ministry of Agriculture and Rural Development within the multiannual program 2015-2020. ; Peer reviewed
BASE
Bioeconomy, biotechnology and genetically-modified organisms in particular have been the subject of discussion for a long time. Biotechnology is applied in a variety of economic areas which include biopharmaceuticals, biobased products and agriculture. During the last 20 years, innovative biotechnological techniques for plant genome improvement have been developed. Many factors worldwide have led to the status quo: different legislations around the world, the lack of public acceptance in the EU and high expectations for new strategies for su-stainability and food security. Therefore, a clear regulatory status for new techniques is crucial for research and development, as well as for their practical implementation. This should be based on solid science which plays a critical role in developing the bioeconomy.
BASE