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Protein, Amino Acid and Carbohydrate Content of Fungal Treated Annual and Perennial Wheat Straw

100%

Kurmanbayeva M. , Makhatov Z. , Kusmangazinov A. , Karabalayeva D. , Yerezhepova N.

Journal of Ecological Engineering

2023

tom Vol. 24, nr 12

235–-246

The use of wheat straw as a cellulose containing raw material for the production of sugars and other biologically valuable products can solve the problem of food products shortages, by supplying oligosaccharides, xylose and other valuable metabolites of microbial synthesis. In our experiment, straw of annual spring wheat of the Tulkibas variety and perennial wheat of the Sova variety was added to the enzyme solutions of Trichoderma harzianum 121 and Aspergillus awamori F-RKM 0719 strains. As a result, the variant A. awamori F-RKM 0719 + Sova straw showed the highest level of nitrogen (1.05%) and protein (6.5%). The highest concentration of amino acids, 7.14 mg/ml, was found in the perennial wheat sample, while the lowest concentration, 1.32 mg/ml, in the annual wheat sample. The total carbohydrate content in the straw of the annual and perennial wheat varieties differed, namely, the perennial wheat straw with the addition of A. awamori F-RKM 0719, contained fructose in the amount of 0.0079 mg/g, while in the annual wheat it was absent. The glucose content in the perennial wheat straw was three times higher than in the annual wheat straw, 0.0144 and 0.0035 mg/g, respectively. Based on our results, we recommend wheat straw for the use as a raw material for chemical and microbiological processing.

Use of Intermediate Crops to Increase Productivity of Irrigated Arable Land in Southeastern Kazakhstan

86%

Atakulov T. , Kaldybaev S. , Erzhanova K. , Zholamanov K. , Zhuniskhan D. , Tolekov A. , Kusmangazinov A.

Journal of Ecological Engineering

2024

tom Vol. 25, nr 1

217--228

The results of the study open up fundamentally new areas of intensive use of irrigated land in the southern and south-eastern Kazakhstan, ensuring harvest of two crops per year. For the first time, a technology for creating a green conveyor based on the bioclimatic potential of the growing area has been developed. By taking into account agro-climatic conditions we determined climatic requirements of plants suitable for harvesting two crops per year. The aim of the research was to increase productivity of irrigated land, by using intermediate crops to produce two harvests per year and to create a green conveyor to provide the livestock industry with highly nutritious green fodder. The research was carried out at the experimental and production station of the research, production, and educational center of Bayserke-Agro LLP of the Talgar district of the Almaty region, on light chestnut soils. The main crops, winter rapeseed and triticale, grew since early spring. In the phase of full flowering, rapeseed accumulated 6,760 g of green biomass per m2, and in the phase of grain setting, winter triticale accumulated 6,480 g of green biomass per m2. In the rapeseed flowering phase, the yield of green biomass reached 676 centners per hectare, and that of triticale, 648 centners per hectare. The yield of the ripe rapeseed grain was 25.2 centners per hectare, and that of triticale, 63.8 centners per hectare. The intermediate crop, corn for grain, can complete its vegetation after harvesting rapeseed and triticale for green biomass. An additional grain crop amounts to 73.0 centners per hectare, and an additional green biomass yield for silage, to 720 centners per hectare. By sowing intermediate crops, it is possible to harvest larger amounts of fodder from irrigated arable land. In the option without intermediate crops, the total harvest of feed units was 67.9 centners per hectare, and in the option with sowing corn as an intermediate crop for silage and grain. The results showed that the highest net income of 143.8–160.8 thousand tenge per hectare and the profitability level of 89.8–97.5% were obtained when sowing intermediate crops after harvesting winter rapeseed and triticale.

Screening of sweet and grain sorghum genotypes for green biomass production in different regions of Kazakhstan

72%

Zhapayev R. , Toderich K. , Kunypiyaeva G. , Kurmanbayeva M. , Mustafayev M. , Ospanbayev Z. , Omarova A. , Kusmangazinov A.

Journal of Water and Land Development

2023

tom no. 56

118--126

As the impact of global climate change increases, the interaction of biotic and abiotic stresses increasingly threatens current agricultural practices. The most effective solution to the problem of climate change and a decrease in the amount of atmospheric precipitation is planting extremely drought-resistant and high-yielding crops. Sorghum can grow in harsh conditions such as salinity, drought and limited nutrients, also it is an important part of the diet in many countries. Sorghum can be introduced in many zones of Kazakhstan. Plant height and yield of green plant biomass of 16 sorghum samples in arid conditions were determined based on a set of agrobiological characteristics for field screening. The height of the studied samples of grain sorghum was 0.47 ±0.03 m, and the height of sweet sorghum was much longer, reaching up to 2.88 ±0.12 m. Also, there was a strong difference in green biomass in cultivated areas under different soil and climatic conditions, the green biomass of sweet sorghum was 3.0 Mg∙ha-1, and in grain sorghum, it reached up to 57.4 Mg∙ha-1. Based on the data of the field assessment for various soil and climatic conditions, the following samples were identified for introduction into production: samples of sweet sorghum for irrigated and rainfed lands of the Almaty Region and in the conditions of non-irrigation agriculture of the Aktobe Region - a promising line ICSV 93046. For non-irrigation agriculture of the Akmola Region, genotypes of sweet and grain sorghum are ‘Chaika’, ‘Kinelskoe 4’ and ‘Volzhskoe 44’.