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Impact of Climate Change on Agricultural Production and Food Security

Year 2024, , 45 - 50, 23.09.2024
https://doi.org/10.24323/akademik-gida.1554438

Abstract

This comprehensive analysis provides a detailed examination of the impacts of climate change on the agricultural sector, offering sustainable solutions with the objective of ensuring global food security. The detrimental impact of climate change on agricultural production, including global warming, significant alterations in precipitation patterns, and extreme weather events, has been meticulously assessed, with careful consideration given to their potential consequences for future food supply and security. In this context, a number of critical strategies and policies have been proposed, including the strengthening of water management policies, the advancement of sustainable agricultural practices, the development of climate-resilient seeds, and the enhancement of agricultural technologies. Moreover, the imperative for international collaboration and shared accountability has been forcefully emphasised, underscoring the necessity of maintaining this pivotal issue at the forefront of the global agenda. It is evident that a comprehensive approach is essential for combating climate change and ensuring sustainable agricultural production. Sustainable solutions and international cooperation are vital for guaranteeing a reliable future food supply and food security. In this context, the implementation of the proposed strategies and policies represents a crucial step towards aligning the agricultural sector with future needs and effectively addressing climate change.

References

  • [1] Devendra, C. (2012). Climate change threats and effects: challenges for agriculture and food security. Kuala Lumpur: Academy of Sciences Malaysia.
  • [2] Kumar, L., Chhogyel, N., Gopalakrishnan, T., Hasan, M.K., Jayasinghe, S.L., Kariyawasam, C.S., Ratnayake, S. (2022). Climate change and future of agri-food production. In Future Foods, Academic Press, 49-79.
  • [3] Bozoglu, M., Başer, U., Eroglu, N.A., Topuz, B.K. (2019). Impacts of climate change on Turkish agriculture. Journal of International Environmental Application and Science, 14(3), 97-103.
  • [4] Anonymous, 2024a. https://berkeleyearth.org/global-temperature-report-for-2023/, [Cited: May 1, 2024].
  • [5] Lee, H. (2023). AR6 Synthesis Report: Intergovernmental Panel on Climate Change. Interlaken, Switzerland: World Meteorological Organization, 2023.
  • [6] Fróna, D., Szenderák, J., Harangi-Rákos, M. (2019). The challenge of feeding the world. Sustainability, 11(20), 5816.
  • [7] Anonymous, (2024b). March 22, 2024. https://www.statista.com/chart/26140/water-stress-projections-global/, [Cited: May 2, 2024].
  • [8] Dietrich, J., Hammerl, J.A., Johne, A., Kappenstein, O., Loeffler, C., Nöckler, K., Richter, M.H. (2023). Impact of climate change on foodborne infections and intoxications. Journal of Health Monitoring, 8(3), 78.
  • [9] Abd-Elmabod, S.K., Muñoz-Rojas, M., Jordán, A., Anaya-Romero, M., Phillips, J.D., Jones, L., de la Rosa, D. (2020). Climate change impacts on agricultural suitability and yield reduction in a Mediterranean region. Geoderma, 374, 114453.
  • [10] Çakmakçı, R., Salık, M.A., Çakmakçı, S. (2023). Assessment and principles of environmentally sustainable food and agriculture systems. Agriculture, 13(5), 1073.
  • [11] Galanakis, C.M. (2024). The Future of Food. Foods, 13(4), 506.
  • [12] Daszkiewicz, T. (2022). Food production in the context of global developmental challenges. Agriculture, 12(6), 832.
  • [13] Ogunkalu, O. (2021). Effects of climate change on food production. Eurasian Journal of Food Science and Technology, 5(2), 213-222.
  • [14] Godde, C.M., Mason-D’Croz, D., Mayberry, D.E., Thornton, P.K., Herrero, M. (2021). Impacts of climate change on the livestock food supply chain; a review of the evidence. Global Food Security, 28, 100488.
  • [15] Kalfas, D., Kalogiannidis, S., Papaevangelou, O., Melfou, K., Chatzitheodoridis, F. (2024). Integration of Technology in agricultural practices towards agricultural sustainability: A case study of Greece. Sustainability, 16(7), 2664.
  • [16] Giordani, P.E., Rocha, N., Ruta, M. (2016). Food prices and the multiplier effect of trade policy. Journal of International Economics, 101, 102-122.
  • [17] Giovannucci, D., Scherr, S. J., Nierenberg, D., Hebebrand, C., Shapiro, J., Milder, J., Wheeler, K. (2012). Food and Agriculture: the future of sustainability. The sustainable development in the 21st century (SD21) Report for Rio.
  • [18] TUIK. Crop production statistics. Ankara: Turkish Statistical Institute, 2023.
  • [19] TUIK. Livestock Production Statistics. Ankara: Turkish Statistical Institute, 2023.
  • [20] Wang, X. (2022). Managing land carrying capacity: Key to achieving sustainable production systems for food security. Land, 11(4), 484.
  • [21] Taoumi, H., Lahrech, K. (2023). Economic, environmental and social efficiency and effectiveness development in the sustainable crop agricultural sector: A systematic in-depth analysis review. Science of the Total Environment, 165761.
  • [22] Grigorieva, E., Livenets, A., Stelmakh, E. (2023). Adaptation of agriculture to climate change: A scoping review. Climate, 11(10), 202.
  • [23] Balasundram, S.K., Shamshiri, R.R., Sridhara, S., Rizan, N. (2023). The role of digital agriculture in mitigating climate change and ensuring food security: an overview. Sustainability, 15(6), 5325.
  • [24] Islam, M. S., Kieu, E. (2020). Tackling regional climate change impacts and food security issues: A critical analysis across ASEAN, PIF, and SAARC. Sustainability, 12(3), 883.

