Variability in hydrothermal coefficient (HTC) and productivity of pasture ecosystems of Tersko-Kuma lowland, Russia

Authors

  • L. P. RYBASHLYKOVA Federal Scientific Centre of Agroecology, Complex Meliorations and Protective Afforestation of Russian Academy of Sciences, Volgograd, Russia

DOI:

https://doi.org/10.54386/jam.v27i2.2653

References

Badakhova G.H., and Knutov, A.V. (2007) Stavropol Krai: modern climatic conditions - Stavropol, SUE IC "Regional communication networks". p. 272.

Chernokulsky A.V., Eliseev A.V., Kozlov F.A., Korshunova N.N., Kurgansky M.V., Mokhov I.I., Semenov V.A., Shvets N.V., Shikhov A.N., and Yarynich Yu. I. (2022) Dangerous atmospheric phenomena of a convective nature in Russia: observed changes according to various data. Meteorol. Hydrol., 5: 27–41. DOI: 10.52002/0130-2906-2022-5-27-41.

Hidalgo-Galvez, M.D., Matías, L., Cambrollé, J., Gutiérrez, E., and Pérez-Ramos, I. M. (2023). Impact of climate change on pasture quality in Mediterranean dehesas subjected to different grazing histories. Plant Soil. https://doi.org/10.1007/s11104-023-05986-9

Ksenofontov M. Yu. and Polzikov D. A. (2020) On the issue of the impact of climate change on the development of agriculture in Russia in the long term. Forecast. Problems. 3(180): 82–92.

Manaenkov, A.S., Rybashlykova, L.P., Sivtseva, S.N., and Makhovikova T.F. (2023) Silvopastoral Transformation of Desert Landsin the Caspian Sea Region. Arid ecosyst., 13, 1: 11–19.DOI: 10.1134/S2079096123010080

Pavlova V.N., Perevedentsev Yu.P., Karachenkova A.A., Tagirov M. Sh., and Mirsaeva N.A. (2023) Assessment of agro-climatic resources and yield of spring wheat in the Republic of Tatarstan. Meteorology and hydrology.1: 90–102. doi: 10.52002/0130-2906-2023-1-90-102.

Popova V.V., Bokuchava D.D., and Matveeva T.A. (2022) Extreme drought on the East European plain during the warming period of the mid-twentieth century: climatic characteristics and analogues in the conditions of modern climate. Arid ecosyst.,29, 2(95).3–11.doi: 10.24412/1993-3916-2023-2-3-11.

Rybashlykova L.P., Sivceva S.N., and Mahovikova T.F. (2023) Relationship between hydrothermal coefficient (HTC) and productivity of pastures in the arid zone of Northwestern Caspian Sea. J. Agrometeorol., 25(3): 454-457.DOI: 10.54386/jam.v25i3.2220

Vasiliev Yu.I., Voloshenkova T.V. and Ovechko N.N. (2013) Methodology for forecasting grain yield variation in the agroforestry landscape due to the instability of climatic characteristics. Reports Russ. Acad. Agric. Sci., 4: 54-57.

Voloshenkova T.V., Antonov S.A., Kalashnikova A.A. and Peregudov S.V. (2023) Trends in climate change in the arid regions of the Stavropol Territory. Achiev. Sci Technol. APK. 37: 11: 5-11. DOI: 10.53859/02352451_2023_37_11_5.

Zakharyan Yu. G., Komarov A.A., and Yanko Yu.G. (2023) Assessment of the differentiation of agrotechnologies in three gradations, taking into account global climate change. Modern Probl. Remote Sensing Earth Space. 20, 3: 67–70. doi: 10.21046/2070-7401-2023-20-3-61-70.

Zolotokrylin A.N., Cherenkova E.A. and Titkova T.B. (2020). Aridization of drylandsinthe European part of Russia: secular trends and links to droughts. Regional Res. Russia, 2: 207–217.

Downloads

Published

01-06-2025

How to Cite

RYBASHLYKOVA, L. P. (2025). Variability in hydrothermal coefficient (HTC) and productivity of pasture ecosystems of Tersko-Kuma lowland, Russia. Journal of Agrometeorology, 27(2), 236–238. https://doi.org/10.54386/jam.v27i2.2653