3 research outputs found

    IMPACT OF WATER DEFICIT ON SENSORY PROFILE OF TOMATO (SOLANUM LYCOPERSICON L.) GROWN UNDER HOT SUMMER CONDITIONS IN BULGARIA

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    The effect of water deficit on sensory characteristics of tomato (Solanum lycopersicon L.) was investigated. A field experiment was carried out during 2016-2017 period under the hot summer conditions in Bulgaria. Twenty four Bulgarian tomato accessions representing three types - indeterminate, determinate for processing and determinate for fresh consumption - were harvested. Optimum and 50% reduced watering regimes were applied using a drip irrigation system. Temperatures over 35ºС during the vegetation were recorded in 26% of the days of the first experimental year and 40% of the days of the second one. The sensory analysis of the tomato fruits was performed by trained panelists on the traits: appearance, shape, external colour, internal colour, aroma, peel tenderness, visible fibre, sourness, sweetness, texture and overall taste. Negative effects of the deficit irrigation were observed on the appearance, shape and total sensory evaluation of tomato fruits regardless of the tomato type. Negative effects were also recorded on the texture of determinate tomato for processing and peel tenderness of determinate tomato for fresh consumption. The sweetness was better expressed in tomatoes grown under water deficit in all studied genotypes. Reduced irrigation did not result in aroma, external colour and visible fibre. Two-way analysis of variance revealed a significant influence of genotype on the sensory traits in the range of 39.56-74.79% in indeterminate tomato accessions, 33.49 - 56.05% in determinate tomato for processing, 14.96 - 62.93% in determinate tomato for fresh consumption. Slight influence of the applied watering regime was established except for appearance, shape and sweetness. Indeterminate tomato accessions Rozovo sartse and BG 21 β, determinate accession for processing BG 2086 and determinate accession for fresh consumption Marti and BG 252 demonstrated the best sensory profile in both treatments of irrigation

    EVALUATION OF PRODUCTIVITY AND PRODUCTIVITY COMPOUNDS IN TOMATO ACCESSIONS GROWN UNDER ELEVATED TEMPERATURE AND REDUCED IRRIGATION

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    The aim of this experimental work was to evaluate the productivity and productivity compounds in tomato accessions grown under elevated temperature and reduced irrigation. The experiment was conducted at the Maritsa Vegetable Crops Research Institute with 25 tomato accessions (14 determinate and 11 indeterminate) in the period of 2016 and 2017. Two watering regimes were applied - optimum and 50% reduced. Productivity per plant, number of fruits per plant and average fruit weigh were measured. Environmental descriptors air temperature, air humidity, rainfalls and soil moisture at 15 and 30 cm depth were recorded by weather station Caipos Wave. As a result of reduced irrigation and high temperatures a decrease of the productivity per plant formed on the base of number and average fruit weight was observed. The studied indeterminate tomato accessions showed low heat tolerance compared to the determinate ones. Decrease of the productivity per plant with 25.2% close to the positive control was established in accession BG 985 from the determinate tomato for processing and with 35.5% in accession Spectar belonging to the determinate tomato for fresh consumption. A decrease of the productivity less than 50% was observed only in indeterminate tomato accession BG 21β (47.3%). The reduced irrigation and the high temperatures had a weaker negative effect on the fruit number (13.3-57.1%) and average fruit weight per plant (5.0-57.8%) compared to the productivity. Three-way analysis of variance showed that watering regime influenced mainly the productivity per plant in the three studied tomato groups, fruit number and average fruit weight per plant in determinate tomato for fresh consumption. Differences in number and average fruit weight per plant in determinate tomato for processing and indeterminate ones were determined by genotype. As a result of this study perspective tomato accessions suitable for breeding of drought stress were selected

    INFLUENCE OF REDUCED IRRIGATION ON PHENOLOGICAL AND MORPHOLOGICAL CHARACTERS OF DIFFERENT TOMATO GENOTYPES

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    Cultivated plants are often exposed to different types of environmental stress which has a negative effect on the vegetative and reproductive development. In the current study the influence of water deficit on phenological and morphological characters of different tomato genotypes was investigated. The experiment was conducted at the Maritsa Vegetable Crops Research Institute in two consecutive years (2016-2017) with 11indeterminate and 13 determinate tomato accessions grown under optimum and 50% reduced irrigation. The results showed that the plants of indeterminate and determinate tomato types answered the water deficit with a decrease of the fruit number (53.0% and 32.2% respectively), fruit weight (42.9% and 19.2%), plant fresh weight (36.0% and 37.5%), flower number (19.1% and 11.5%), pericarp thickness (19.1% and 10.6%), fruit length (17.9% and 13.5%) and fruit width (15.9% and 8.1%). In the predominant part of the accessions grown in the reduced watering regime the total soluble solids were higher than these of the accessions grown in the optimal one. Strong to very strong positive correlations of plant height, flower number, fruit number and fruit weight in optimal irrigation with the same characters in reduced irrigation were found
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