J. Hoeberechts scite author profile

J. Hoeberechts

2Publications

91Citation Statements Received

36Citation Statements Given

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105

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University of Turin

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Nitrogen concentration and nitrate/ammonium ratio affect yield and change the oxalic acid concentration and fatty acid profile of purslane (Portulaca oleracea L.) grown in a soilless culture system

et al. 2006

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Purslane is an excellent source of omega-3 fatty acids, amino acids and vitamins. The aim of this research was to study the effect of different nitrogen levels and NO 3 − -N/NH 4 + -N ratios in the nutrient solution on the yield and on the oxalic acid content and fatty acid profile in purslane grown in a soilless culture system. Two experiments were carried out to test different levels of nitrogen: (1) 8-12-16 mmol L −1 and (2) 0-12-24-36 mmol L −1 . A third experiment was carried out maintaining the N level fixed (12 mmol L −1 ) but varying the NO 3 − -N/NH 4 + -N ratio: 60:40, 40:60, 0:100. The results indicated that plants grew with increasing nitrogen level up to 36 mmol L −1 . Nitrogen supplied in both NO 3 − and NH 4 + forms produced bigger plants than N supplied in NH 4 + form only. Nitrogen did not significantly influence the polyunsaturated fatty acid content in the canopy. Significant trends were found for α-linolenic acid (LNA; 18:3 n-3) and linoleic acid (LA; 18:2 n-6), indicating a favorable accumulation of omega-3 fatty acids with increasing N; palmitic acid decreased by increasing N and by switching the NO 3 − /NH 4 + ratio towards the NH 4 + level in the nutrient solution, but using 0:100 NO 3 − /NH 4 + , decreased plant quality. Increasing N lowered oxalic acid production and palmitic acid content, enhancing purslane nutritional quality. Keeping a high N level in the nutrient solution with a 40:60 NO 3 − /NH 4 + ratio would give the best results in terms of yield, oxalic acid concentration and fatty acid profile.

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Comparison Between Traditional and Soilless Culture Systems to Produce Rocket (Eruca Sativa) With Low Nitrate Content

Senesi¹,

Hoeberechts²,

Fontana³

2005

Acta Hortic.

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Rocket is traditionally cultivated in soil and commercialized either as fresh or as ready-to-eat produce. This leafy vegetable is often commercialized fresh, cut, washed, conditioned in packages as ready-to-eat food, giving added-value to the fresh products. Soilless culture system (SCS) allows to control growth factors and clean leaf production, easing and shortening postharvest handling in process industries. A comparison between the traditional culture system (TCS) and a SCS was effected, with two plant densities (1067 and 2134 plants/m 2). TCS was simulated in polystyrene trays filled with local soil and peat (1:1 v/v), overhead irrigation and weekly fertilization. For SCS 40cell trays were filled with 1:1 perlite and peat, seeded and floated in a nutrient solution during plant growth. Fresh leaf production was significantly influenced by culture system x plant density. Rocket grown with SCS produced about 75% more than plants grown with TCS. The plants grown in SCS with the highest plant density gave the greatest production (2182 g m-2). Nitrate leaf content was significantly influenced by the culture systems. The leaves of plants grown with TCS contained less NO 3 than those grown with SCS, in a ratio of 1:1.6. With both culture systems the nitrate content was much lower than 2500 mg kg-1 f.w., which is the maximum content allowed by EU regulation for lettuce. In this experiment SCS allowed to enhance earliness: in fact, SCS produced marketable and ready-to-eat rocket in 70 days, while TCS would require extended growing period.

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J. Hoeberechts

Nitrogen concentration and nitrate/ammonium ratio affect yield and change the oxalic acid concentration and fatty acid profile of purslane (Portulaca oleracea L.) grown in a soilless culture system

Comparison Between Traditional and Soilless Culture Systems to Produce Rocket (Eruca Sativa) With Low Nitrate Content

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