Fitting Cropping Technology in a Changing Climate

Dragičević, Vesna; Kresović, Branka; Videnović, Živorad; Spasojević, I.; Simić, Milena

doi:10.17707/agricultforest.61.3.17

Cited by 3 publications

(3 citation statements)

References 7 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…These two types of three-crop rotation are identical in relation to the crops included, but due to the sequence of crops (alternation of crops), there are significant differences, before all in their effects on the reduction of weed infestation (Spasojević, 2014b). Under Serbian agro-ecological conditions, the soya bean-wheat-maize (wheat is the preceding crop to maize) rotation very efficiently affected a reduction in the total weed infestation, even when reduced amounts of herbicides were applied, which is very important from the aspect of agro-ecosystem protection (Simić et al, 2015). In dependence on the level of herbicide application, the maize-soybean-wheat three-crop rotation had the greatest effect on the reduction of maize weeds, especially perennials species, after only one rotation of crops .…”

Section: Results and Discussion The Importance Of Crop Rotationmentioning

confidence: 99%

ADVANCED CROPPING TECHNOLOGY OF MAIZE (Zea mays L.) IN SERBIA

Simić¹,

Dragičević²,

Kresović³

et al. 2016

AgricultForest

Self Cite

View full text Add to dashboard Cite

SUMMARYStudies on maize growing practices have been performed in the Maize Research Institute, Zemun Polje since its establishment. Numerous studies realised in accordance with contemporary global trends indicated the direction of development of maize growing practices with the aim to use the genetic potential of newly derived hybrids. Although, the genetic potential of the yield of maize hybrids grown in Serbia is 10 to 15 t/hа, the recorded average yields are significantly lower. The experimental trials with the application of standard growing practices conducted during the fifteen growing seasons showed that the maize yield varied from 10.46 to 11.38 t/hа. The obtained results indicated that, for the region of central Serbia, contemporary maize growing systems should include a correctly applied crop rotation with legumes (soybean), conventional tillage with deep autumn ploughing, precisely determined plant density and the time of sowing. Another important factor is the application of fertilisers the content and formulation of which are adjusted to the requirements of the cultivated plant and irrigation tuned to the requirements of crops and climate in terms of norms and frequency of the application.

show abstract

Section: Results and Discussion The Importance Of Crop Rotationmentioning

confidence: 99%

ADVANCED CROPPING TECHNOLOGY OF MAIZE (Zea mays L.) IN SERBIA

Simić¹,

Dragičević²,

Kresović³

et al. 2016

AgricultForest

Self Cite

View full text Add to dashboard Cite

show abstract

“…However, NUE values of the other lines varied among seasons, with mainly positive values obtained in 2017, as somewhat unfavourable season, indicating connection between NUE and (WUE) (MANSOURI-FAR et al, 2010;YU et al, 2015). As lower grain yields, obtained in the same year by the same genotypes, were taken into consideration, importance of increased N requirements (higher N rates) during stressful conditions is accentuated (DRAGIČEVIĆ et al, 2015). It is important to underline that maize root architecture (large and deep root system), is very important trait that combat stress (particularly drought), enabling greater absorption of N and other essential minerals, thus providing improved growth of above-ground biomass, as well as grain yield potential (YU et al, 2015;SZCZEPANIAK, 2016;WANG et al, 2019 According to the results of similarity between tested lines, present in Figure 3, several groups were formed.…”

