Bioplastics Bioplastics are a promising development that could substitute the crude oil used in plastic production with renewable sources, which are replenished over time. Download Related snapAG Articles Biosecurity Organic Farming Beef Protein and the Environment Global Protein Consumption What are GMOs Organic Soil Management Organic and Synthetic Pesticides Neonics Advanced Plant Breeding Antibiotics – What and Why? Vaccines Transporting Farm Animals The Myth of Factory Farms Intensive Livestock Operations Dairy Cows Chicken Housing Hormones Today’s Farm Soil Horticulture in Canada Water Management Farm Animals Agriculture and Land Use Agriculture and Greenhouse Gases Environmental Farm Plans Conservation Tillage Crop Rotation Carbon Sequestration Protein and Nutrition Food Safety Food Waste Pesticides on Food Organic Food Gluten GMOs and the Environment GMO Foods GMOs Around the World Conventional or Organic Fertilizer Fertilizer Use Fertilizer Irrigation Grain Farm Technology Glyphosate Pesticides and the Environment Pesticides – What and Why? Plant Breeding and Food Security Genetics and Farming Genetic Engineering and Human Health History of Plant Breeding Bees Bioplastics Crop Byproducts Eating Local Food Processing Invasive Species Regenerative Agriculture Robotics in Agriculture Urban Agriculture Urban Pesticides Websites to Investigate This Topic Further Bioplastics Guide Bioplastics News Agriculture and Agri-Food Canada Parks Canada Footnotes i Science History Institute (2020). “Science of Plastics.” ii Plastics Industry Association (2020). “Plastics 101.” iii Geyer, R. et al. (July 2017). “Production, Use, Fate of All Plastics Ever Made.” Science Advances 3(7): e1700782. iv AcmePlastics.com (2020). “What is HDPE?” v Sciencing (April 24, 2017). “What is LDPE Plastic?” vi Saraswat, Y. et al. (no date). “Bioplastics from Starch.” International Conference on Multidisciplinary Research and Practice 1(8): 385-87. vii Bioplastics Guide (2016). “What are Bioplastics?” viii British Plastics Federation (2020). “Bio-Based Plastics: Feedstocks, Production and the UK Market.” ixJerez, Al et al. (May 2007). “Protein-Based Bioplastics: Effect of Thermo-Mechanical Processing.” Rheologica Acta 46(5): 711-20. x Bioplastics News (July 5, 2018). “The History and Most Important Innovations of Bioplastics.” xi Plastics Make it Possible (November 2, 2017). “What are Bioplastics?” xii David, G. & J.H. Song (March 2006). “Biodegradable Packaging Made Based on Raw Materials from Crops and Their Impact on Waste Management.” Industrial Crops & Products 23(2): 147-61. xiii Parks Canada (June 12, 2019). “Science and Conservation – Plastics Pollution.” xiv Parks Canada (June 12, 2019). “Science and Conservation – Microplastics: More Than a Drop in the Ocean.” xv Environment and Climate Change Canada and Health Canada (January 2020). Draft Science Assessment of Plastic Pollution. xvi Bioplastics Guide (2016). “What are Bioplastics?” xvii Bioplastics Guide (2016). “What are Bioplastics?” xviii Agriculture and Agri-Food Canada (March 14, 2018). “New, Environmentally Friendly Bioplastic Development at Agriculture and Agri-Food Canada.” xix Bioplastic News (March 6, 2020). “Plantbased? Compostable? What You Need to Know About Bioplastics.” xx Bioplastic News (March 8, 2020). “Exposing the Compostable Plastic Myth in Canada.” xxi Bioplastic News (March 6, 2020). “Plantbased? Compostable? What You Need to Know About Bioplastics.” xxii Agriculture and Agri-Food Canada (March 14, 2018). “New, Environmentally Friendly Bioplastic Development at Agriculture and Agri-Food Canada.” xxiii Snell, K.D. & Peoples, O.P. (2013). “Production of Value-Added Co-Products in Industrial Oilseeds.” Inform 24: 640-643. Tags crops environment plants technology bioplastics greenhouse gas byproduct research