Abstract
Genetically modified organisms (GMOs) and Genetic Engineering (GE) technology has been around since mid 1990s. Numerous successful applications of genetically modified (GM) crops have been recorded in different parts of the world. The technology has been adopted steadily in several countries with acreage under GM crops steadily increasing in many cases. Socio-economic studies show GMO adoption result in improved productivity, reduced cost of labour, and reduced pesticide use. More than 20 years later and in spite of the foregoing, opposition to GMO remains almost the same especially in Kenya. Although the past few months have seen a move toward favourable enabling and political good will, a current report published in the economist magazine indicated that agricultural productivity in Africa and Kenya in particular has remained stagnant for the last 40 years. This points to the vulnerability of Kenya in ensuring food security for its growing population which has actually increased at least 6 folds since 1960s. For food security to be achieved, considerations should be given to traditional as well as modern technologies that can greatly increase productivity, in the shortest time possible, while also taking care devastating effects of pests, diseases, drought, poor soils, and climate change. The genetically engineered crops have been eaten by millions of people from around the world, and have also been fed to millions of animals and poultry all over the world. For Kenya to move forward toward sustainable food security, bold, deliberate actions based on sound science and embedded in the uniqueness of the Kenyan agricultural systems and culture ought to be taken into consideration. This paper reviews the matter of GM foods, their implications for Kenya and all the underlying factors meriting consideration. Key words: Genetic engineering, Genetically modified organisms, Biotechnology, Biosafety, Public Acceptance, Kenya.
Highlights
What is the Genetically modified organisms (GMOs) technology: Process or product?Humans have been improving the quality of domesticated crops for thousands of years and this has mostly been through conventional breeding where important traits are encouraged, picked, and passed down from one generation to the (Keetch et al, 2014; European Safety, 2019)
The results presented is a culmination of over 3 months of research involving in depth discussions with various stakeholders including farmers, seed industry representatives, academia, biotechnology industry visits, lectures by prominent industry players in GMO technology and participating in international short courses and training offered by the World Technology Access Program (WorldTAP) during the senior authors stay at Michigan State University through the Norman E
Other studies detailing the impact of GMOs in China, reported that the use of B. thuringiensis cotton resulted in reduction in pesticide use of 78,000 tons of formulated pesticides in 2001
Summary
What is the GMO technology: Process or product?Humans have been improving the quality of domesticated crops for thousands of years and this has mostly been through conventional breeding where important traits are encouraged, picked, and passed down from one generation to the (Keetch et al, 2014; European Safety, 2019). This has proven to be a faster way than the 10 to 15 years of conventional breeding often required to improve a crop for general release. Genetic engineering has been lauded by proponents as faster, more targeted, more precise and efficient way of acquiring intended traits than through conventional breeding (The Royal Society, 2020)
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