Functional Quality of Improved Tomato Genotypes Grown in Open Field and in Plastic Tunnel under Organic Farming

Murariu, Otilia Cristina; Brezeanu, C.; Jităreanu, C. D.; Robu, Teodor; Irimia, Liviu; Trofin, A.; Popa, Lorena-Diana; Stoleru, Vasile; Murariu, Florin; Brezeanu, Petre

doi:10.3390/agriculture11070609

Cited by 24 publications

(15 citation statements)

References 43 publications

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“…In this respect, fruits harvested from open field had significantly higher percentage of dry matter, vitamin C and total carbohydrates in both seasons than in those harvested from plastic house. These results are in accordance with those presented by Murariu et al (2021), who reported that the crop system had a major influence on vitamin C content and dry matter in tomato fruits, being recorded the highest value in the case of organic tomatoes from the field, with statistically significant differences compared to varieties cultivated in the plastic tunnel. The Whitley et al (2011) reported that changes in temperature from day to night influence metabolic rate, resulting in differential effects on carbohydrate metabolism and respiration.…”

Section: Effect Of Production Systems Cultivarssupporting

confidence: 93%

Performance of some spherical eggplant hybrids under plastic house and open field conditions

Sayed¹,

Mahmoud²

2022

Scientific Journal of Agricultural Sciences

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Two experiments were conducted during the two winter seasons of 2018/2019 and 2019/2020 at the Agricultural Experimental Station of Faculty of Agriculture Cairo University Giza to investigate the response of four spherical F1 cultivars (Sawad El Laiel, Petra, Amedo and Black Berry) of eggplant (Solanum melongena L.) under two different production systems (open field and plastic house), consider the vegetative growth, fruit quality and yield. Plants grown in open field had higher values of number of branches, early and total yield, fruit weight, fruit diameter, fruit total carbohydrate, vitamin C, macro and micro elements and significant increase in leaf dry matter, leaf concentrations of macro and microelements compared with plastic house production. Reversely, planting in plastic house significantly increased plant height, leaf area and fruit dry matter compared with planting in open field. The period from transplanting to first harvest was shorter in plants grown in open field than those grown in plastic house. Meanwhile, there were no significant differences between production systems in leaf chlorophyll, fruit length, fruit contents of TSS, Ca, Mg, niacin and omega3 in both seasons. The analysis showed significant differences among the different eggplant cultivars for all traits. Sawad El Laiel' recorded the highest value of early and total yield, average fruit weight, total carbohydrate, TSS and leaf concentrations of K, Ca and B. On the other hand, 'Amedo' significantly exceeded all other cultivars in chlorophyll reading and leaf concentrations of N, P, Mg, Fe, Mn and Zn as well as fruit diameter, fruit concentrations of N, P, K, Ca, Mg, Fe, Mn, Zn, vitamin C, niacin (B3) Omega 3 and dry matter. 'Petra' was the earliest cultivar, while the 'Black Berry' was the latest one. The interaction between cultivars and production systems had significantly influence on all traits under study.

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Section: Effect Of Production Systems Cultivarssupporting

confidence: 93%

Performance of some spherical eggplant hybrids under plastic house and open field conditions

Sayed¹,

Mahmoud²

2022

Scientific Journal of Agricultural Sciences

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“…Carbohydrate content of the tomato fruit can be influenced by many factors, including environmental conditions and crop technology, method of assessing content, harvest period and genotypes [40][41][42][43][44]. The values for carbohydrates, based on glucose plus fructose levels in this experiment, demonstrate the strong influence of genotype and individual genetic heritage of cultivars on the potential to accumulate a certain amount of carbohydrates.…”

Section: Chemical Compounds Variations On Tomato Fruitsmentioning

confidence: 79%

Physico-Chemical, Nutritional, and Sensory Evaluation of Two New Commercial Tomato Hybrids and Their Parental Lines

Felföldi

Ranga

Socaci

et al. 2021

Plants

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Tomato (Solanum lycopersicum) is the globally most consumed vegetable. The objective of this research was to analyze physico-chemical, nutritional and sensorial components (taste and flavor) in two new commercial hybrids (AS 300 F1 and AS 400 F1) and their four F7 parental lines. Two widely grown F1 hybrids (Precos F1 and Addalyn F1) were used as controls. The results obtained for carbohydrates (HPLC-RID) indicated that the highest values (27.82 mg/g) were recorded in the paternal line AS 10 of the new hybrid AS 400 F1. The highest values of total organic acids (HPLC-VWD) were recorded in Addalyn F1 (5.06 m/g), while the highest value of phenolic compounds (HPLC-DAD-ESI⁺) were identified in the maternal line AS 09 of the hybrid AS 400 F1 (96.3 µg/g). Intrinsic sensory values were analyzed by male and female tasters of different ages using a hedonic scale. The tasters’ perception revealed obvious taste differences between tomato genotypes. The study allowed determining genetic parameters of interest (heterosis and heterobeltosis) for the new hybrids, as well as a detailed characterization of the chemical composition and organoleptic quality of the parental breeding lines and their hybrids, which is useful in tomato breeding.

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“…Tomato fruits are rich in carotenoids (e.g. bcarotenoids and lycopene), ascorbic acid (vitamin C), tocopherol (vitamin E), and bioactive phenolic compounds such as quercetin, kaempferol, naringenin and lutein, caffeic, ferulic and chlorogenic acids (Dasgupta and Klein, 2014;Mihalache et al, 2020;Stoleru et al, 2020;Murariu et al, 2021). The carotenoids from tomatoes are known to display anticancer properties and to be excellent deactivators of reactive oxygen species (ROS) (e.g.…”

Section: Introductionmentioning

confidence: 99%

Tomato responses to salinity stress: From morphological traits to genetic changes

2023

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Tomato is an essential annual crop providing human food worldwide. It is estimated that by the year 2050 more than 50% of the arable land will become saline and, in this respect, in recent years, researchers have focused their attention on studying how tomato plants behave under various saline conditions. Plenty of research papers are available regarding the effects of salinity on tomato plant growth and development, that provide information on the behavior of different cultivars under various salt concentrations, or experimental protocols analyzing various parameters. This review gives a synthetic insight of the recent scientific advances relevant into the effects of salinity on the morphological, physiological, biochemical, yield, fruit quality parameters, and on gene expression of tomato plants. Notably, the works that assessed the salinity effects on tomatoes were firstly identified in Scopus, PubMed, and Web of Science databases, followed by their sifter according to Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guideline and with an emphasis on their results. The assessment of the selected studies pointed out that salinity is one of the factors significantly affecting tomato growth in all stages of plant development. Therefore, more research to find solutions to increase the tolerance of tomato plants to salinity stress is needed. Furthermore, the findings reported in this review are helpful to select, and apply appropriate cropping practices to sustain tomato market demand in a scenario of increasing salinity in arable lands due to soil water deficit, use of low-quality water in farming and intensive agronomic practices.

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Functional Quality of Improved Tomato Genotypes Grown in Open Field and in Plastic Tunnel under Organic Farming

Cited by 24 publications

References 43 publications

Performance of some spherical eggplant hybrids under plastic house and open field conditions

Performance of some spherical eggplant hybrids under plastic house and open field conditions

Physico-Chemical, Nutritional, and Sensory Evaluation of Two New Commercial Tomato Hybrids and Their Parental Lines

Tomato responses to salinity stress: From morphological traits to genetic changes

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