Open Access
Issue
BIO Web Conf.
Volume 52, 2022
International Scientific-Practical Conference “Agriculture and Food Security: Technology, Innovation, Markets, Human Resources” (FIES 2022)
Article Number 00055
Number of page(s) 6
DOI https://doi.org/10.1051/bioconf/20225200055
Published online 21 September 2022
  • J. T. Houghton, Y. Ding, D. J. Griggs et al. (Eds.) Climate Change 2001. The Scientific Basis. Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change (Cambridge: Cambridge Univ. Press, 2001) [Google Scholar]
  • Assessment of the risks of climate change in 2021. Retrieved from: https://www.chathamhouse.org/2021/09/climate-change-risk-assessment-2021/03-direct-climate-impacts (2021) [Google Scholar]
  • Y. A. Israel, S. M. Semenov Example of the calculation of critical boundaries of the content of greenhouse gases in the atmosphere with the help of a minimal simulation model of the greenhouse effect, Reports of the Academy of Sciences 4, 533–536 (2003) [Google Scholar]
  • I. K. Rodin, Emissions of greenhouse gases and Russia's contribution to the fight against global warming. Ecological state of the natural environment and scientific and practical aspects of modern agrotechnologies, Materials of the V International Scientific and Practical Conference, Ryazan, Individual entrepreneur Konyakhin Alexander Viktorovich, pp 353–355 (2021) [Google Scholar]
  • Zh. I. Sadykhova, Warming of the climate as a problem of threat to the biosphere, Proceedings of the International Symposium “Reliability and Quality”, pp 243–245 (2020) [Google Scholar]
  • I. Maksimov, N. Adigamov, A. Mustafin, D. Khaliullin, I. Gayaziev, A. Matyashin, R. Lukmanov, Theoretical fundamentals for determining soil erosion potential, Grupo Tchê Química 16 (31), 540–557 (2019) [Google Scholar]
  • The World Bank proposed to reduce greenhouse gas emissions by preserving forests, Bulletin of Environmental Education in Russia 4, 11, (2007) [Google Scholar]
  • V. D. Burkov, V. F. Krapivin, V. S. Shalaev, The role of forest ecosystems in the regulation of the greenhouse effect, Bulletin of Moscow State Forest University – Forest Herald 1, 20–31 (2008) [Google Scholar]
  • S. I. Shiyan, K. A. Ilyinsky, I. O. Pashurenko, Processing of waste of the livestock complex as a solution to the problem of the greenhouse effect and the way to obtain a source of energy, Science. Technique. Technologies (Polytechnic Bulletin) 4, 219–227 (2016) [Google Scholar]
  • E. V. Klimova, Saving agriculture, greenhouse effect, reduction of CO2 emissions and protection of the environment: politics and prospects (Soil protection agriculture) Ecological safety in APK, Abstract journal 4, 914 (2006) [Google Scholar]
  • LNG will save the world from the greenhouse effect AvtoGasRefueling Complex + Alternative Fuel 1 (61), 80–82 (2012) [Google Scholar]
  • O. K. Bezyukov, V. A. Zhukov, Thermal engines and greenhouse effect, Bulletin of Mechanical Engineering 7, 84–88 (2013) [Google Scholar]
  • G. G. Galeev, To substantiate the needs of peasant and small farms in tractors, Bulletin of Kazan State Agrarian University 4 (18), 106–107 (2010) [Google Scholar]
  • G. G. Galeev, To the calculation of transport support for harvesting units in the agro-industrial complex, Bulletin of Kazan State Agrarian University 3 (21), 75–77 (2011) [Google Scholar]
  • F. Kh. Khaliullin, Estimation of design parameters of the crank-connecting rod mechanism of engines for mobile agricultural machines, BIO Web of Conferences 17, 00076, (2021) [CrossRef] [EDP Sciences] [Google Scholar]
  • I. G. Gainutdinov, Beet production efficiency and ways to increase it in case of negative market conditions in the commodity market, BIO Web of Conferences 17, 00108, (2020) [Google Scholar]
  • I. G. Gainutdinov, R. R. Gadelshin, Prospects for the development of production and processing of potatoes in Russia, Vector of economy 6 (48), 30, (2020) [Google Scholar]
  • I. G. Galiev, A. A. Mukhametshin, I. R. Iskhakov, A. R. Shamsutdinov, Increasing the efficiency of tractors in modern conditions, Bulletin of Kazan State Agrarian University 1 (12), 169–172 (2009) [Google Scholar]
  • M. N. Kalimullin, R. K. Abdrakhmanov, I. G. Galiev, Perfection of potato cultivation technology Technics and Equipment for the Village 4, 6–9 (2017) [Google Scholar]
  • D. Khaliullin, A. Belinsky, A. Valiev, R. Lukmanov, Optimization of plow adjustment and Gaston Bourges, BIO Web of Conferences 27, 00103, (2020). [Google Scholar]
  • K. A. Khafizov, Reduction of total energy costs on technological operations in the agro-industrial complex - the way to reduce greenhouse gas emissions in the atmosphere, Bulletin of Kazan State Agrarian University 3 (63), 43–47 (2021) [CrossRef] [Google Scholar]
  • K. A. Khafizov, System mathematical model of vehicles according to the optimization criterion -minimum emission of carbon dioxide into the atmosphere, Dynamics of mechanical systems: materials of the II International Scientific and Practical Conference dedicated to the memory of Professor A. K. Yuldashev, Kazan State Agrarian University, pp 122–130 (2021) [Google Scholar]
  • D. A. Yakovlev, Energy assessment of coulters during the operation of sowing units in conditions of different soil moisture of the steppe zone of Siberia: PhD Dissertation (Barnaul, 2020) [Google Scholar]
  • R. I. Safin et al., Control of soil over compaction in resource-saving agriculture, Methodical recommendations Kazan State Agrarian University 48 (2018) [Google Scholar]
  • C. Khafizov, R. Khafizov, A. Nurmiev, R. Usenkov, Optimization of main parameters of tractor and unit for deep processing of soil according to criterion -total energy costs, Engineering for rural development, pp 603–608 (2020) [Google Scholar]
  • Tractor Belarus 3522.5 – Operating instructions (3522.5-000010 RE) (2011) [Google Scholar]

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