Robotics in Agriculture In the future, farm machinery will drive itself! Even though robots will do more jobs on farms, humans will still be essential to service the equipment, operate the robots and manage operations. Download Related snapAG Articles Antibiotics in Food 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 Antibiotic Resistance Antibiotics – What and Why? Vaccines Animal Welfare or Rights Transporting Farm Animals Pig Housing The Myth of Factory Farms Intensive Livestock Operations Dairy Cows Chicken Housing Hormones Today’s Farm Soil Horticulture in Canada Aquaculture in Canada Water Management Farm Animals Animal Breeding Agriculture and Land Use Agriculture and Greenhouse Gases Environmental Farm Plans Conservation Tillage Crop Rotation Carbon Sequestration Protein and Nutrition Food Safety Food Waste Grass-Fed and Grain-Finished Beef Pesticides on Food Organic Food Eggs Dairy in Your Diet Milk Pasteurization Gluten GMOs and the Environment GMO Foods GMOs Around the World Organic Pest Management 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 Food Security Invasive Species Regenerative Agriculture Robotics in Agriculture Supply Management Urban Agriculture Urban Pesticides Websites to Investigate This Topic Further Canadian Food Focus CropLife Canada Government of Canada Greenhouse Canada Footnotes i Wikipedia (October 20, 2020). “Robot.” ii CropLife Canada (2020). “Precision Agriculture – Field Notes.” iii Canadian Agricultural Human Resource Council Agri-LMI (2019). How Labour Challenges Will Shape the Future of Agriculture: Agriculture Forecast to 2029. iv Universal Robots (2020). “Industrial Collaborative Robots in Food & Beverage.” v Albiero, D. (April 15, 2019). “Agricultural Robots: A Promising Challenge.” Current Agriculture Research Journal 7(1): 1-3. vi British Columbia Ministry of Agriculture (March 1, 2019). Precision Agriculture Technologies for Nutrient Management in British Columbia: Clean Technology Scoping Study Final Report. vii Institute of Food, Nutrition and Human Health, Massey University, New Zealand (March 2013). “Automation, Mechanisation and Robotics in Horticulture.” viii Albiero, D. (April 15, 2019). “Agricultural Robots: A Promising Challenge.” Current Agriculture Research Journal 7(1): 1-3. ix Statistics Canada (January 25, 2018). “Proportion of Farmers Reporting Milk Cows and Used Robotic Milking by Census Division (CD), 2016 Canada.” x Postscapes Smart Greenhouses (no date). “Greenhouse Robotic Harvesters and Material Handlers.” xi Harvest Automation (no date). Payback: Metrolina Greenhouses a Return on Their Investment in Under One Year. xii SAS Analytics Software & Solutions (2020). “Artificial Intelligence: What it is and Why it Matters.” xiii Built in (July 30, 2019). “Farming & Agriculture Robots.” xiv Ipate, G. & G. Voicu (January 2015). “Research on the Use of Drones in Precision Agriculture.” UPB Science Bulletin, Series D, 77(4): 263-74. Tags technology farming plants crops livestock dairy robotics in agriculture robot farm precision farming fertilizer pesticides resources cattle cows drones greenhouse equipment science research