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Can Precision Agriculture Increase the Profitability and Sustainability of the Production of Potatoes and Olives?

Author

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  • Frits K. Van Evert

    (Agrosystems Research, Wageningen University & Research, P.O. Box 16, 6700 AA Wageningen, The Netherlands)

  • Daniel Gaitán-Cremaschi

    (Farming Systems Ecology, Wageningen University & Research, P.O. Box 430, 6700 AK Wageningen, The Netherlands)

  • Spyros Fountas

    (Natural Resources Management and Agricultural Engineering, Agricultural University of Athens, 11855 Athens, Greece)

  • Corné Kempenaar

    (Agrosystems Research, Wageningen University & Research, P.O. Box 16, 6700 AA Wageningen, The Netherlands
    Team Applied Research, Aeres University of Applied Sciences, De Drieslag 4, 8251 JZ Dronten, The Netherlands)

Abstract

For farmers, the application of Precision Agriculture (PA) technology is expected to lead to an increase in profitability. For society, PA is expected to lead to increased sustainability. The objective of this paper is to determine for a number of common PA practices how much they increase profitability and sustainability. For potato production in The Netherlands, we considered variable rate application (VRA) of soil herbicide, fungicide for late blight control, sidedress N, and haulm killing herbicide. For olive production in Greece, we considered spatially variable application of P and K fertilizer and lime. For each of the above scenarios, we quantified the value of outputs, the cost of inputs, and the environmental costs. This allowed us to calculate profit as well as social profit, where the latter is defined as revenues minus conventional costs minus the external costs of production. Social profit can be considered an overall measure of sustainability. Our calculations show that PA in potatoes increases profit by 21% (420 € ha −1 ) and social profit by 26%. In olives, VRA application of P, K, and lime leads to a strong reduction in nutrient use and although this leads to an increase in sustainability, it has only a small effect on profit and on social profit. In conclusion, PA increases sustainability in olives and both profitability and sustainability in potatoes.

Suggested Citation

  • Frits K. Van Evert & Daniel Gaitán-Cremaschi & Spyros Fountas & Corné Kempenaar, 2017. "Can Precision Agriculture Increase the Profitability and Sustainability of the Production of Potatoes and Olives?," Sustainability, MDPI, vol. 9(10), pages 1-24, October.
    • Handle: RePEc:gam:jsusta:v:9:y:2017:i:10:p:1863-:d:115249
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    Cited by:

    1. Yingying Xing & Ning Wang & Xiaoli Niu & Wenting Jiang & Xiukang Wang, 2021. "Assessment of Potato Farmland Soil Nutrient Based on MDS-SQI Model in the Loess Plateau," Sustainability, MDPI, vol. 13(7), pages 1-13, April.
    2. Daniele Sarri & Stefania Lombardo & Andrea Pagliai & Carolina Perna & Riccardo Lisci & Valentina De Pascale & Marco Rimediotti & Guido Cencini & Marco Vieri, 2020. "Smart Farming Introduction in Wine Farms: A Systematic Review and a New Proposal," Sustainability, MDPI, vol. 12(17), pages 1-26, September.
    3. Hana Trollman & Sandeep Jagtap & Frank Trollman, 2023. "Crowdsourcing food security: introducing food choice derivatives for sustainability," Food Security: The Science, Sociology and Economics of Food Production and Access to Food, Springer;The International Society for Plant Pathology, vol. 15(4), pages 953-965, August.
    4. Daniel Gaitán-Cremaschi & Frits K. Van Evert & Don M. Jansen & Miranda P. M. Meuwissen & Alfons G. J. M. Oude Lansink, 2018. "Assessing the Sustainability Performance of Coffee Farms in Vietnam: A Social Profit Inefficiency Approach," Sustainability, MDPI, vol. 10(11), pages 1-23, November.
    5. Escobar, Neus & Laibach, Natalie, 2021. "Sustainability check for bio-based technologies: A review of process-based and life cycle approaches," Renewable and Sustainable Energy Reviews, Elsevier, vol. 135(C).
    6. Gaganpreet Singh Hundal & Chad Matthew Laux & Dennis Buckmaster & Mathias J Sutton & Michael Langemeier, 2023. "Exploring Barriers to the Adoption of Internet of Things-Based Precision Agriculture Practices," Agriculture, MDPI, vol. 13(1), pages 1-16, January.
    7. Anna Vatsanidou & Spyros Fountas & Vasileios Liakos & George Nanos & Nikolaos Katsoulas & Theofanis Gemtos, 2020. "Life Cycle Assessment of Variable Rate Fertilizer Application in a Pear Orchard," Sustainability, MDPI, vol. 12(17), pages 1-25, August.
    8. Adamashvili Nino & Fiore Mariantonietta & Contò Francesco & La Sala Piermichele, 2020. "Ecosystem for Successful Agriculture. Collaborative Approach as a Driver for Agricultural Development," European Countryside, Sciendo, vol. 12(2), pages 242-256, June.
    9. Salvatore Ammirato & Alberto Michele Felicetti & Massimiliano Ferrara & Cinzia Raso & Antonio Violi, 2021. "Collaborative Organization Models for Sustainable Development in the Agri-Food Sector," Sustainability, MDPI, vol. 13(4), pages 1-22, February.

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