Grain sorghum young growth formation depending on weather conditions of the Eastern Forest-Steppe

UDC [633.174:631.547.1]:58.05(477.52/.6)

DOI: 10.31521/2313-092X/2019-2(102)-9

 

A. Svyrydov
A. Svyrydov

 

     Today remote sensing methods of the Earth are the main source for relief modeling. In recent years, the issue of updating the methodology soil mapping is more often raised. Today, the information component of the soil state consists of materials of large-scale soil surveys , which were conducted in the 50-60s of the last century. The use of materials obtained through remote sensing has made the process of soil mapping more technological. The basis for mapping soil taken digital elevation models, which is more of an alternative to the data obtained in a traditional way.
    The SRTM digital elevation model, was used in the work which is more accurate than other models. SRTM model based on radar interferometric survey of terrestrial surface by SIR-C/X-SAR radar system installed on board the spacecraft Shuttle Endeavor. The principle of operation of the radar complex is to measure the height of the reflecting, not the topographic surface: in the forested areas – the height of the trees, in the snowy area – the height of the snow cover.
     To construct a digital elevation model were chosen the sloping soils of the right-bank steppe of Ukraine, namely the agricultural land of the Arbuzinsky district of the Mykolaiv region. The terrain are represented by black soils with feeble and medium degree of blur.
     From the SRTM catalog received date for a clear distribution of the experimental field to the divide and the slope to construction a digital elevation model. Data processing was performed using the SAGA GIS software. On the basis of the obtained model, isolines were constructed and the following basic geomorphometric parameters such as slope and surface exposure, horizontal, vertical and general curvature were determined.
     The obtained results indicate that the attraction of modern ones GIS technologies and the digital elevation model are an integral part of the complete mapping and updating of existing ground maps.

     Keywords: soil mapping, remote sensing, digital terrain model, SRTM, geomorphometric parameters.

References

  1. Tkachenko T.G., Reshetchenko S.I. (2017) Suchasni agrometeorologichni umovy` na tery`toriyi Xarkivs`koyi oblasti, 2, 7–17.
  2. Rudny`k-Ivashhenko O.I., Storozhy`k L.I. (2011) Stan i perspekty`vy` sorgovy`x kul`tur v Ukrayini, 10, 198–206.
  3. Gerasy`menko L.A. (2013) Rist i rozvy`tok rosly`n sorgo czukrovogo za rizny`x strokiv sivby` ta gly`by`ny` zagortannya nasinnya v umovax Central`nogo Lisostepu Ukrayiny, 1, 76–78.
  4. Makarov L.X. (2006) Sorgovi kul`tury`: monografiya, 263.
  5. Rozhkov A.O., Svy`ry`dova L.A. (2017) Pol`ova sxozhist` nasinnya i vy`zhy`vanist` rosly`n sorgo zernovogo zalezhno vid vply`vu normy` vy`sivu nasinnya ta sposobu sivby, 1, 99-109.
  6. Anda A., Pinter L. (1994) Sorghum germination and development as influenced by soil temperature water content, Vol. 86, No 4, 621–624.
  7. Narkhede B.N., Shinde M.S., Patil S.P. (1997) Stability performance of sorghum varieties for grain and fodder yields / B.N. Narkhede, // Journal of Maharashtra Agricultural University, Vol. 22, 2, 179–181.
  8. Lapa O.M., Svy`ry`dov A.M., Shherbakov V.Ya. ta in. (2008) Vy`roshhuvannya zernovogo sorgo v umovax Ukrayiny` (prakty`chni rekomendaciyi), 36 s.
  9. Svy`ry`dova L.A., Rozhkov A.O. (2017) Ocinka rozvy`tku posiviv sorgo zernovogo za fenologichny`my` sposterezhennya, 4, 18-24.
  10. Dogget H. Sorghum, 1970, 403 p.
  11. Lingle S.E. (1987) Sucrose metabolized in the primary chute of sweet sorghum development, Vol. 27, No 6, Р.1214–1219.
  12. Shepel H.A. (1994) Sorgo, 448 s.
  13. Shherbakov V.Ya. (1983) Zernovoe sorgo, 192 s.
  14. Storozhy`k L.I., Sergyeyeva I.O. (2012) Monitory`ng agrofitocenoziv sorgovogo polya, 14, 345–348.
  15. Balan V.M., Storozhy`k L.I. (2010) Vy`roshhuvannya czukrovogo sorgo yak bioenergety`chnoyi kultury, 5, 14–16.
  16. Bojko M.O. (2016) Obg`runtuvannya agrotexnichny`x pry`jomiv vy`roshhuvannya sorgo zernovogo v umovax Pivdnya Ukrayiny, 33-39.
  17. Storozhyk L., Sergeyeva I. (2012) Influence of density of standing of plants f sweet sorghum on yield formation and accounting accumulation of water-soluble sugar, 18, С.80–83.
  18. Feyt M., Sartori V. (1977) La culture du sorgho grain, Vol. 53, Np 206, 27–28.
  19. Ovsiyenko I.A. Osobly`vosti formuvannya urozhajnosti zerna sorgo zalezhno vid strokiv sivby, 2, 21-28.
  20. Bojko M.O. (2016) Vply`v gustoty` posivu ta strokiv sivby` na produkty`vnist` gibry`div sorgo zernovogo v umovax Pivdni Ukrayiny, 3 (91), 96-104.
  21. Dospexov B.A. (1985) Metody`ka polevogo opita (s osnovamy` staty`sty`cheskoj obrabotky` rezul`tatov y`ssledovany`j, 351 s.
  22. Ermantraut E.R., Pry`syazhnyuk O.I., Shevchenko I.L. (2007) Sty`sty`chny`j analiz agronomichny`x doslidzhen` dany`x v paketi Statistica 6.0: metod. Vkazivky, 55 s.