Dijital Gelişmeler Çerçevesinde Tarım Sektörünün Analizi

Araujo, S.O, Peres, R.S., Barata, J., Lidon, F. & Ramalho, J.C. (2021). Characterising the Agriculture 4.0 Landscape—Emerging Trends, Challenges and Opportunities, Agronomy 2021, 11(4), 667; https://doi.org/10.3390/agronomy11040667

Banerjee, N., Dambale, A.& Upadhyay, H. (2024). Smart Farming Technologies for Sustainable Agriculture, https://justagriculture.in/files/magazine/2024/march/002%20SMART%20FARMING%20TECHNOLOGIES.pdf. ET: 12.05.2024

Beriya, A. (2020). Digital Agriculture: Challenges and Possibilities in India, ICT India Working Paper #35, Center for Sustainable Development Earth Institute, Columbia University.

Burcu, D.L.K., Basso, B., Wang, M.Q.&Benfey, P.N. (2021). Novel Technologies for emission reduction complemt conservation agriculture to achive negative emissions from row-crop production, Agriculture Sciences, 118 (28) e2022666118, https://doi.org/10.1073/pnas.20226661

Dayıoğlu, M.A.& Türker, U. (2021). Digital Transformation for Sustainable Future - Agriculture 4.0: A review, Journal of Agricultural Sciences (Tarim Bilimleri Dergisi), 27(4). 373-399. DOI: 10.15832/ankutbd.986431

Derrick, M. & Jackson, A. (2023, 20 Eylül) Top 10: AgriTech companies ( 20/09/2023 tarihinde https://technologymagazine.com/top10/top-10-agritech-companies adresinden ulaşılmıştır).

Duckett, T., Pearson, S., Blackmore, S.& Greve, B. (2018). Agricultural Robotics: The Future of Robotic Agriculture, UK-RAS White papers, ISSN 2398-4414. https://arxiv.org/pdf/1806.06762

FAO, (2009). Global agriculture towards 2050, How the Feed The World, High-Level Expert Forum, Rome. (10/06/2024 tarihinde https://www.fao.org/fileadmin/templates/wsfs/docs/Issues_papers/HLEF2050_Global_Agriculture.pdf adresinden ulaşılmıştır).

FAO (2023). Trade of agricultural commodities 2005–2022. FAOSTAT Analytical Briefs, No. 80. Rome. https://doi.org/10.4060/cc9206en

Friha, O., Ferrag,M.A. Lei Shu, L., Maglaras, L.&Wang, X. (2021). Internet of Things for the Future of Smart Agriculture: A Comprehensive Survey of Emerging Technologies," IEEE/CAA J. Autom. Sinica, 8(4) 718-752. doi: 10.1109/JAS.2021.1003925

Guliyev, H. (2023). Artificial intelligence and unemployment in high-tech developed countries: New insights from dynamic panel data model, Research in Globalization, Volume 7. https://doi.org/10.1016/j.resglo.2023.100140

Inoue, Y. (2020). Satellite- and drone-based remote sensing of crops and soils for smart farming – a review. Soil Science and Plant Nutrition, 66(6), 798–810. https://doi.org/10.1080/00380768.2020.1738899

Javaid, M., Haleem, A.,Singh, R.P. & Suman, R. (2022). Enhancing smart farming through the applications of Agriculture 4.0 technologies, International Journal of Intelligent Networks, Volume 3, 2022, 150-164.

Kwakwa, P. A., Alhassan, H., & Adzawla, W. (2022). Environmental Degradation Effect On Agricultural Development: An Aggregate And A Sectoral Evidence Of Carbon Dioxide Emissions From Ghana. Journal Of Business And Socio-Economic Development, 2(1), 82-96.

McCoy, D. C. (2023). Driving transformation: Bayer’s collaborative efforts to build agricultural resilience. (15/03/2024 tarihinde https://midwestrowcrop.org/news-press/driving-transformation-bayers-collaborative-efforts-to-build-agricultural-resilience/ adresinden ulaşılmıştır).