Section: Methodsmentioning

confidence: 96%

Variability of maize inbred lines in nitrogen use effciency

et al. 2020

Self Cite

View full text Add to dashboard Cite

Nitrogen (N) is an important element for many physiological processes in crops, and grain yield realisation. Nitrogen loss could be significant through leaching and evaporation, and from this reason lower quantities for fertilization are required. A genotype could be an important source for improved N management in crops. Breeding for high yield and nutrient-efficient genotypes is the most important strategy to enable food security, resolve resource scarcity and environmental pollution. Variability of 36 maize lines grown in optimal and low-N (without fertilization) conditions was assessed through grain yield, 1000 kernel weight, N utilization efficiency (NUtE) and N apparent recovery fraction (nitrogen use efficiency - NUE), during seasons 2017 and 2018. The genotype and year are important sources for variation of grain yield, 1000 kernel weight and NUtE, as a factor which defines N utilization efficiency. The lines, such as L1, L6, L13, L16, L26, L27, L32 and L34 are able to achieve higher grain yield when grown on low-N. Furthermore, L16, L22, L24 and L26 have high NUtE values in both experimental years (even in 2017, season with low and unequal precipitation level), especially in low-N treatment. From that point of view, they could be characterized as efficient N users, even in low-N conditions, as well as tolerant to stressful conditions. Nevertheless, L1, L6 and L27 are the lines with negative NUE, what gives them attribute as the best N users in low-N conditions. Based on the similarity of NUtE values, the genotypes such as L2, L3, L4, L8, L11, L12, L14, L15, L16, L18, L19, L24, L26, L32, L33, L34could be considered as the primary focus for further breeding programs, due to the fact that they don?t have only improved NUE, but also high grain yield (even in unfavourable years), which indicates improved tolerance to various abiotic stressful factors.

show abstract

“…Maize is grown on the largest percent of arable land in Serbia. Common technology for its production includes mechanical planting in 70 cm-wide rows, the use of herbicides for weed control, and mineral, primarily nitrogen fertilizers to achieve higher yield (Dragičević et al, 2015). Row spacing at 70 cm apart with 20 to 25 cm between plants within each row, results in 57.000 to 72.000 plants per ha.…”

Section: Introductionmentioning

confidence: 99%

Influence of growing measures on weed interference and water status in maize

2017

Self Cite

View full text Add to dashboard Cite

Growing modern hybrids in narrow plant spacing together with nitrogen and herbicide application gives an advantage to maize crops over weeds. The aim of the present investigation was to evaluate the effect of nitrogen form, maize row spacing and herbicide treatment on weed and maize biomass and water usage, as well as maize yield. The investigation was conducted at the Maize Research Institute Zemun Polje, Belgrade during 2014-2016. A field experiment was set up as a split-split-plot block design with four replications. The maize hybrid ZP388 was planted, and a standard and a slow-release form of urea were applied. For each N source, maize was grown at two row spacings: narrow of 50 cm, and standard of 70 cm, while weed control treatments included: C - without herbicide application, T - application of a pre-emergence mix of herbicides. Sowing was done in the second decade of April, 2014, 2015 and 2016. Six weeks after herbicide application, the fresh biomass of weeds uprooted from 1 m2 and aboveground biomass of ten crop plants per plot were measured together with dry matter after drying in a laboratory oven. Water content (%) in weed and maize plants was calculated as a relation between fresh and dry biomass. Maize yield was measured at the end of each growing season and calculated with 14% of moisture. All data were processed by ANOVA. The fresh and dry biomass of weeds were significantly (P>0.05) higher in untreated control than in the treated variant, while differences in water content were not significant between the two treatments. Row spacing and urea form did not cause significant differences in weed parameters. Related to this, maize fresh and dry biomass, as well as water content, were higher in herbicide-treated variants than in control but differences were insignificant. Maize biomass was somewhat higher in 50 cm rows and after application of the slow-release urea fertilizer. Yield was higher from 70 cm rows and after application of the slow-releasing urea and the herbicides. [Project of the Serbian Ministry of Education, Science and Technological Development]

show abstract

Fitting Cropping Technology in a Changing Climate

Cited by 3 publications

References 7 publications

ADVANCED CROPPING TECHNOLOGY OF MAIZE (Zea mays L.) IN SERBIA

ADVANCED CROPPING TECHNOLOGY OF MAIZE (Zea mays L.) IN SERBIA

Variability of maize inbred lines in nitrogen use effciency

Influence of growing measures on weed interference and water status in maize

Contact Info

Product

Resources

About