Tag Archives: Nitrogen fixation

1006-1026 V. Yatsenko, N. Yatsenko, V. Karpenko, S. Poltoretskyi, O. Lazariev, V. Kravchenko, O. Chynchyk, L. Vyshnevska, S. Tretiakova and D. Kozyrsky
Agrobiological assessment of productivity and nitrogen fixation of vegetable soybean (edamame) in the conditions of Forest-Steppe of Ukraine
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Agrobiological assessment of productivity and nitrogen fixation of vegetable soybean (edamame) in the conditions of Forest-Steppe of Ukraine

V. Yatsenko¹*, N. Yatsenko¹, V. Karpenko¹, S. Poltoretskyi¹, O. Lazariev¹, V. Kravchenko¹, O. Chynchyk², L. Vyshnevska¹, S. Tretiakova¹ and D. Kozyrsky²

¹Uman National University of Horticulture, Faculty of Agronomy, Department of Crop Production, Faculty of Horticulture, Ecology and Plants Protection, Department of Vegetable Growing, Department of Biology, Faculty of Management, Department of Ukrainian and Foreign Languages, Instytutska Street, 1, UA20301 Uman, Ukraine
²Podillia State University, Faculty of Agrotechnology and Nature Management, Department of Agriculture, Soil Science and Plant Protection, Shevchenko St., 12, UA32316 Kamianets-Podilskyi, Ukraine
*Correspondence: slaviksklavin16@gmail.com

Abstract:

Agrobiological evaluation of vegetable soybean cultivars (Glycine max var. Shirofumi) according to a complex of economically valuable traits for introduction in the conditions of the Forest-Steppe of Ukraine it was carried out with the aim of selecting the source material and selecting promising breeding forms according to morpho-biological and physiological-biochemical characteristics. The research was conducted in the conditions of the educational and production department of Uman National University of Horticulture during 2020–2022, collection cultivars of different ecological and geographical origins were used. The cultivars ‘Sac’ (166.00 g plant-1), ‘Vesta’ (139.33 g plant-1), ‘Fiskeby V’ (133.33 g plant-1), and ‘Fiskeby V-E5’ (146.67 g plant-1) possessed a large mass of edamame beans. The maximum yield of edamame beans was formed by plants of the ‘L 380-2-13’ (12.67 t ha-1), ‘Vesta’ (12.33 t ha-1), ‘Sac’ (13.20 t ha-1), ‘Fiskeby V’ (13.97 t ha-1), and ‘Fiskeby V-E5’ (14.53 t ha-1). Weather conditions during the period of research significantly influenced the yield and biochemical composition of edamame varieties. The yield of edamame beans ranged from 5.40 t ha-1in 2020 (min) to 22.40 t ha-1 in 2021 (max), and the coefficient of variation by varieties was at the level of 19–41%. This phenomenon is explained by the minimum amount of precipitation in 2020 and the high amount in 2021, which is confirmed by the hydrothermal coefficient during the period of intensive pod growth (VII–VIII) – 2020 – 0.3; 2021 – 1.3 and 1.1 respectively for the month. The protein concentration in Edamame beans was in the range of 27.94–36.29%. A higher protein content relative to the standard was noted in one sample – ‘Karikachi’ – 36.29%. Minimal accumulation of oligosaccharides was noted in ‘Sac’ and ‘Astra’ cultivars, which indicates their suitability for consumption. Promising cultivars were identified by the amount of fixed nitrogen – ‘Sac’ (168.00 ± 4.32 kg ha-1), ‘Astra’ (161.67 ± 2.36 kg ha-1) and SybNYYSOH 6 (158.19 ± 4.56 kg ha-1). The conducted regression analysis showed close relationships (from moderate to functional) between various indicators of the development and productivity of the nodulation apparatus of edamame cultivars. The evaluation of the collection cultivars of vegetable soybeans, their use according to the variability of morphological features and productivity made it possible to single out the ‘Sac’ among the introduced collection cultivars based on a set of valuable traits for use in the selection process to create new cultivars of vegetable soybeans.