McFadden, J. Njuki, E. & Griffin, T. (2023). Precision Agriculture in the Digital Era: Recent Adoption on U.S. Farms, EIB-248, USDA Economic Research Service. https://www.ers.usda.gov/webdocs/publications/105894/eib-248.pdf

Meghwanshi, S. (2024). Artıfıcıal Intellıgence In Agrıculture: A Revıew, International Research Journal of Modernization in Engineering Technology and Science, 6(3), 4358-4363.

Northrup, D.L., Basso, B., Wang, M.Q.&Benfey, P.N. (2021). Novel Technologies for emission reduction complement conservation agriculture to achive negative emissions from row-crop production, Agricultural Sciences, https://doi.org/10.1073/pnas.2022666118.

O’Shaughnessy, S., Kim, M., Lee, S., Kim, Y., Kim, H.& Shekailo, J. (2021). Towards smart farming solutions in the U.S. and South Korea: A comparison of the current status, Geography and Sustainability, 2(4), 312-327. https://doi.org/10.1016/j.geosus.2021.12.002

OECD (2024, 05 Haziran). The evolving profile of new entrants in agriculture and the role of digital

Technologies (06/07/2024 tarihinde https://one.oecd.org/document/TAD/CA/APM/WP(2023)19/FINAL/en/pdf adresinden ulaşılmıştır).

Pallathadka, H., Jawarneh, M., Sammy, F., Garchar, V. Sanchez, D. T. & Naved, M. (2022). "A Review of Using Artificial Intelligence and Machine Learning in Food and Agriculture Industry," 2022 2nd International Conference on Advance Computing and Innovative Technologies in Engineering (ICACITE), Greater Noida, India, 2215-2218, doi: 10.1109/ICACITE53722.2022.9823427.

Rajak, P., Ganguly, A., Adhikary, S. & Bhattacharya, S. (2023). Internet of Things and smart sensors in agriculture: Scopes and challenges, Journal of Agriculture and Food Research, Volume 14. https://doi.org/10.1016/j.jafr.2023.100776

Rehman, H. U. (19 December 2022). 12 Most Advanced Countries in Agriculture Technology. (12/05/2024 tarihinde https://finance.yahoo.com/news/12-most-advanced-countries-agriculture-140128710.html adresinden ulaşılmıştır).

Rejeb, A., Abdollahi, A., Rejeb, K. & Treiblmaier, H. (2022). Drones in agriculture: A review and bibliometric analysis, Computers and Electronics in Agriculture, Volume 198, July 2022, 107017. https://doi.org/10.1016/j.compag.2022.107017

Russel, J. (2017). In India, an Uber for farm machinery aims to make a difference in rural areas. (15/07/2024 tarihinde https://techcrunch.com/2017/08/15/em3/ adresinden ulaşılmıştır).

Steiner, M. (2018, 5 Eylül). Featured Stories, No farms, no food: AI-powered technology will help farmers health-check soil and water. (05/08/2024 tarihinde https://newsroom.ibm.com/index.php?s=20317&item=30649 adresinden ulaşılmıştır).

Tal, A. (2019). Israeli Agricultural Innovation: Assessing the Potential to Assist Smallholders, syngenta foundation for sustainabe agriculture, Working Paper 1, Tel Aviv University.

OECD (2024, 05 Haziran). The evolving profile of new entrants in agriculture and the role of digital

Technologies (06/07/2024 tarihinde https://one.oecd.org/document/TAD/CA/APM/WP(2023)19/FINAL/en/pdf adresinden ulaşılmıştır).

Timoshenko, I. (2023). Agricultural Robots: Farming Smarter, Not Harder. (15/05/2023 tarihinde https://aiforgood.itu.int/agricultural-robots-farming-smarter-not-harder/ adresinden ulaşılmıştır).

