Maize irrigation requirement on Zemun chernozem in the last half of the century

Matović, Gordana; Pocuca, Vesna; Gregorić, Enika

doi:10.5937/zembilj2101001m

Cited by 2 publications

(2 citation statements)

References 2 publications

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“…The increase in P T , when compared to the control, ranged from 30% to 97%, depending on the specific treatment and soil depth under investigation. These findings align with previous research by many authors such as [51][52][53][54][55], who also documented a substantial rise in total phosphorus content in the arable soil layer due to the excess fertilization practices.…”

Section: Soil Characteristicsupporting

confidence: 92%

Organic Phosphorus Fractions in Relation to Soil Aggregate Fractions of Black Soil

Milić,

Ninkov,

Vasin

et al. 2024

Agronomy

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Knowledge of long-term phosphorus behavior is essential to improve soil structure, nutrient supply potential, and the sustainability of cropping systems. A 45-year long-term experimental trial was used to observe organic phosphorus fractionation and its effects on soil aggregation and nutrient distribution at three depths (0–20, 20–40, and 40–60 cm) in Vojvodina Province, Serbia, under maize monoculture and maize/barley rotation. Five fertilizing systems were studied, including Control, NPK, NPK + maize remains, NPK + manure, and NPK + manure in rotation. Soil aggregates were fractionated into four size categories (>2000, 2000–250, 250–53, and <53 μm) using a wet sieving method. The samples were analyzed for main indicators, including different forms of phosphorus, total and available (PT and PA), as well as its organic forms (Labile Po, Biomass Po, Mod. Labile Po, Fulvic acid Po, Humic acid Po, and Resistant Po), and other fertility parameters. Significant differences in total and available phosphorus as well as all observed organic phosphorus fractions were evident between treatments with and without organic amendments, particularly in the 0–20 and 20–40 cm soil layers. Moderately labile P forms were dominant across all treatments, while labile forms constituted a smaller proportion. The most notable differences between treatments were observed in the labile and moderately labile forms, as well as in the resistant form of organic phosphorus. Manure application led to increased nutrient content in macroaggregates (>250 μm) compared to microaggregates. Microaggregates (<250 μm) were predominant across all depths, while stable structural aggregates did not show a significant increase after manure application. PCA highlighted significant correlations between soil characteristics, including total and available P, total organic carbon, clay content, and enzyme activity, across different aggregate sizes and organic P fractions. Overall, long-term mineral fertilization combined with organic amendment application induced variations in phosphorus fractions and the content of carbon, nitrogen, and phosphorus associated with aggregates in the first two soil layers, except for aggregate size classes.

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Section: Soil Characteristicsupporting

confidence: 92%

Organic Phosphorus Fractions in Relation to Soil Aggregate Fractions of Black Soil

Milić,

Ninkov,

Vasin

et al. 2024

Agronomy

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“…In human nutrition, maize, along with the two aforementioned cereals, accounts for at least 30% of food calories in 94 countries, benefiting over 4.5 billion people [ 3 ]. In light of prevailing climate change dynamics, compounded by escalating drought instances and amplified evapotranspiration rates significantly affecting maize susceptibility, the imperative to discern hybrids exhibiting augmented biological nutritional worth coupled with precise alignment to pertinent FAO maturity groups is markedly heightened [ 4 , 5 ].…”

Section: Introductionmentioning

confidence: 99%

Nutritional and Chemical Quality of Maize Hybrids from Different FAO Maturity Groups Developed and Grown in Serbia

Djalovic,

Grahovac,

Stojanović

et al. 2024

Plants

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Maize is a globally significant cereal crop, contributing to the production of essential food products and serving as a pivotal resource for diverse industrial applications. This study investigated the proximate analysis of maize hybrids from different FAO maturity groups in Serbia, exploring variations in polyphenols, flavonoids, carotenoids, tocopherols, and fatty acids with the aim of understanding how agroecological conditions influence the nutritional potential of maize hybrids. The results indicate substantial variations in nutritional composition and antioxidant properties among different maturity groups. The levels of total polyphenols varied among FAO groups, indicating that specific hybrids may offer greater health benefits. Flavonoids and carotenoids also showed considerable variation, with implications for nutritional quality. Tocopherol content varied significantly, emphasizing the diversity in antioxidant capacity. Fatty acid analysis revealed high levels of unsaturated fatty acids, particularly linoleic acid, indicating favorable nutritional and industrial properties. The study highlights the importance of considering maturity groups in assessing the nutritional potential of maize hybrids.

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Maize irrigation requirement on Zemun chernozem in the last half of the century

Cited by 2 publications

References 2 publications

Organic Phosphorus Fractions in Relation to Soil Aggregate Fractions of Black Soil

Organic Phosphorus Fractions in Relation to Soil Aggregate Fractions of Black Soil

Nutritional and Chemical Quality of Maize Hybrids from Different FAO Maturity Groups Developed and Grown in Serbia

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