Л Г Елисеева scite author profile

In this article we demonstrate the connotation of microgreens, the newly merging product in the Russian market. Microgreens are normal plants planted in highly density on a substrate medium and harvested shortly after the first true leaves appear. Microgreens of many aromatic plants possess intensive flavour similar to its mature product. We also expound the aspects related to this product, including growth, harvesting time, Seeds utilization, light requirements, available suitable substrate, as well as the disadvantages related to its production. There is still a lot of controversy about the health benefits of consuming microgreens. Some researchers believe that there is currently not enough scientific evidence to support a higher nutrient level in microgreens than in mature plants. In this review, we discuss whether microgreening is a great addition to gardening or not. Still, other prospects for the future of this product indicates that the demand of the market for the microgreens will be strong especially with the wide spread of home-growing facilities like phytotrons and simple growing chambers.

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The Study of Oxidative Processes in Walnut Fats during Storage

Елисеева

Gorozhanin

Yurina

2016

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Dataset on the effect of foliar application of different concentrations of silicon dioxide and organosilicon compounds on the growth and biochemical contents of oak leaf lettuce (Lactuca sativa var. crispa) grown in phytotron conditions

et al. 2021

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This article presents comparative data regarding the effect of foliar application of silicon dioxide and organosilicon compounds on soilless-grown Oak leaf lettuce (Lactuca sativa var. crispa). Data were derived from dry and fresh samples. Total nitrogen, total antioxidants capacity, total phenolic content, ascorbic acid, total pigments concentrations and growth parameters varied in response to the concentrations of the used preparations (silicon dioxide and organosilicon compounds). Capillary zone electrophoresis, spectrophotometry and coulometric analyzer were the principal involved methods. Data of total phenolic content, antioxidants capacity and ascorbic acid concentrations can provide physiological health benefits as functional foods along with an insight to plant stress physiology. Chlorophyll a and b concentrations, nitrogen content, dry matter content, plant height and fresh weights contribute to the understanding of physiological and biometric plants growth parameters.

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Innovative technology of processing berries by osmotic dehydration

Грибова

Перов

Елисеева

et al. 2021

IOP Conf. Ser.: Earth Environ. Sci.

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The present study is devoted to the influence of osmotic agent type and of its concentration on processing fresh berries with subsequent freezing. Freezing berries without preliminary protection destroys their texture, and during defreezing berries lose their consumer properties and vitamin content. The study describes the physical and chemical processes of osmotic dehydration: crystallization temperature; sucrose syrup concentration; changing the mass; frozen moisture amount; water activity; change of the mass fraction of mono-, disaccharides and vitamin C in the berries. As a result, crystallization temperature of dehydrated berries was calculated: from -1.1°C to -2.6°C (60°Brix) and from -1.7°C to -4.8°C (70°Brix). Frozen moisture amount was estimated at 83.2%-92.8% (60°Brix) and 52.2%-87.95% (70°Brix), water activity was 0.9756-0.9891 (60°Brix) and 0.9551-0.9838 (70°Brix). The obtained data allowed determining that the amount of monosaccharides in frozen berries which were preliminarily osmo-dehydrated with 70°Brix sucrose solution rose up to 20%, and the amount of vitamin C to 14.8% (compared with freshly frozen berries). Osmotic dehydration with sucrose solution of specified concentration protects the smooth texture of berries and preserves their organoleptic properties and valuable nutritional composition.

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