Research Article
BibTex RIS Cite
Year 2020, Volume: 26 Issue: 4, 406 - 414, 04.12.2020
https://doi.org/10.15832/ankutbd.551681

Abstract

References

  • Andrew I K S, Storkey J. & Sparkes D L (2015). A review of the potential for competitive cereal cultivars as a tool in integrated weed management. Weed research. 55(3): 239–248
  • Andruszczak S, Kraska P, Kwiecinska-Poppe E & Palys E (2012). Weed infestation of crops of winter spelt wheat (Triticum aestivum ssp. spelta) cultivars grown under different conditions of mineral fertilization and chemical plant protection. Acta Agrobotanica. 65(3): 109-118
  • Blackshaw R E, Molnar L J & Larney F J (2005). Fertilizer, manure and compost effects on weed growth and competition with winter wheat in western Canada. Crop Protect. 24: 971–980
  • FAO (2014). World reference base for soil resources 2014 International soil classification system for naming soils and creating legends for soil maps, Update 2015, Retrieved in March, 3, 2019 from http://www.fao.org/3/i3794en/I3794en.pdf
  • Garcìa-Martìn A, Lòpez-Bellido R J & Coleto J M (2007). Fertilisation and weed control effects on yield and weeds in durum wheat grown under rain-fed conditions in a Mediterranean climate. Weed research. 47:140-148
  • Hoad S, Topp C & Davies K (2008). Selection of cereals for weed suppression in organic agriculture: A method based on cultivar sensitivity to weed growth. Euphytica. 163: 355-366
  • Jablonskytė-Raščė D, Maikštėnienė S & Mankevičienė A (2013). Evaluation of productivity and quality of common wheat (Triticum aestivum L.) and spelt (Triticum spelta L.) in relation to nutrition conditions. Zemdirbyste-Agriculture. 100(1): 45–56
  • Jaćimović G, Malešević M, Marinković B, Crnobarac J, Latković D, Šeremešić S & Milošev D (2008). Winter wheat yield and yield components depending on the level of nitrogen, phosphorus and potassium fertilization. Annals of agronomy. 32(1): 57-63
  • Jornsgard B, Rasmussen K, Hill J & Christiansen J L (1996). Influence of nitrogen on competition between cereals and their natursil weed populations. Weed Research. 36(6): 461-470
  • Kaya Y & Turkoz M (2016). Evaluation of genotype by environment interaction for grain yield in durum wheat using non-parametric stability statistics. Turkish Journal of Field Crops. 21(1): 51-59
  • Koocheki A, Nassiri M, Alimoradi L & Ghorbani R (2009). Effect of cropping systems and crop rotations on weeds. Agronomy for Sustainable Development. 29: 401–408
  • Konvalina P, Stehno Z & Moudrý J (2007). Testing of suitability of ideotype and varieties of wheat for organic and low input agriculture. Lucrări Ştiinţifice, Seria Agronomie. 50: 241-247
  • Korres N E & Froud‐Williams R J (2002). Effects of winter wheat cultivars and seed rate on the biological characteristics of naturally occurring weed flora. Weed research. 42(6): 417-428
  • Mason H E, Navabi A, Frick B L, O'Donovan J T & Spaner D M (2007). The weed-competitive ability of Canada western red spring wheat cultivars grown under organic management. Crop science. 47(3): 1167-1176
  • Pakize K U R T, Çifci E A, & Yağdi K (2015). Ekmeklik buğday (Triticum aestivum L.)’da tane verimi ile bazı verim ögeleri arasındaki ilişkilerin saptanması. Tarım Bilimleri Dergisi, 21(3): 355-362
  • Przystalski M, Osman A, Thiemt E M, Rolland B, Ericsson L, Østergård H et al (2008). Comparing the performance of cereal varieties in organic and non-organic cropping systems in different European countries. Euphytica. 163: 417–433
  • Roljević Nikolić S, Kovačević D, Cvijanović G, Dolijanović Ž& Marinković J (2018). Grain yield and rhizosphere microflora of alternative types of wheat in organic production. Romanian Biotechnological Letters. 23(1): 13301-13309
  • Roljević Nikolić S, Kovačević D & Dolijanović Ž (2017). Floristic composition of weeds, morphological and productive characteristics of different wheat genotypes of alternative small grains in organic production. Journal of Agricultural Sciences. 62(3): 229-240
  • Ross D M & Van Acker R C (2005). Effect of nitrogen fertilizer and landscape position on wild oat (Avena fatua) interference in spring wheat. Weed Science. 53(6): 869-876
  • Sans F X, Berner A, Armengot L & Mader P (2011). Tillage effects on weed communities in an organic winter wheat–sunflower–spelt cropping sequence. Weed Research. 51: 413–421
  • Szewczyk B F (2013). The influence of morphological features of spelt wheat (Triticum aestivum ssp. spelta) and common wheat (Triticum aestivum ssp. vulgare) varieties on the competitiveness against weeds in organic farming system. Journal of Food, Agriculture & Environment. 11(1): 416-421
  • Vandeleur R K & Gill G S (2004). The impact of plant breeding on the grain yield and competitive ability of wheat in Australia. Australian Journal of Agricultural Research. 55(8): 855–861
  • Wolfe M S, Baresel J P, Desclaux D, Goldringer I, Hoad S, Kovacs G et al (2008). Developments in breeding cereals for organic agriculture. Euphytica. 163(3): 323–346
  • Zerner M C, Rebetzke G J & Gill G S (2016). Genotypic stability of weed competitive ability for bread wheat (Triticum aestivum) genotypes in multiple environments. Crop and Pasture Science. 67(7): 695-702
  • Zuk-Golaszewska K, Kurowski T, Zaluski D, Sadowska M & Golaszewski J (2015). Physioagronomic performance of spring cultivars T. aestivum and T. spelta grown in organic farming system. International Journal of Plant Production. 9(2): 211-236

