Metrics

  • citations in SCIndeks: 0
  • citations in CrossRef:0
  • citations in Google Scholar:[]
  • visits in previous 30 days:10
  • full-text downloads in 30 days:3

Contents

article: 7 from 22  
Back back to result list
2017, vol. 33, iss. 4, pp. 475-486
The rainfall use efficiency and soybean grain yield under rainfed conditions in Vojvodina
aInstitute for Animal Husbandry, Belgrade-Zemun
bUniversity of Belgrade, Faculty of Agriculture
cMaize Research Institute 'Zemun Polje', Belgrade-Zemun

emailvioleta_randjelovic@yahoo.com
Project:
Implementation of new biotechnological solution in breeding of cattle, sheep and goats for the purpose of obtaining biologically valuable and safe food (MESTD - 31053)

Abstract
Rainfall is one of the most important environmental factors influencing crop production under dry land farming conditions. In the Republic of Serbia, the soybean is produced under rainfed conditions, and therefore online monitoring of the rainfall use efficiency (RUE) is essential for efficient management of production. The research aim was to estimate the effects of amount rainfall during the growing season (RGS) and average monthly rainfall on soybean grain yield (GY) in the Vojvodina during the sixteen year period (2000-2015). Distributions of RGS were not satisfactory and negatively influenced the expression genetic yield potential of cultivars. Rainfall deficits during the growing season limited the soybean plant reproductive growth stages leading to GY loss. The coefficient of variation indicated that RGS and monthly rainfall changed moderately from year to year. Regression equations showed that GY tended to increase with the amount of rainfall. GY had strong positive relationship with RGS and rainfall in May, July and August. Since the amount and distribution of rainfall during growing season are critical determinants of GY, soybean cultivars of shorter vegetation periods should be developed and cultivated so that maximum utilization of rainfall is ensured.
References
Bošnjak, Đ. (2004) Suša i njen odnos prema ratarskoj proizvodnji u Vojvodini. Zbornik radova Instituta za ratarstvo i povrtarstvo, br. 40, str. 45-55
Catuchi, T.A., Vítolo, H.F., Bertolli, S.C., Souza, G.M. (2011) Tolerance to water deficiency between two soybean cultivars: transgenic versus conventional. Ciência Rural, 41(3): 373-378
Dolijanović, Ž., Kovačević, D., Oljača, S., Jovović, Z., Stipešević, B., Jug, D. (2013) The multi-year soybean grain yield depending on weather conditions. in: 48. Hrvatski i 8. Međunarodni Simpozij Agronoma, Dubrovnik, Hrvatska, 17.-22. veljača 2013, Zbornik Radova, 472-477
Dornbos, Jr. D. L., Mullen, R. E. (1991) Influence of stress during soybean seed fill on seed weight, germination, and seedling growth rate. Canadian Journal of Plant Science, 71(2): 373-383
Fageria, K.N., Baligar, C.V., Jonesgrowth, A.C. (2010) Mineral nutrition of field crops. in: Books in Soils, Plants, and the Environment, Third Edition, pp. 536
Glamočlija, Đ. (2004) Posebno ratarstvo, žita i zrnene mahunarke. Beograd: Poljoprivredni fakultet
Hoque, A., Hassan, M., Khan, M., Khatun, R., Baten, M. (2016) Effect of Temperature on Flower and Pod Abscission and Yield of Three Soybean Genotypes. Journal of Environmental Science and Natural Resources, 8(2): 83
Lalić, B., Mihailović, D.T., Podraščanin, Z. (2011) Future state of climate in Vojvodina and expected effects on crop production. Ratarstvo i povrtarstvo, vol. 48, br. 2, str. 403-418
Manavalan, L. P., Guttikonda, S. K., Phan, T.L.-S., Nguyen, H. T. (2009) Physiological and Molecular Approaches to Improve Drought Resistance in Soybean. Plant and Cell Physiology, 50(7): 1260-1276
Mandić, V., Krnjaja, V., Tomić, Z., Bijelić, Z., Simić, A., Đorđević, S., Stanojković, A., Gogić, M. (2015) Effect of water stress on soybean production. in: New Perspectives and Challenges of Sustainable Livestock Production, 4th International Congress, Belgrade, Serbia, 7-9 October 2015, Proceedings, 405-414