URL-1, Foodtank, Artificial Intelligence in the Food Industry: Empowering Farmers’ Decision-Making. (20/07/2024 tarihinde https://foodtank.com/news/2017/11/artificial-intelligence-part3/ adresinden ulaşılmıştır).

URL-2, Agmatix, The role of industry 4.0 in agriculture, https://www.agmatix.com/blog/the-role-of-industry-4-0-in-agriculture/, ET: 18.07.2024

URL-3, TOLL, How Drones Are Used in Agriculture. (21/07’024 tarihinde https://tolluncrewedsystems.com/blog/how-drones-are-used-in-agriculture/ adresinden ulaşılmıştır).

URL-4, KhetiBuddy, How Data Analytics is Transforming the Agriculture Industry? ( 04/08/2024 tarihinde https://khetibuddy.com/how-data-analytics-is-transforming-the-agriculture-industry/ adresinden ulaşılmıştır).

URL-5, Emerging India (2024). Top 10 Uses of Data Analytics in Agriculture Sector, (04/08/2024 tarihinde https://emergingindiagroup.com/top-10-uses-of-data-analytics-in-agriculture-sector/ adresinden ulaşılmıştır).

URL-6, Infopulse (2024, 6 Şubat). Key Agro Challenges Solved by Advanced Data Analytics. ( 04/08/2024 tarihinde https://www.infopulse.com/blog/data-analytics-use-cases-agriculture adresinden ulaşılmıştır).

URL-7, DRONELAUNCHacademy, How Are Drones Used in Agriculture? (09/07/2024 tarihinde https://dronelaunchacademy.com/resources/how-are-drones-used-in-agriculture/ adresinden alınmıştır)

URL-8, Getac, (2023). How Technology Supports Agriculture 4.0 and the Future of Farming. (12/05/2024 tarihinde https://www.getac.com/intl/blog/future-of-farming/?utm_medium=paidsearch&utm_source=google&utm_campaign=7013w0000023nWu&gad_source=5&gclid=EAIaIQobChMI6IvTo5eIhgMVjgCiAx170AF2EAAYBCAAEgJgBvD_BwE adresinden ulaşılmıştır).

URL-9, SpencerStuart, (2020). Leading the Agriculture Industry into the Future, ( 12/05/2024 tarihinde https://www.spencerstuart.com/research-and-insight/leading-the-agriculture-industry-into-the-future adresinden ulaşılmıştır).

URL-10, Tracxn (2024). AgriTech startups in Netherlands. (01/08/2024 tarihinde https://tracxn.com/d/explore/agritech-startups-in-netherlands/__vVR-XvgpyN7GOCc3u4u6XiJxfYJiQoM8JzAYOvmkeMo/companies#:~:text=AgriTech%20startups%20in%20Netherlands,-Last%20updated%3A%20August&text=There%20are%20558%20AgriTech%20startups,Solynta%2C%20Hendrix%20Genetics%2C%20Priva adresinden ulaşılmıştır).

URL-11, Australian Government, Australian Trade and Investment Commission , Australia’s high-tech food and farming, 12/05/2024 tarihinde https://international.austrade.gov.au/en/do-business-with-australia/sectors/technology/agrifood-tech adresinden ulaşılmıştır).

URL-12, Climate Watch. Drivers of Emissions, https://www.climatewatchdata.org/sectors/agriculture#drivers-of-emissions

URL-, Plantix, Farmers can now get immediate help on infected crops-for free. (23/07/2024 tarihinde https://plantix.net/en/blog/plant-disease-detection-whatsapp/ adresinden ulaşılmıştır).

URL-14, Enterprise League (2024). 31 top agriculture and agtech startups in 2024. (04/04/2024 tarihinde https://enterpriseleague.com/blog/agriculture-startups/ adresinden ulaşılmıştır).

