José Miguel Azañón Hernández scite author profile

Considering the economic importance of the tomato and its nutritional benefits to human health, a study was made of how two different environmental factors (temperature and overall solar radiation) influence the nutritional quality of cherry tomatoes during the plant full production cycle. Solanum lycopersicum L. cv. Naomi plants were grown in an experimental greenhouse. Three fruit samples were taken over the full production period: first sampling at the beginning of harvest (7 January 2004), second at mid-harvest (22 March 2004) and third at harvest end (30 May 2004). Values for temperature and overall accumulated solar radiation peaked at a maximum in the third sampling, without lowering the yield with respect to previous samplings. Regarding the antioxidant activity in the exocarp fraction of the cherry tomato fruits, the results showed that the increase in temperature and solar radiation diminished the lycopene and β-carotene contents in the third sampling, inducing defective pigmentation (sunscald). This occurred simultaneously with an increase in lipid peroxidation during the third sampling, quantified as lipoxygenase activity and malondialdehyde content. Finally, in relation to ascorbate metabolism, the higher temperatures and stronger solar radiation at the third sampling increased the oxidation of reduced ascorbate (AsA) due to intensified ascorbate peroxidase (APX) and ascorbate oxidase (AO) activities and a depression of the enzyme dehydroascorbate reductase (DHAR). In conclusion, the results indicate that despite the oxidation of AsA by APX and AO, the minimal regeneration of the latter, together with the greater lipid peroxidation with increasing temperature and solar radiation in the greenhouse, explained the lower content of antioxidants in the exocarp and therefore the loss of nutritional quality of the cherry tomato fruits grown under these conditions.

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Nitrogen Metabolism and Yield Response to Increases in Nitrogen−Phosphorus Fertilization: Improvement in Greenhouse Cultivation of Eggplant (Solanum melongena Cv. Bonica)

López‐Cantarero

Ruiz

Hernández

et al. 1997

J. Agric. Food Chem.

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The effect that application of nitrogen−phosphorus (NP) rates exerts on some parameters of nitrogen metabolism and on yield in aubergine plants (eggplant, Solanum melongena cv. Bonica) was studied. All plants were grown under controlled conditions in an experimental greenhouse. The treatments consisted of the combination of three rates of N in the form of KNO3 (N1: 15 g m-2, N2: 22.5 g m,-2 and N3: 30 g m-2) together with two rates of P in the form of H3PO4 (P1: 24 g m-2 and P2: 36 g m-2), for a total of six treatments. Results indicate that regardless of the P rate applied, an increase in the N fertilizer increased NO3- assimilation as well as total and commercial yield. Use of the P2 rate favored all of these processes in comparison with the results obtained with the P1 rate, in addition to notably reducing the foliar levels of NO3- and noncommercial yield. Keywords: Solanum melongena L.; NP fertilization; nitrogen assimilation; yield

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NRF-2 transcription factor is required for human TOMM20 gene expression

Blesa¹,

Prieto-Ruiz²,

Hernández³

et al. 2007

Gene

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How plastic mulches affect the thermal and radiative microclimate in an unheated low-cost greenhouse

Bonachela

Granados

López³

et al. 2012

Agricultural and Forest Meteorology

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Microclimate and agronomical effects of internal impermeable screens in an unheated Mediterranean greenhouse

Hernández

Bonachela

Granados

et al. 2017

Biosystems Engineering

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