İklim Değişikliğinin Tarımsal Üretim ve Gıda Arz Güvenliğine Etkisi

Year 2024, , 45 - 50, 23.09.2024
https://doi.org/10.24323/akademik-gida.1554438

Abstract

İklim değişikliğinin tarım sektörü üzerindeki etkilerini derinlemesine ele alan bu kapsamlı analiz, küresel gıda güvenliğini teminat altına almak amacıyla sürdürülebilir çözüm önerileri sunmaktadır. Küresel ısınma, yağış desenlerindeki köklü değişiklikler ve aşırı hava olayları gibi iklim değişikliğinin tarımsal üretim üzerindeki yıkıcı etkileri titizlikle değerlendirilmiş, bu etkilerin gelecekteki gıda arzı ve güvenliği üzerindeki olası sonuçları dikkatle gözden geçirilmiştir. Bu bağlamda, su yönetimi politikalarının güçlendirilmesi, sürdürülebilir tarım uygulamalarının daha ileriye taşınması, iklime dayanıklı tohumların geliştirilmesi ve tarım teknolojilerinin iyileştirilmesi gibi kritik stratejiler ve politikalar ortaya konulmuştur. Ayrıca, uluslararası işbirliği ve ortak sorumluluğun zaruriyeti güçlü bir şekilde vurgulanmış, bu hayati meselenin küresel düzeyde sürekli olarak gündemde tutulmasının önemi üzerinde durulmuştur. Sonuç olarak, iklim değişikliği ile mücadele etmek ve sürdürülebilir tarımsal üretimi güvence altına almak için kapsamlı bir yaklaşımın kaçınılmaz olduğu net bir şekilde ortaya konulmuştur. Sürdürülebilir çözümler ve uluslararası işbirliği, gelecekteki gıda arzını ve güvenliğini temin etmek için vazgeçilmez birer unsurdur. Bu bağlamda, önerilen strateji ve politikaların hayata geçirilmesi, tarım sektörünü geleceğin ihtiyaçlarına uygun hale getirmek ve iklim değişikliği ile etkin bir şekilde mücadele etmek adına kritik bir adım teşkil etmektedir.