URL-15, Hodgson-Coyle, N. (2024). 50 Agtech Startups. (27/02/2024 tarihinde https://technews180.com/cleantech/agtech-startups/ adresinden ulaşılmıştır).

URL-16, MARKETSANDMARKETS. Smart Agriculture Market. ( 02/18/2024 tarihinde https://www.marketsandmarkets.com/Market-Reports/smart-agriculture-market-239736790.html?gad_source=1&gclid=CjwKCAjw3NyxBhBmEiwAyofDYUySGyBWab8xBkPFlrTdDFzUiT2rlX6sVRi8lmKhjbfEvXJ_CjJCExoCAtAQAvD_BwE adresinden ulaşılmıştır).

URL-17, Eit Food (2021). 5 ways to accelerate the transition to sustainable agriculture, (15/10/2021 tarihinde https://www.eitfood.eu/blog/5-ways-to-accelerate-the-transition-to-sustainable-agriculture?_gl=1*1tss4ub*_up*MQ..&gclid=CjwKCAjwk8e1BhALEiwAc8MHiLmq8S3Ut_Ma111Rys1lESyyhX1VHW2XV68ebHAbRmZOZDJHh2GlchoCjvgQAvD_BwE adresinden ulaşılmıştır).

URL-18, Tracxn, AgriTech startups in Israel, (01/08/2024 tarihinde https://tracxn.com/d/explore/agritech-startups-in-israel/__FhjmYrCrw4MQvSQeCBFMFQ6617CAkG1ApEldTNajeko/companies adresinden ulaşılmıştır).

URL-19, Tracxn, AgriTech startups in United States, (01/08/2024 tarihinde https://tracxn.com/d/explore/agritech-startups-in-united-states/__lZcFQGY7-e971BAVULJJOQshknhnt0E2l3cAQvRkLSc/companies adresinden ulaşılmıştır).

WEF (2024). Fourth Industrial Revolution, From predicting heatwaves to developing climate-resilient seeds: Here’s how agritech can help farmers, (28/04/2024 tarihinde https://www.weforum.org/agenda/2024/04/how-ai-and-other-agritech-can-help-ensure-food-security/ adresinden ulaşılmıştır).

WEF (2015). How agriculture can improve health and nutrition. (15/07/2024 tarihinde https://www.weforum.org/agenda/2015/04/how-agriculture-can-improve-health-and-nutrition/ adresinden ulaşılmıştır).

WEF (2023). The Future of Jobs Report 2023. (30/04/2023 tarihinde https://www.weforum.org/publications/the-future-of-jobs-report-2023/adresinden ulaşılmıştır).

Writer, S. (2024). The Role of Artificial Intelligence in Optimizing Agricultural Processes, ( 29/01/2024 tarihinde https://www.simpli.com/lifestyle/role-artificial-intelligence-optimizing-agricultural-processes?utm_content=params%3Aad%3DdirN%26qo%3DserpIndex%26o%3D740008%26ag%3Dfw10&ueid=6A75D88B-E446-4EE6-978D-0ECDE403F1A4&origq=artificial+intelligence+in+agriculture adresinden ulaşılmıştır).

Xu, J., Gu, B.& Tian, G. (2022). Review of agricultural IoT technology, Artificial Intelligence in Agriculture, Volume 6, 10-22. https://doi.org/10.1016/j.aiia.2022.01.001

Yashvardhan, V., Pyare, R. & Singh, R.B. (2022). Technological Advancement in Digital Farming and India’s Present Scenario: A Review, International Journal of Environmental and Agriculture Research,8(12), 5-19. https://dx.doi.org/10.5281/zenodo.7496469

Zhang, W, Dou, Z., He, P.& Zhang, F.(2013). New Technologies reduce greenhouse gas emissions from nitrogenous fertilizer in China, Agriculture Sciences, 110(21) 8375-8380. https://doi.org/10.1073/pnas.1210447110

