Ekologik omillar o‘zgarishining dehqon xo‘jaliklari yalpi hosiliga ta’siri
DOI:
https://doi.org/10.5281/zenodo.15675041Keywords:
ekologik omillar, dehqon xo‘jaligi, yalpi hosil, iqlim o‘zgarishi, tuproq degradatsiyasi, suv resurslariAbstract
Ushbu maqolada ekologik omillar, xususan iqlim o‘zgarishi, suv resurslarining kamayishi, tuproq
degradatsiyasi va boshqa tabiiy omillarning dehqon xo‘jaliklari yalpi hosiliga ko‘rsatadigan ta’siri tahlil qilinadi. Tadqiqotda
statistik ma’lumotlar asosida hosildorlikka ta’sir etuvchi asosiy ekologik ko‘rsatkichlar o‘rganilgan, shuningdek, ularning
qishloq xo‘jaligi barqarorligiga bo‘lgan salbiy va ijobiy ta’sirlari yoritilgan. Maqolada muammoga yechim sifatida ekologik
jihatdan barqaror qishloq xo‘jaligi amaliyotlarini joriy etish zarurligi ta’kidlangan.
References
Ortiz-Bobea, A. va boshqalar. (2020). The Historical Impact of Anthropogenic Climate Change on Global Agricultural
Productivity. arXiv. https://arxiv.org/abs/2007.10415
Ali, S. va boshqalar. (2017). Climate Change and Its Impact on the Yield of Major Food Crops: Evidence from Pakistan.
Foods, 6(6), 39. https://doi.org/10.3390/foods6060039
Osman, M. A. A. va boshqalar. (2021). Climate Variability and Change Affect Crops Yield under Rainfed Conditions.
Agronomy, 11(9), 1680. https://doi.org/10.3390/agronomy11091680
Ibragimov, N. va boshqalar. (2020). Simulating Crop Productivity in a Triple Rotation in the Semi-arid Area of the Aral
Sea Basin. International Journal of Plant Production, 14(3), 273–285. https://doi.org/10.1007/s42106-019-00083-3
FAO. (2024). Climate Change and Soil Salinization Report. https://news.cornell.edu/stories/2021/04/climate-changehas-
cost-7-years-ag-productivity-growth
Khasanov, S. va boshqalar. (2023). Impact Assessment of Soil Salinity on Crop Production in Uzbekistan. Agriculture,
Ecosystems & Environment, 342, 108262. https://doi.org/10.1016/j.agee.2022.108262
Sommer, R. va boshqalar. (2013). Impact of Climate Change on Wheat Productivity in Central Asia. Agriculture,
Ecosystems & Environment, 178, 78–99. https://doi.org/10.1016/j.agee.2013.06.016
Djumaniyazova, Y. va boshqalar. (2020). Simulating Crop Productivity in a Triple Rotation in the Semi-arid Area of the
Aral Sea Basin. IJPP, 14(3), 273–285. https://doi.org/10.1007/s42106-019-00083-3
Nurbekov, A. va boshqalar. (2025). Arid Irrigated Winter Wheat and Soybean Cropping under Conservation Tillage
Systems. Frontiers in Sustainable Food Systems, 9, 1512277. https://doi.org/10.3389/fsufs.2025.1512277
Wheeler, T. and von Braun, J. (2013). Climate Change Impacts on Global Food Security. Science, 341(6145), 508–513.
Le Monde. (2024). “2024: A year of agricultural calamities driven by climate change.” https://www.lemonde.fr/en/
environment/article/2024/10/18/2024-a-year-of-agricultural-calamities-driven-by-climate-change_6729802_114.html
FAO Uzbekistan. (2023). Assessment of Soil Salinity and Crop Yield Reduction in Karakalpakstan. https://www.fao.org/
uzbekistan/
Jalilov, S. va boshqalar. (2018). Irrigation Practices and Land Degradation in Uzbekistan. Environmental Monitoring
and Assessment, 190(3), 167.
FAO. (2022). Innovations for Climate-Smart Agriculture in Central Asia. https://www.fao.org/climate-smart-agriculture
Mamatov, B. (2024). Socio-Economic Impacts of Crop Diversification in Aral Sea Region. Sustainability, 16(2), 347.
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