Effect of Fertilization on Weed Infestation, Morphological and Productive Traits of Different Alternative Small Grains

Year 2020, Volume: 26 Issue: 4, 406 - 414, 04.12.2020
https://doi.org/10.15832/ankutbd.551681

Abstract

This examination aims to determinate influence of fertilizers toward weed infestation, morphological and productive traits of different alternative small grains, as well as to examine the correlation of the studied traits of alternative small grains with weed infestation in organic production. The field experiment was conducted on luvic chernozem in completely randomized blocks, repeatad four times, in the three year period (2013/2014-2015/2016). Examination was carried out on one winter cultivars of naked barley, spelt, durum, compactum wheat and triticale, and the experiment included fertilization with microbiological fertilizer (5.0 L ha-1) as well as the combined application of microbiological (5.0 L ha-1) and organic fertilizer (3.0 t ha-1). Results obtained pointed out that examined factors have important influence toward number and the dry weed weight, but the influence toward diversity weeds is negligible. The smallest the total number of weeds (12.7 plants m-2), as well as the dry weight of weeds (18.5 g m-2) was noted in the spelt (P˂0.01). The considerably significant smaller the total number of weeds on the variant F2 (14.7 plants m-2) compared to F1 (15.4 plants m-2) and F0 (15.5 plants m-2), while dry weed weight on the variants F1 (23.7 g m-2) and F2 (23.8 g m-2) significant higher comparing to control F0 (20.7 g m-2). The use of fertilizers have significatly influenced the increase of the stem height (5.5-10.0%), spike length (6.4-9.9%), weight of the plant (9.5-20.8%) and the weight of grains in the spike (7.8-16.9%). The negative dependence of the weeds number (r= -0.69) and its dry weight (r= -0.39) relаted to the height of stem, and, also, negative dependence between weight of grains in the spike with the weed number (r= -0.32) has been perceived. These results of examination showed that proper selection of the genotypes with the application of fertilisers could have a significant effect on the weeds in the organic production alternative small grains.