Araujo, S.O, Peres, R.S., Barata, J., Lidon, F. & Ramalho, J.C. (2021). Characterising the Agriculture 4.0 Landscape—Emerging Trends, Challenges and Opportunities, Agronomy 2021, 11(4), 667; https://doi.org/10.3390/agronomy11040667

Banerjee, N., Dambale, A.& Upadhyay, H. (2024). Smart Farming Technologies for Sustainable Agriculture, https://justagriculture.in/files/magazine/2024/march/002%20SMART%20FARMING%20TECHNOLOGIES.pdf. ET: 12.05.2024

Beriya, A. (2020). Digital Agriculture: Challenges and Possibilities in India, ICT India Working Paper #35, Center for Sustainable Development Earth Institute, Columbia University.

Burcu, D.L.K., Basso, B., Wang, M.Q.&Benfey, P.N. (2021). Novel Technologies for emission reduction complemt conservation agriculture to achive negative emissions from row-crop production, Agriculture Sciences, 118 (28) e2022666118, https://doi.org/10.1073/pnas.20226661

Dayıoğlu, M.A.& Türker, U. (2021). Digital Transformation for Sustainable Future - Agriculture 4.0: A review, Journal of Agricultural Sciences (Tarim Bilimleri Dergisi), 27(4). 373-399. DOI: 10.15832/ankutbd.986431

Derrick, M. & Jackson, A. (2023, 20 Eylül) Top 10: AgriTech companies ( 20/09/2023 tarihinde https://technologymagazine.com/top10/top-10-agritech-companies adresinden ulaşılmıştır).

Duckett, T., Pearson, S., Blackmore, S.& Greve, B. (2018). Agricultural Robotics: The Future of Robotic Agriculture, UK-RAS White papers, ISSN 2398-4414. https://arxiv.org/pdf/1806.06762

FAO, (2009). Global agriculture towards 2050, How the Feed The World, High-Level Expert Forum, Rome. (10/06/2024 tarihinde https://www.fao.org/fileadmin/templates/wsfs/docs/Issues_papers/HLEF2050_Global_Agriculture.pdf adresinden ulaşılmıştır).

FAO (2023). Trade of agricultural commodities 2005–2022. FAOSTAT Analytical Briefs, No. 80. Rome. https://doi.org/10.4060/cc9206en

Friha, O., Ferrag,M.A. Lei Shu, L., Maglaras, L.&Wang, X. (2021). Internet of Things for the Future of Smart Agriculture: A Comprehensive Survey of Emerging Technologies," IEEE/CAA J. Autom. Sinica, 8(4) 718-752. doi: 10.1109/JAS.2021.1003925

Guliyev, H. (2023). Artificial intelligence and unemployment in high-tech developed countries: New insights from dynamic panel data model, Research in Globalization, Volume 7. https://doi.org/10.1016/j.resglo.2023.100140

Inoue, Y. (2020). Satellite- and drone-based remote sensing of crops and soils for smart farming – a review. Soil Science and Plant Nutrition, 66(6), 798–810. https://doi.org/10.1080/00380768.2020.1738899

Javaid, M., Haleem, A.,Singh, R.P. & Suman, R. (2022). Enhancing smart farming through the applications of Agriculture 4.0 technologies, International Journal of Intelligent Networks, Volume 3, 2022, 150-164.

Kwakwa, P. A., Alhassan, H., & Adzawla, W. (2022). Environmental Degradation Effect On Agricultural Development: An Aggregate And A Sectoral Evidence Of Carbon Dioxide Emissions From Ghana. Journal Of Business And Socio-Economic Development, 2(1), 82-96.

McCoy, D. C. (2023). Driving transformation: Bayer’s collaborative efforts to build agricultural resilience. (15/03/2024 tarihinde https://midwestrowcrop.org/news-press/driving-transformation-bayers-collaborative-efforts-to-build-agricultural-resilience/ adresinden ulaşılmıştır).