References

  • [1] Devendra, C. (2012). Climate change threats and effects: challenges for agriculture and food security. Kuala Lumpur: Academy of Sciences Malaysia.
  • [2] Kumar, L., Chhogyel, N., Gopalakrishnan, T., Hasan, M.K., Jayasinghe, S.L., Kariyawasam, C.S., Ratnayake, S. (2022). Climate change and future of agri-food production. In Future Foods, Academic Press, 49-79.
  • [3] Bozoglu, M., Başer, U., Eroglu, N.A., Topuz, B.K. (2019). Impacts of climate change on Turkish agriculture. Journal of International Environmental Application and Science, 14(3), 97-103.
  • [4] Anonymous, 2024a. https://berkeleyearth.org/global-temperature-report-for-2023/, [Cited: May 1, 2024].
  • [5] Lee, H. (2023). AR6 Synthesis Report: Intergovernmental Panel on Climate Change. Interlaken, Switzerland: World Meteorological Organization, 2023.
  • [6] Fróna, D., Szenderák, J., Harangi-Rákos, M. (2019). The challenge of feeding the world. Sustainability, 11(20), 5816.
  • [7] Anonymous, (2024b). March 22, 2024. https://www.statista.com/chart/26140/water-stress-projections-global/, [Cited: May 2, 2024].
  • [8] Dietrich, J., Hammerl, J.A., Johne, A., Kappenstein, O., Loeffler, C., Nöckler, K., Richter, M.H. (2023). Impact of climate change on foodborne infections and intoxications. Journal of Health Monitoring, 8(3), 78.
  • [9] Abd-Elmabod, S.K., Muñoz-Rojas, M., Jordán, A., Anaya-Romero, M., Phillips, J.D., Jones, L., de la Rosa, D. (2020). Climate change impacts on agricultural suitability and yield reduction in a Mediterranean region. Geoderma, 374, 114453.
  • [10] Çakmakçı, R., Salık, M.A., Çakmakçı, S. (2023). Assessment and principles of environmentally sustainable food and agriculture systems. Agriculture, 13(5), 1073.
  • [11] Galanakis, C.M. (2024). The Future of Food. Foods, 13(4), 506.
  • [12] Daszkiewicz, T. (2022). Food production in the context of global developmental challenges. Agriculture, 12(6), 832.
  • [13] Ogunkalu, O. (2021). Effects of climate change on food production. Eurasian Journal of Food Science and Technology, 5(2), 213-222.
  • [14] Godde, C.M., Mason-D’Croz, D., Mayberry, D.E., Thornton, P.K., Herrero, M. (2021). Impacts of climate change on the livestock food supply chain; a review of the evidence. Global Food Security, 28, 100488.
  • [15] Kalfas, D., Kalogiannidis, S., Papaevangelou, O., Melfou, K., Chatzitheodoridis, F. (2024). Integration of Technology in agricultural practices towards agricultural sustainability: A case study of Greece. Sustainability, 16(7), 2664.
  • [16] Giordani, P.E., Rocha, N., Ruta, M. (2016). Food prices and the multiplier effect of trade policy. Journal of International Economics, 101, 102-122.
  • [17] Giovannucci, D., Scherr, S. J., Nierenberg, D., Hebebrand, C., Shapiro, J., Milder, J., Wheeler, K. (2012). Food and Agriculture: the future of sustainability. The sustainable development in the 21st century (SD21) Report for Rio.
  • [18] TUIK. Crop production statistics. Ankara: Turkish Statistical Institute, 2023.
  • [19] TUIK. Livestock Production Statistics. Ankara: Turkish Statistical Institute, 2023.
  • [20] Wang, X. (2022). Managing land carrying capacity: Key to achieving sustainable production systems for food security. Land, 11(4), 484.
  • [21] Taoumi, H., Lahrech, K. (2023). Economic, environmental and social efficiency and effectiveness development in the sustainable crop agricultural sector: A systematic in-depth analysis review. Science of the Total Environment, 165761.
  • [22] Grigorieva, E., Livenets, A., Stelmakh, E. (2023). Adaptation of agriculture to climate change: A scoping review. Climate, 11(10), 202.
  • [23] Balasundram, S.K., Shamshiri, R.R., Sridhara, S., Rizan, N. (2023). The role of digital agriculture in mitigating climate change and ensuring food security: an overview. Sustainability, 15(6), 5325.
  • [24] Islam, M. S., Kieu, E. (2020). Tackling regional climate change impacts and food security issues: A critical analysis across ASEAN, PIF, and SAARC. Sustainability, 12(3), 883.
There are 24 citations in total.

Details

Primary Language English
Subjects Food Engineering
Journal Section Review Papers
Authors

Nevzat Artık 0000-0001-5583-6719

Yalçın Güçer 0000-0002-7280-584X

Ender Sinan Poyrazoğlu 0000-0003-0556-3016

Publication Date September 23, 2024
Submission Date June 1, 2024
Acceptance Date August 26, 2024
Published in Issue Year 2024

Cite

APA Artık, N., Güçer, Y., & Poyrazoğlu, E. S. (2024). Impact of Climate Change on Agricultural Production and Food Security. Akademik Gıda(Yeşil Dönüşüm Özel Sayısı), 45-50. https://doi.org/10.24323/akademik-gida.1554438
AMA Artık N, Güçer Y, Poyrazoğlu ES. Impact of Climate Change on Agricultural Production and Food Security. Akademik Gıda. September 2024;(Yeşil Dönüşüm Özel Sayısı):45-50. doi:10.24323/akademik-gida.1554438
Chicago Artık, Nevzat, Yalçın Güçer, and Ender Sinan Poyrazoğlu. “Impact of Climate Change on Agricultural Production and Food Security”. Akademik Gıda, no. Yeşil Dönüşüm Özel Sayısı (September 2024): 45-50. https://doi.org/10.24323/akademik-gida.1554438.
EndNote Artık N, Güçer Y, Poyrazoğlu ES (September 1, 2024) Impact of Climate Change on Agricultural Production and Food Security. Akademik Gıda Yeşil Dönüşüm Özel Sayısı 45–50.
IEEE N. Artık, Y. Güçer, and E. S. Poyrazoğlu, “Impact of Climate Change on Agricultural Production and Food Security”, Akademik Gıda, no. Yeşil Dönüşüm Özel Sayısı, pp. 45–50, September 2024, doi: 10.24323/akademik-gida.1554438.
ISNAD Artık, Nevzat et al. “Impact of Climate Change on Agricultural Production and Food Security”. Akademik Gıda Yeşil Dönüşüm Özel Sayısı (September 2024), 45-50. https://doi.org/10.24323/akademik-gida.1554438.
JAMA Artık N, Güçer Y, Poyrazoğlu ES. Impact of Climate Change on Agricultural Production and Food Security. Akademik Gıda. 2024;:45–50.
MLA Artık, Nevzat et al. “Impact of Climate Change on Agricultural Production and Food Security”. Akademik Gıda, no. Yeşil Dönüşüm Özel Sayısı, 2024, pp. 45-50, doi:10.24323/akademik-gida.1554438.
Vancouver Artık N, Güçer Y, Poyrazoğlu ES. Impact of Climate Change on Agricultural Production and Food Security. Akademik Gıda. 2024(Yeşil Dönüşüm Özel Sayısı):45-50.

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