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601–611 S. Tanchyk, D. Litvinov, A. Butenko, O. Litvinova, O. Pavlov, A. Babenko, N. Shpyrka, V.Onychko, I. Masyk and T. Onychko
Fixed nitrogen in agriculture and its role in agrocenoses
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Fixed nitrogen in agriculture and its role in agrocenoses

S. Tanchyk¹, D. Litvinov¹, A. Butenko²*, O. Litvinova³, O. Pavlov¹, A. Babenko¹, N. Shpyrka¹, V.Onychko⁴, I. Masyk⁵ and T. Onychko⁴

¹National University of Life and Environmental Sciences of Ukraine, Agrobiological faculty, Department of Agriculture and herbology, Heroyiv Oborony 12, UA03041 Кyiv, Ukraine
²Sumy National Agrarian University, Faculty of agricultural technologies and environmental, Plant growing Department, H. Kondratieva 160, UA40021 Sumy, Ukraine
³National University of Life and Environmental Sciences of Ukraine, Agrobiological faculty, Department of Agricultural chemistry and quality of plant products, Heroyiv Oborony 12, UA03041 Кyiv, Ukraine
⁴Sumy National Agrarian University, Faculty of agricultural technologies and environmental, Department of Selection and seeds named after M.D. Honcharov, H. Kondratieva 160, UA40021 Sumy, Ukraine
⁵Sumy National Agrarian University, Faculty of agricultural technologies and environmental, Department of Agriculture, soil and agrochemistry, H. Kondratieva 160, UA40021 Sumy, Ukraine
*Correspondence: andb201727@ukr.net

Abstract:

On typical low-humus black soils in short crop rotations with legumes (25–33%) and without them, it was found that depending on the set of crops in crop rotation and application of fertilizer rates, nitrogen yield per crop is from 355 kg ha-1 to 682 kg ha-1. The recommended fertilization system provided nitrogen compensation for crop yields by only 31–76%. Hence, in the plant-fertilizer system nitrogen deficiency varies from 161 to 370 kg ha-1. The greatest nitrogen deficiency in the soil is observed in crop rotation without the use of fertilizers with the following crop rotation: peas-winter wheat-grain maize-spring barley. The main source of nitrogen for plants is soil nitrogen. In crop rotations with legumes, biological nitrogen is supplied from the air, which in quantitative terms per rotation in crop rotations with peas is 109–288 kg ha-1, with soybeans 264–312, and with alfalfa 486 kg ha-1. Biological nitrogen in crop rotations with peas and soybeans is reimbursed from 25 to 62%, in crop rotation without legumes – 9% (non-symbiotic nitrogen fixation), and in crop rotation with alfalfa – 89% of the total nitrogen removal with the crop.

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337-348 S. Benlahrech, G. Kaci, M. Teffahi and S.M. Ounane
Influence of inoculation and phosphorus regimes on symbiotic nitrogen fixation and phosphorus use efficiency of Algerian cowpea (Vigna unguiculata L. (Walp.)) landraces
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Influence of inoculation and phosphorus regimes on symbiotic nitrogen fixation and phosphorus use efficiency of Algerian cowpea (Vigna unguiculata L. (Walp.)) landraces

S. Benlahrech*, G. Kaci, M. Teffahi and S.M. Ounane

Integrative Breeding of Vegetable Production Laboratory, National High School of Agronomy, Avenue Hassen Badi, El Harrach, DZ16200 Algeria
*Correspondence: benlahrechsamia@gmail.com

Abstract:

To study the genotypic variation of cowpeas on plant growth and phosphorus (P) uptake which is a function of different P regimes in the soil rhizosphere, 6 landraces of cowpea commonly found in northern Algeria (NE4, NE10, NE11, NKT5, NKT7, NKB7) and 4 landraces from Sahara in southern Algeria (NAG4, NAG5, NAT2 and ND3) were studied during 2013–2014 in greenhouse. They were inoculated with Mesorhizobium sp. (S1), Bradyrhizobium sp. (S2) and co–inoculation (S1–S2) under three P treatments: no P supply (P0), soluble P (PP) and insoluble P (TCP). Only varieties commonly found in northern Algeria nodulated with soluble P (PP) and inoculation containing Mesorhizobium sp. (S1). As a result of the symbiosis, the use of S1 has significantly increased shoot dry weight by 22%, total P content by 20% and P use efficiency for symbiotic nitrogen fixation by 18% compared to no inoculation (T). The landraces from the northern of Algeria expressed a higher growth than those from Sahara in the south of Algeria, especially three of them (NE4, NE10 and NE11) who showed a high performance under all P regimes. We suggest that these three landraces may be useful for improving symbiotic nitrogen fixation in cowpeas when growth is limited by low–P soils and that they could contribute to sustainable farming systems through reduction of farmer’s dependence on fertilizers.

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