Precision agriculture (PA) uses digital techniques to optimize farming, promising increased output and quality with reduced inputs, aiming for cost savings and environmental benefits.
(Generated with the help of GPT-4)
| Quick Facts | |
|---|---|
| Report location: | source |
| Language: | English |
| Publisher: | Panel for the Future of Science and Technology |
| Publication date: | December 22, 2016 |
| Authors: | Christian Kurrer, Cornelia Daheim, Erica Bol, James Tarlton, Krijn Poppe, Lieve Van Woensel, Remco Schrijver, Silke den Hartog – de Wilde |
| Time horizon: | 2050 |
| Geographic focus: | European Union |
| Page count: | 348 |
The research method involved a foresight exercise with technical experts, stakeholders, and policymakers to develop scenarios for future PA developments, analyze opportunities and concerns, and identify policy options.
(Generated with the help of GPT-4)
Precision agriculture (PA) employs digital technologies to monitor and optimize agricultural production, promising to enhance output quality while reducing resource use. PA relies on sensor technologies, satellite navigation, and the Internet of Things. It is increasingly adopted in Europe, aiming to improve efficiency, reduce environmental impact, and produce more and better food. This report informs European policymakers about PA's current state, future developments, societal concerns, and policy options, presenting an overview of European agriculture, PA advancements, potential future scenarios, and legislative implications.
(Generated with the help of GPT-4)
Categories: 2016 publication year | 2050 time horizon | 2050s time horizon | English publication language | agricultural production | agriculture | digital techniques | digital transformation | efficiency | environmental impact | european union geographic scope | food production | internet of things | policy options | precision agriculture | satellite navigation | sensor technologies | unknown geographic scope