McFadden, J. Njuki, E. & Griffin, T. (2023). Precision Agriculture in the Digital Era: Recent Adoption on U.S. Farms, EIB-248, USDA Economic Research Service. https://www.ers.usda.gov/webdocs/publications/105894/eib-248.pdf

Meghwanshi, S. (2024). Artıfıcıal Intellıgence In Agrıculture: A Revıew, International Research Journal of Modernization in Engineering Technology and Science, 6(3), 4358-4363.

Northrup, D.L., Basso, B., Wang, M.Q.&Benfey, P.N. (2021). Novel Technologies for emission reduction complement conservation agriculture to achive negative emissions from row-crop production, Agricultural Sciences, https://doi.org/10.1073/pnas.2022666118.

O’Shaughnessy, S., Kim, M., Lee, S., Kim, Y., Kim, H.& Shekailo, J. (2021). Towards smart farming solutions in the U.S. and South Korea: A comparison of the current status, Geography and Sustainability, 2(4), 312-327. https://doi.org/10.1016/j.geosus.2021.12.002

OECD (2024, 05 Haziran). The evolving profile of new entrants in agriculture and the role of digital

Technologies (06/07/2024 tarihinde https://one.oecd.org/document/TAD/CA/APM/WP(2023)19/FINAL/en/pdf adresinden ulaşılmıştır).

Pallathadka, H., Jawarneh, M., Sammy, F., Garchar, V. Sanchez, D. T. & Naved, M. (2022). "A Review of Using Artificial Intelligence and Machine Learning in Food and Agriculture Industry," 2022 2nd International Conference on Advance Computing and Innovative Technologies in Engineering (ICACITE), Greater Noida, India, 2215-2218, doi: 10.1109/ICACITE53722.2022.9823427.

Rajak, P., Ganguly, A., Adhikary, S. & Bhattacharya, S. (2023). Internet of Things and smart sensors in agriculture: Scopes and challenges, Journal of Agriculture and Food Research, Volume 14. https://doi.org/10.1016/j.jafr.2023.100776

Rehman, H. U. (19 December 2022). 12 Most Advanced Countries in Agriculture Technology. (12/05/2024 tarihinde https://finance.yahoo.com/news/12-most-advanced-countries-agriculture-140128710.html adresinden ulaşılmıştır).

Rejeb, A., Abdollahi, A., Rejeb, K. & Treiblmaier, H. (2022). Drones in agriculture: A review and bibliometric analysis, Computers and Electronics in Agriculture, Volume 198, July 2022, 107017. https://doi.org/10.1016/j.compag.2022.107017

Russel, J. (2017). In India, an Uber for farm machinery aims to make a difference in rural areas. (15/07/2024 tarihinde https://techcrunch.com/2017/08/15/em3/ adresinden ulaşılmıştır).

Steiner, M. (2018, 5 Eylül). Featured Stories, No farms, no food: AI-powered technology will help farmers health-check soil and water. (05/08/2024 tarihinde https://newsroom.ibm.com/index.php?s=20317&item=30649 adresinden ulaşılmıştır).

Tal, A. (2019). Israeli Agricultural Innovation: Assessing the Potential to Assist Smallholders, syngenta foundation for sustainabe agriculture, Working Paper 1, Tel Aviv University.

OECD (2024, 05 Haziran). The evolving profile of new entrants in agriculture and the role of digital

Technologies (06/07/2024 tarihinde https://one.oecd.org/document/TAD/CA/APM/WP(2023)19/FINAL/en/pdf adresinden ulaşılmıştır).

Timoshenko, I. (2023). Agricultural Robots: Farming Smarter, Not Harder. (15/05/2023 tarihinde https://aiforgood.itu.int/agricultural-robots-farming-smarter-not-harder/ adresinden ulaşılmıştır).

