Recommended Global Biotechnology Conferences
Summary: PSEB 2018 welcomes attendees, presenters, and exhibitors from all over the world to Vancouver, Canada. We are delighted to invite you all to attend and register for the “4th Global Summit on Plant Science & Environmental Biotechnology” which is going to be held during June 27-28, 2018 at Vancouver, Canada. The organizing committee is gearing up for an exciting and informative conference program including plenary lectures, symposia, workshops on a variety of topics, poster presentations and various programs for participants from all over the world. We invite you to join us at the PSEB 2018, where you will be sure to have a meaningful experience with scholars from around the world. All the members of PSEB 2018 organizing committee look forward to meet you at Vancouver, Canada. It is necessary to focus on Plant Microbiology & Plant Pathology, Plant Nanotechnology, Environmental Biotechnology & its significance, Plant Genetics, Plant Evolution, Plant Physiology and so on.
PSEB 2018 is designed to offer comprehensive range of sessions that includes Plant Biochemistry, Plant Ecology, Plant Genetics, Plant Evolution, Plant Physiology, Plant Hormone, Taxonomy of Plant, Plant anatomy and morphology, Applications of Plant science & its importance , Plant Biotechnology & its tissue culture, Plant Microbiology & Plant Pathology, Plant Nanotechnology, Environmental biotechnology & its significance, Applications of Environmental biotechnology, Bioremediation & Phytoremediation, Benefits of Environmental biotechnology.
The Plant Science and Environmental Biotechnology mainly focus on the study of interactions between plants-microorganisms and the environment and the biotechnological applications of plants and microorganisms in
(a) Sustainable production processes
(b) Production of bioactive molecules
(c) Environmental protection
The major benefits of Plant Science & Environmental Biotechnology to keep our environment safe and clean for the use of the future generations. It helps the organisms to find useful ways of getting adapted to the changes in the environment and keep the environment clean and green. The benefit of environmental biotechnology helps us to avoid the use of hazardous pollutants and wastes that affect the natural resources and the environment. The development of the society should be done in such a way that it helps to protect our environment and also helps us to development it.
According to a research on agricultural biotechnology, the global market for agricultural biotechnology was $29.2 billion in 2016 and it is about to reach $32.1 billion in 2017 and it is expected to reach $53.7 billion in 2022, with a compound annual growth rate (CAGR) of 10.8%.
The global market for botanical and plant-derived drugs was valued at $23.2 billion in 2013 and $24.4 billion in 2014. This total market is expected to reach $25.6 billion in 2015 and nearly $35.4 billion in 2020, with a compound annual growth rate (CAGR) of 6.6% from 2015 to 2020.
A survey of China's plant biotechnologists shows that China is developing the largest plant biotechnology capacity outside of North America. The list of genetically modified plant technologies in trials, including rice, wheat, potatoes, and peanuts, is impressive and differs from those being worked on in other countries. Poor farmers in China are cultivating more area of genetically modified plants than are small farmers in any other developing country. A survey of agricultural producers in China demonstrates that Bacillus thuringiensiscotton adoption increases production efficiency and improves farmer health.
Market Report on Plant Science & Environmental Biotechnology
According to one of famous (Grand View Research) market research, the global biotechnology market size was estimated at USD 369.62 billion in 2016. Presence of room for partnerships in the sector is expected to drive significant progress in the industry. The companies are focusing on the development of novel techniques and their implementation by collaborating with the other participants. Organizations such as the DBT (Department of Biotechnology) together with government funded institutions and other autonomous organizations representing the biotechnology sector promote funding to support R&D and new product development endeavors.
Rise in demand for these therapeutics and diagnostic solutions on principles of red biotechnology, DNA sequencing, and recombinant technology is anticipated to fuel growth. Increasing prevalence of diseases such as hepatitis B, cancer, and other orphan disorders is expected to fuel demand in this space.
Fig: China biotechnology market by application, 2014 - 2025 (USD Billion)
Rise in the demand for food and agricultural products including sugarcane, rice, beans, and wheat owing to the growing population base in U.S., China, and India is expected to raise the importance of these products. In addition, factors such as shortage of water, low yield of crops, pest attacks, and limited availability of agricultural land are encouraging researchers to engage in extensive R&D.
Biotechnology Market, By Regional:
North America dominated the revenue share in 2015 with over USD 137.4 billion owing to growing R&D initiatives by key industry players and rising awareness among public and private research institute. Europe biotechnology market share, along with APAC will show lucrative growth during the coming years due to growing public health and introduction of healthcare benefits by government agencies. The favorable regulatory scenario should propel industry growth in these regions.
- South Africa
- Asia Pacific
- Latin America
- Middle East and Africa (MEA)
Fig: Biotechnology market, by region, 2016 (%)
Biotechnology Market, By Product:
Based on technology, the industry is segmented into tissue engineering and regeneration, fermentation, PCR, Nano-biotechnology, chromatography, DNA sequencing and cell based assay. DNA Sequencing
- Tissue engineering and Regeneration
- Cell Based Assay
- PCR Technology
- Chromatography Market
In 2015, the tissue engineering and regeneration segment accounted for highest revenue and was valued at over USD 104.5 billion. However, the Nano-biotechnology, fermentation and cell based assay segments will experience lucrative growth owing to rising R&D initiatives by various biotechnological and pharmaceutical companies.
· Plant Biochemistry
· Plant Ecology
· Plant Genetics
· Plant Evolution
· Plant Physiology
· Plant Hormone
· Taxonomy of Plant
· Plant anatomy and morphology
· Plant Biotechnology & its tissue culture
· Plant Microbiology & Plant Pathology
· Plant Nanotechnology
· Environmental biotechnology & its significance
· Applications of Environmental biotechnology
· Bioremediation & Phytoremediation
· Benefits of Environmental biotechnology
· Plant Disease
· Plant Nutrition & Soil Science
- Pharmacognosy & Ethnopharmacology
Attendance Profile according to specialization in a Plant Science & Biotechnology Conference:
Figure 2: Attendance profile
Top Plant Science University in Canada & USA:
· University of British Columbia
· University of Calgary
· University of Alberta
· Dalhousie University
· University of Saskatchewan
· University of Guelph
· University of Toronto
· University of Wyoming
· University of Wisconsin–Madison
· Purdue University
· Miami University
· Colorado State University
Top Plant Science Association & Societies in Canada & USA:
· Canadian Botanical Association
· American Society of Plant Biologists: ASPB
· Crop Science Society of America
· Canadian Society of Agronomy
· FEDERATION OF CANADIAN PLANT SCIENCE
Past Conference Report
All accepted abstracts will be published in respective Conferenceseries International Journals.
Abstracts will be provided with Digital Object Identifier by