A proposed framework for accelerating technology trajectories in agriculture: a case study in China

Precision agriculture (PA) technologies have great potential for promoting sustainable intensification of food production, ensuring targeted delivery of agricultural inputs, and hence food security and environmental protection. The benefits of PA technologies are applicable across a broad range of a...

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Published in	Frontiers of Agricultural Science and Engineering Vol. 5; no. 4; pp. 485 - 498
Main Authors	CLARK, Beth, D. JONES, Glyn, KENDALL, Helen, TAYLOR, James, CAO, Yiying, LI, Wenjing, ZHAO, Chunjiang, CHEN, Jing, YANG, Guijun, CHEN, Liping, LI, Zhenhong, GAULTON, Rachel, J. FREWER, Lynn
Format	Journal Article
Language	English
Published	Higher Education Press 01.11.2018
Subjects	farmer adoption precision agriculture precision agriculture\|farmer adoption\|technological innovation technological innovation
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Abstract	Precision agriculture (PA) technologies have great potential for promoting sustainable intensification of food production, ensuring targeted delivery of agricultural inputs, and hence food security and environmental protection. The benefits of PA technologies are applicable across a broad range of agronomic, environmental and rural socio-economic contexts globally. However, farmer and land-manager adoption in low to middle income countries has typically been slower than that observed in more affluent countries. China is currently engaged in the process of agricultural modernisation to ensure food security for its 1.4 billion population and has developed a portfolio of policies designed to improve food security, while simultaneously promoting environmental protection. Particular attention has been paid to the reduction of agricultural inputs such as fertilisers and pesticides. The widespread adoption of PA technologies across the Chinese agricultural landscape is central to the success of these policies. However, socio-economic and cultural barriers, farm scale, (in particular the prevalence of smaller family farms) and demographic changes in the rural population, (for example, the movement of younger people to the cities) represent barriers to PA adoption across China. A framework for ensuring an acceptable and accelerated PA technology trajectory is proposed which combines systematic understanding of farmer and end-user priorities and preferences for technology design throughout the technology development process, and subsequent end-user requirements for implementation (including demonstration of economic and agronomic benefits, and knowledge transfer). Future research will validate the framework against qualitative and quantitative socio-economic, cultural and agronomic indicators of successful, or otherwise, PA implementation. The results will provide the evidence upon which to develop further policies regarding how to secure sustainable food production and how best to implement PA in China, as well as practical recommendations for optimising end-user uptake.
AbstractList	Precision agriculture (PA) technologies have great potential for promoting sustainable intensification of food production, ensuring targeted delivery of agricultural inputs, and hence food security and environmental protection. The benefits of PA technologies are applicable across a broad range of agronomic, environmental and rural socio-economic contexts globally. However, farmer and land-manager adoption in low to middle income countries has typically been slower than that observed in more affluent countries. China is currently engaged in the process of agricultural modernisation to ensure food security for its 1.4 billion population and has developed a portfolio of policies designed to improve food security, while simultaneously promoting environmental protection. Particular attention has been paid to the reduction of agricultural inputs such as fertilisers and pesticides. The widespread adoption of PA technologies across the Chinese agricultural landscape is central to the success of these policies. However, socio-economic and cultural barriers, farm scale, (in particular the prevalence of smaller family farms) and demographic changes in the rural population, (for example, the movement of younger people to the cities) represent barriers to PA adoption across China. A framework for ensuring an acceptable and accelerated PA technology trajectory is proposed which combines systematic understanding of farmer and end-user priorities and preferences for technology design throughout the technology development process, and subsequent end-user requirements for implementation (including demonstration of economic and agronomic benefits, and knowledge transfer). Future research will validate the framework against qualitative and quantitative socio-economic, cultural and agronomic indicators of successful, or otherwise, PA implementation. The results will provide the evidence upon which to develop further policies regarding how to secure sustainable food production and how best to implement PA in China, as well as practical recommendations for optimising end-user uptake.
Author	ZHAO, Chunjiang LI, Zhenhong CAO, Yiying YANG, Guijun CHEN, Liping CLARK, Beth CHEN, Jing LI, Wenjing GAULTON, Rachel D. JONES, Glyn TAYLOR, James KENDALL, Helen J. FREWER, Lynn
Author_xml	– sequence: 1 givenname: Beth surname: CLARK fullname: CLARK, Beth organization: School of Natural and Environmental Sciences, Newcastle University, Newcastle upon Tyne, NE1 7RU, UK – sequence: 2 givenname: Glyn surname: D. JONES fullname: D. JONES, Glyn organization: FERA Sciences Ltd., National Agri-Food Innovation Campus, Sand Hutton, Yo41 1LZ, UK – sequence: 3 givenname: Helen surname: KENDALL fullname: KENDALL, Helen email: helen.kendall@newcastle.ac.uk organization: School of Natural and Environmental Sciences, Newcastle University, Newcastle upon Tyne, NE1 7RU, UK – sequence: 4 givenname: James surname: TAYLOR fullname: TAYLOR, James organization: School of Natural and Environmental Sciences, Newcastle University, Newcastle upon Tyne, NE1 7RU, UK – sequence: 5 givenname: Yiying surname: CAO fullname: CAO, Yiying organization: RSK ADAS, Leeds, LS15 8GB, UK – sequence: 6 givenname: Wenjing surname: LI fullname: LI, Wenjing organization: School of Economics and Management, China University of Geosciences, Wuhan 430074, China – sequence: 7 givenname: Chunjiang surname: ZHAO fullname: ZHAO, Chunjiang organization: National Engineering Research Center for Information Technology in Agriculture, Beijing 100097, China – sequence: 8 givenname: Jing surname: CHEN fullname: CHEN, Jing organization: Chinese Academy of Agricultural Science, Beijing 100081, China – sequence: 9 givenname: Guijun surname: YANG fullname: YANG, Guijun organization: National Engineering Research Center for Information Technology in Agriculture, Beijing 100097, China – sequence: 10 givenname: Liping surname: CHEN fullname: CHEN, Liping organization: National Engineering Research Center for Information Technology in Agriculture, Beijing 100097, China – sequence: 11 givenname: Zhenhong surname: LI fullname: LI, Zhenhong organization: School of Engineering, Newcastle University, Newcastle upon Tyne, NE1 7RU, UK – sequence: 12 givenname: Rachel surname: GAULTON fullname: GAULTON, Rachel organization: School of Engineering, Newcastle University, Newcastle upon Tyne, NE1 7RU, UK – sequence: 13 givenname: Lynn surname: J. FREWER fullname: J. FREWER, Lynn organization: School of Natural and Environmental Sciences, Newcastle University, Newcastle upon Tyne, NE1 7RU, UK
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Title	A proposed framework for accelerating technology trajectories in agriculture: a case study in China
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