URL-1, Foodtank, Artificial Intelligence in the Food Industry: Empowering Farmers’ Decision-Making. (20/07/2024 tarihinde https://foodtank.com/news/2017/11/artificial-intelligence-part3/ adresinden ulaşılmıştır).

URL-2, Agmatix, The role of industry 4.0 in agriculture, https://www.agmatix.com/blog/the-role-of-industry-4-0-in-agriculture/, ET: 18.07.2024

URL-3, TOLL, How Drones Are Used in Agriculture. (21/07’024 tarihinde https://tolluncrewedsystems.com/blog/how-drones-are-used-in-agriculture/ adresinden ulaşılmıştır).

URL-4, KhetiBuddy, How Data Analytics is Transforming the Agriculture Industry? ( 04/08/2024 tarihinde https://khetibuddy.com/how-data-analytics-is-transforming-the-agriculture-industry/ adresinden ulaşılmıştır).

URL-5, Emerging India (2024). Top 10 Uses of Data Analytics in Agriculture Sector, (04/08/2024 tarihinde https://emergingindiagroup.com/top-10-uses-of-data-analytics-in-agriculture-sector/ adresinden ulaşılmıştır).

URL-6, Infopulse (2024, 6 Şubat). Key Agro Challenges Solved by Advanced Data Analytics. ( 04/08/2024 tarihinde https://www.infopulse.com/blog/data-analytics-use-cases-agriculture adresinden ulaşılmıştır).

URL-7, DRONELAUNCHacademy, How Are Drones Used in Agriculture? (09/07/2024 tarihinde https://dronelaunchacademy.com/resources/how-are-drones-used-in-agriculture/ adresinden alınmıştır)

URL-8, Getac, (2023). How Technology Supports Agriculture 4.0 and the Future of Farming. (12/05/2024 tarihinde https://www.getac.com/intl/blog/future-of-farming/?utm_medium=paidsearch&utm_source=google&utm_campaign=7013w0000023nWu&gad_source=5&gclid=EAIaIQobChMI6IvTo5eIhgMVjgCiAx170AF2EAAYBCAAEgJgBvD_BwE adresinden ulaşılmıştır).

URL-9, SpencerStuart, (2020). Leading the Agriculture Industry into the Future, ( 12/05/2024 tarihinde https://www.spencerstuart.com/research-and-insight/leading-the-agriculture-industry-into-the-future adresinden ulaşılmıştır).

URL-10, Tracxn (2024). AgriTech startups in Netherlands. (01/08/2024 tarihinde https://tracxn.com/d/explore/agritech-startups-in-netherlands/__vVR-XvgpyN7GOCc3u4u6XiJxfYJiQoM8JzAYOvmkeMo/companies#:~:text=AgriTech%20startups%20in%20Netherlands,-Last%20updated%3A%20August&text=There%20are%20558%20AgriTech%20startups,Solynta%2C%20Hendrix%20Genetics%2C%20Priva adresinden ulaşılmıştır).

URL-11, Australian Government, Australian Trade and Investment Commission , Australia’s high-tech food and farming, 12/05/2024 tarihinde https://international.austrade.gov.au/en/do-business-with-australia/sectors/technology/agrifood-tech adresinden ulaşılmıştır).

URL-12, Climate Watch. Drivers of Emissions, https://www.climatewatchdata.org/sectors/agriculture#drivers-of-emissions

URL-, Plantix, Farmers can now get immediate help on infected crops-for free. (23/07/2024 tarihinde https://plantix.net/en/blog/plant-disease-detection-whatsapp/ adresinden ulaşılmıştır).

URL-14, Enterprise League (2024). 31 top agriculture and agtech startups in 2024. (04/04/2024 tarihinde https://enterpriseleague.com/blog/agriculture-startups/ adresinden ulaşılmıştır).

URL-15, Hodgson-Coyle, N. (2024). 50 Agtech Startups. (27/02/2024 tarihinde https://technews180.com/cleantech/agtech-startups/ adresinden ulaşılmıştır).

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