Mandić, V., Simić, A., Krnjaja, V., Bijelić, Z., Tomić, Z., Stanojković, A., Ruzić, M.D. (2015) Effect of foliar fertilization on soybean grain yield. Biotechnology in Animal Husbandry, vol. 31, br. 1, str. 133-143
Mandić, V., Bijelić, Z., Krnjaja, V., Ružić, M.D., Petrović, C.V., Ostojić, A.D., Petričević, M. (2017) Forage maize yield in function of rainfall in climatic conditions of Vojvodina (Republic of Serbia). in: The International Conference Agriculture for Life, Life for Agriculture, Bucharest, Romania, 8-10 June 2017, Scientific Papers, Series A. Agronomy 60, 491-494
Milošević, D.D., Savić, S.M., Stojanović, V., Popov-Raljić, J. (2015) Effects of precipitation and temperatures on crop yield variability in Vojvodina (Serbia). Italian Journal of Agrometeorology, 3, 35-46
Nenadić, N., Marić, M., Plazinić, V., Stikić, R., Pekić, S., Božić, D., Simova-Tošić, D., Tošić, M., Simić, D., Vrbaški, D. (1995) Soja - proizvodnja i prerada. Beograd: Poljoprivredni fakultet
Neumaier, N., Nepomuceno, A.L., Farias, J.R.B. (2000) Estresses de ordem ecofisiológica. in: Bonato E.R. [ed.] Estresses em soja, Passo Fundo: EMBRAPA Trigo, 254 p
Oweis, T. (1997) Supplemental irrigation: A highly efficient water-use practice. Aleppo, Syria: ICARDA, pp. 16
Popović, V., Miladinović, J., Vidić, M., Vučković, S., Dolijanović, Ž., Ikanović, J., Zivanović, L.J., Kolarić, L.J. (2015) Drought-limiting factors in soybean production. in: The effect of irrigation on yield of soybean [Glycine Max (L.) Merr.], Proceedings, Belgrade: Institute of PKB Agroekonomik, 11-21
Ranđelović, V. (2009) Uticaj mineralne ishrane na morfološke i proizvodne osobine kukuruza i soje gajenih u združenom usevu. Beograd: Poljoprivredni fakultet Univerziteta u Beogradu, 1-86; Magistarska teza
Ranđelović, V., Prodanović, S., Tomić, Z., Bijelić, Z. (2010) Genotypic response of two soybean varieties with reduced content of KTI to application of different nitrogen level. Biotechnology in Animal Husbandry, vol. 26, br. 5-6, str. 403-410
Ray, D.K., Gerber, J.S., MacDonald, G.K., West, P.C. (2015) Climate variation explains a third of global crop yield variability. Nature Communications, 6(1): 1-9
Republic Hydrometeorological Service of Serbia (2000-2015) Meteorological yearbooks: Climatological data for the period 2000-2015
Soyatech (2017) http://www.soyatech.com/soy_facts.htm, December 06, 2017
Srebrić, M., Perić, V. (2014) Promene komponenti prinosa zrna sestrinskih linija soje u uslovima suše. Selekcija i semenarstvo, vol. 20, br. 1, str. 37-44
Teasdale, J.R., Cavigelli, M.A. (2017) Meteorological fluctuations define long-term crop yield patterns in conventional and organic production systems. Scientific Reports, 7(1): 688
Todorović, J., Kondić, J. (1993) Soja. Banja Luka, pp. 1-196
Vidić, M., Hrustić, M., Miladinović, J., Đukić, V., Đorđević, V. (2009) Sortni ogledi soje u 2008. godini. Zbornik radova Instituta za ratarstvo i povrtarstvo, vol. 46, br. 2, str. 261-270
World Bank (2017) World development indicators: Agricultural input. http://wdi.worldbank.org/table/3.2, December 08, 2017
 

About

article language: English
document type: Original Scientific Paper
DOI: 10.2298/BAH1704475M
published in SCIndeks: 09/03/2018
Creative Commons License 4.0

Related records

Ratar i povrt (2020)
Effect of intercropping sunflower with legumes on some sunflower morphological traits
Babec Brankica, et al.

J Agricultural Sciences (Belgrade) (2020)
Tendencies of plant production in the Republic of Serbia and at the level NUTS 1
Grujić Biljana Lj., et al.

J Agricultural Sciences (Belgrade) (2019)
Inter-row cultivation: An agro-technical measure for increasing soybean yield
Đukić Vojin H., et al.

show all [21]