References

  • Andrew I K S, Storkey J. & Sparkes D L (2015). A review of the potential for competitive cereal cultivars as a tool in integrated weed management. Weed research. 55(3): 239–248
  • Andruszczak S, Kraska P, Kwiecinska-Poppe E & Palys E (2012). Weed infestation of crops of winter spelt wheat (Triticum aestivum ssp. spelta) cultivars grown under different conditions of mineral fertilization and chemical plant protection. Acta Agrobotanica. 65(3): 109-118
  • Blackshaw R E, Molnar L J & Larney F J (2005). Fertilizer, manure and compost effects on weed growth and competition with winter wheat in western Canada. Crop Protect. 24: 971–980
  • FAO (2014). World reference base for soil resources 2014 International soil classification system for naming soils and creating legends for soil maps, Update 2015, Retrieved in March, 3, 2019 from http://www.fao.org/3/i3794en/I3794en.pdf
  • Garcìa-Martìn A, Lòpez-Bellido R J & Coleto J M (2007). Fertilisation and weed control effects on yield and weeds in durum wheat grown under rain-fed conditions in a Mediterranean climate. Weed research. 47:140-148
  • Hoad S, Topp C & Davies K (2008). Selection of cereals for weed suppression in organic agriculture: A method based on cultivar sensitivity to weed growth. Euphytica. 163: 355-366
  • Jablonskytė-Raščė D, Maikštėnienė S & Mankevičienė A (2013). Evaluation of productivity and quality of common wheat (Triticum aestivum L.) and spelt (Triticum spelta L.) in relation to nutrition conditions. Zemdirbyste-Agriculture. 100(1): 45–56
  • Jaćimović G, Malešević M, Marinković B, Crnobarac J, Latković D, Šeremešić S & Milošev D (2008). Winter wheat yield and yield components depending on the level of nitrogen, phosphorus and potassium fertilization. Annals of agronomy. 32(1): 57-63
  • Jornsgard B, Rasmussen K, Hill J & Christiansen J L (1996). Influence of nitrogen on competition between cereals and their natursil weed populations. Weed Research. 36(6): 461-470
  • Kaya Y & Turkoz M (2016). Evaluation of genotype by environment interaction for grain yield in durum wheat using non-parametric stability statistics. Turkish Journal of Field Crops. 21(1): 51-59
  • Koocheki A, Nassiri M, Alimoradi L & Ghorbani R (2009). Effect of cropping systems and crop rotations on weeds. Agronomy for Sustainable Development. 29: 401–408
  • Konvalina P, Stehno Z & Moudrý J (2007). Testing of suitability of ideotype and varieties of wheat for organic and low input agriculture. Lucrări Ştiinţifice, Seria Agronomie. 50: 241-247
  • Korres N E & Froud‐Williams R J (2002). Effects of winter wheat cultivars and seed rate on the biological characteristics of naturally occurring weed flora. Weed research. 42(6): 417-428
  • Mason H E, Navabi A, Frick B L, O'Donovan J T & Spaner D M (2007). The weed-competitive ability of Canada western red spring wheat cultivars grown under organic management. Crop science. 47(3): 1167-1176
  • Pakize K U R T, Çifci E A, & Yağdi K (2015). Ekmeklik buğday (Triticum aestivum L.)’da tane verimi ile bazı verim ögeleri arasındaki ilişkilerin saptanması. Tarım Bilimleri Dergisi, 21(3): 355-362
  • Przystalski M, Osman A, Thiemt E M, Rolland B, Ericsson L, Østergård H et al (2008). Comparing the performance of cereal varieties in organic and non-organic cropping systems in different European countries. Euphytica. 163: 417–433
  • Roljević Nikolić S, Kovačević D, Cvijanović G, Dolijanović Ž& Marinković J (2018). Grain yield and rhizosphere microflora of alternative types of wheat in organic production. Romanian Biotechnological Letters. 23(1): 13301-13309
  • Roljević Nikolić S, Kovačević D & Dolijanović Ž (2017). Floristic composition of weeds, morphological and productive characteristics of different wheat genotypes of alternative small grains in organic production. Journal of Agricultural Sciences. 62(3): 229-240
  • Ross D M & Van Acker R C (2005). Effect of nitrogen fertilizer and landscape position on wild oat (Avena fatua) interference in spring wheat. Weed Science. 53(6): 869-876
  • Sans F X, Berner A, Armengot L & Mader P (2011). Tillage effects on weed communities in an organic winter wheat–sunflower–spelt cropping sequence. Weed Research. 51: 413–421
  • Szewczyk B F (2013). The influence of morphological features of spelt wheat (Triticum aestivum ssp. spelta) and common wheat (Triticum aestivum ssp. vulgare) varieties on the competitiveness against weeds in organic farming system. Journal of Food, Agriculture & Environment. 11(1): 416-421
  • Vandeleur R K & Gill G S (2004). The impact of plant breeding on the grain yield and competitive ability of wheat in Australia. Australian Journal of Agricultural Research. 55(8): 855–861
  • Wolfe M S, Baresel J P, Desclaux D, Goldringer I, Hoad S, Kovacs G et al (2008). Developments in breeding cereals for organic agriculture. Euphytica. 163(3): 323–346
  • Zerner M C, Rebetzke G J & Gill G S (2016). Genotypic stability of weed competitive ability for bread wheat (Triticum aestivum) genotypes in multiple environments. Crop and Pasture Science. 67(7): 695-702
  • Zuk-Golaszewska K, Kurowski T, Zaluski D, Sadowska M & Golaszewski J (2015). Physioagronomic performance of spring cultivars T. aestivum and T. spelta grown in organic farming system. International Journal of Plant Production. 9(2): 211-236
There are 25 citations in total.

Details

Primary Language English
Journal Section Makaleler
Authors

Zeljko Dolijanovic 0000-0002-9224-3274

Svetlana Roljević Nikolić This is me 0000-0002-3139-0289

Dušan Kovačević This is me 0000-0002-7471-8707

Rajko Miodragović This is me 0000-0002-8222-9719

Aleksandar Kovačević This is me 0000-0001-5661-2071

Publication Date December 4, 2020
Submission Date April 10, 2019
Acceptance Date July 9, 2019
Published in Issue Year 2020 Volume: 26 Issue: 4

Cite

APA Dolijanovic, Z., Roljević Nikolić, S., Kovačević, D., Miodragović, R., et al. (2020). Effect of Fertilization on Weed Infestation, Morphological and Productive Traits of Different Alternative Small Grains. Journal of Agricultural Sciences, 26(4), 406-414. https://doi.org/10.15832/ankutbd.551681

Journal of Agricultural Sciences is published open access journal. All articles are published under the terms of the Creative Commons Attribution License (CC BY).