Buckwheat, sown in warmed soil, quickly sprouts, grows and successfully competes with annual weeds. However, such agronomic practice does not always lead to a good grain yield, because a powerful, abundantly flowering buckwheat plants often give only a minimal amount of seeds due to a lack of moisture in the upper layer of soil during flowering. This behavior of buckwheat is described as "overgrowth (with poor seed formation)". This phenomenon is caused by the relative weakness of the root system of this species: the specific feature of buckwheat is a very fast transition to formation of secondary roots, which gives advantages at the first stages of development, but restricts the roots growth later. Buckwheat flowering is stretched in time. First half of this developmental stage which is most important for the grain yield is coincided with the most intensive vegetative growth. The lowered temperature at the seedlings stages slows the growth of the aboveground biomass and accelerates the growth of the roots that at later stages favorably affects the conditions for seeds development and, respectively, the grain yield. It explains why early sowing time is favorable for the grain yield of buckwheat.

Botwright Acuna, T.L., Wade L.J. (2012). Genotype × environment interaction for root depth of wheat. Field Crops Research, 137, 117-125. https://doi.org/10.1016/j.fcr.2012.08.004

Campbell, C. (2003). Buckwheat crop improvement. Fagopyrum, 20, 1-6.

Dubrovsky, J.G., Laskowski, M. (2017). Lateral root initiation. In: B. Tomas, B.G. Murray & D.G. Murphy (Eds.) Encyclopedia of applied plant sciences (2nd edition)(pp. 256-264). Oxford: Academic Press.

Fesenko, N.N., Martynenko, G.E., Funatsuki, H., Romanova, O.I. (1999). Comparison of some buckwheat cultivars in conditions of Russia and Hokkaido using morphological descriptors-indicators of duration of vegetation period. Research Bulletin of Hokkaido National Experimental Station, №267, 149-156.

Fesenko, N.V. (1983). Breeding and seed farming of buckwheat. Moscow: Kolos. (in Russian)

Fesenko, N.V. (1990). Research and breeding work with buckwheat in USSR (Historic Survey). Fagopyrum, 10, 47-50.

Grossman, J.D., Rice, K.J. (2012). Evolution of root plasticity responses to variation in soil nutrient distribution and concentration. Evolutionary Applications, 5, 850-857. https://doi.org/10.1111/j.1752-4571.2012.00263.x

Gubbels, G.H. (1977). Interaction of cultivars sowing date and sowing rate on lodging, yield and seed weight of buckwheat. Canadian Journal of Plant Science, 57, 317-321. https://doi.org/10.4141/cjps77-048

Hagiwara, M., Inoue N., Matano, T. (1998). Allometry among roots, leaves and flower clusters in common buckwheat. Fagopyrum, 15, 29-34.

Honda, Y., Mukasa, Y., Suzuki, T. (2010). Effect of earlier sowing on summer type of common buckwheat in the northern area of Japan. In: V.I. Zotikov, N.V. Parakhin (Eds.) Proceedings of 11th International Symposium on Buckwheat (pp. 612-615). Orel: Kartush.

Ilina, E.L., Kiryushkin, A.S., Tsyganov, V.E., Pawlowski, К., Demchenko, K.N. (2017). Molecular, genetic and hormonal outlook in root branching (review). Sel’skokhozyaistvennaya biologiya [Agricultural Biology], 52, 856-868. https://doi.org/10.15389/agrobiology.2017.5.856eng (in Russian)

Kell, D.B. (2011). Breeding crop plants with deep roots: their role in sustainable carbon, nutrient and water sequestration. Annals of Botany, 108, 407-418. https://doi.org/10.1093/aob/mcr175.

Kostyro, V.P. (1971). Creation of cold-resistant varieties of buckwheat. In: Breeding, genetics and biology of buckwheat (pp. 25-28). Orel: VNIIZBK. (in Russian)

Krotov, A.S. (1960). From the history of buckwheat cultivation in the USSR. In: Materials on the history of agriculture and peasantry of the USSR, V4 (pp. 414-456). Moscow: USSR Academy of Science. (in Russian)

Losev, S.I., Khlebnikov, A.I. (1973). About the timing of sowing buckwheat. Bull. NTI VNIIZBK (Orel), №4, 72-78. (in Russian)

Lynch, J. (1995). Root architecture and plant productivity. Plant Physiology, 109, 7-13. https://doi.org/10.1104/pp.109.1.7

Martynenko, G.E. (1988). Morphobiological features and prospects of breeding of the determinant form of buckwheat. In: Prospects for increasing buckwheat yield and grain quality (pp. 21-24). Kishinev. (in Russian)

Meister, R., Rajani, M.S., Ruzicka, D., Schachtman, D.P. (2014). Challenges of modifying root traits in crops for agriculture. Trends in Plant Science, 19, 779-788. https://doi.org/10.1016/j.tplants.2014.08.005

Narayanan, S., Mohan, A., Gill, K.S., Prasad, P.V.V. (2014). Variability of root traits in spring wheat germplasm. PLoS ONE, 9, e100317. https://doi.org/10.1371/journal.pone.0100317.

O'Dell, D.H., Foard, D.E. (1969). Presence of lateral root primordia in the radicle of buckwheat embryos. Bulletin of the Torrey Botanical Club, 96, 1-3. https://doi.org/10.2307/2484002

Park, C.H., Kim, J.H., Chang, K.J., Woo, S.H., Lee, M.H., Briatia, X. (2010). Effect of temperature, deep sea water, and seed quality on growth of buckwheat sprouts. In: V.I. Zotikov, N.V. Parakhin (Eds.) Proceedings of 11th International Symposium on Buckwheat (pp. 631-636). Orel: Kartush.

Shashkin, Yu.A., Mazalov, V.I. (1992). Sowing dates and yield of buckwheat. In: Improving the breeding and technology of cultivating legumes and groats crops (pp. 222-225). Orel: VNIIZBK. (in Russian)

Szelezniak, E., Podolska, G., Rubicki, L. (2010). Influence of herbicides on weed control in buckwheat and buckwheat yielding. In V.I. Zotikov, N.V. Parakhin (Eds.) Proceedings of 11th International Symposium on Buckwheat (pp. 661-665). Orel: Kartush.

FAO. (2014). FAOSTAT database. Retrieved from http://www.fao.org/faostat/en/#home