Your search keyword '"Tomasi N"' showing total 3 results

1. Aluminium-phosphate interactions in the rhizosphere of two bean species: Phaseolus lunatus L. and Phaseolus vulgaris L.

Author

Mimmo T, Ghizzi M, Cesco S, Tomasi N, Pinton R, and Puschenreiter M

Subjects

Carboxylic Acids metabolism, Phaseolus classification, Phosphorus metabolism, Plant Shoots metabolism, Species Specificity, Stress, Physiological, Adaptation, Physiological, Aluminum metabolism, Aluminum Compounds metabolism, Phaseolus microbiology, Phosphates metabolism, Plant Roots metabolism, Rhizosphere, Soil

Abstract

Background: Plants differ in their response to high aluminium (Al) concentrations, which typically cause toxicity in plants grown on acidic soils. The response depends on plant species and environmental conditions such as substrate and cultivation system. The present study aimed to assess Al-phosphate (P) dynamics in the rhizosphere of two bean species, Phaseolus vulgaris L. var. Red Kidney and Phaseolus lunatus L., in rhizobox experiments., Results: Root activity of the bean species induced up to a sevenfold increase in exchangeable Al and up to a 30-fold decrease in extractable P. High soluble Al concentrations triggered the release of plant-specific carboxylates, which differed between soil type and plant species. The results suggest that P. vulgaris L. mitigates Al stress by an internal defence mechanism and P. lunatus L. by an external one, both mechanisms involving organic acids., Conclusion: Rhizosphere mechanisms involved in Al detoxification were found to be different for P. vulgaris L. and P. lunatus L., suggesting that these processes are plant species-specific. Phaseolus vulgaris L. accumulates Al in the shoots (internal tolerance mechanism), while P. lunatus L. prevents Al uptake by releasing organic acids (exclusion mechanism) into the growth media., (© 2013 Society of Chemical Industry.)

Published

2013

2. Influence of hydroponic and soil cultivation on quality and shelf life of ready-to-eat lamb's lettuce (Valerianella locusta L. Laterr).

Author

Manzocco L, Foschia M, Tomasi N, Maifreni M, Dalla Costa L, Marino M, Cortella G, and Cesco S

Subjects

Adolescent, Adult, Biomass, Color, Consumer Behavior, Fast Foods, Female, Food Handling methods, Food Microbiology, Humans, Male, Middle Aged, Nitrates metabolism, Plant Leaves growth & development, Plant Leaves microbiology, Refrigeration, Silicon metabolism, Vegetables microbiology, Vegetables standards, Water metabolism, Young Adult, Food Preservation methods, Hydroponics methods, Soil, Valerianella growth & development, Vegetables growth & development

Abstract

Background: Nowadays, there is an increasing interest in the hydroponic floating system to cultivate leafy vegetables for ready-to-eat salads. It is reasonable that different growing systems could affect the quality and shelf life of these salads., Results: The quality and shelf life of ready-to-eat lamb's lettuce grown in protected environment in soil plot or in soil-less system over hydroponic solution with or without the addition of 30 µmol L⁻¹ silicon were evaluated. Minimum effects were observed on colour, firmness and microbial counts. Hydroponic cultivation largely affected plant tissue hydration, leading to weight loss and structural modifications during refrigerated storage. The shelf life of lamb's lettuce was limited by the development of visually detectable unpleasant sensory properties. Shelf life, calculated by survival analysis of consumer acceptability data, resulted about 7 days for soil-cultivated salad and 2 days for the hydroponically grown ones. The addition of silicon to the hydroponic solution resulted in an interesting strategy to increase plant tissue yield and reduce nitrate accumulation., Conclusions: Although hydroponic cultivation may have critical consequences on product quality and shelf life, these disadvantages could be largely counterbalance by increased yield and a reduction of nitrate accumulation when cultivation is performed on nutritive solutions with supplemental addition of silicon., (Copyright © 2011 Society of Chemical Industry.)

Published

2011

3. Corn salad (Valerianella locusta (L.) Laterr.) growth in a water-saving floating system as affected by iron and sulfate availability.

Author

Iacuzzo F, Gottardi S, Tomasi N, Savoia E, Tommasi R, Cortella G, Terzano R, Pinton R, Dalla Costa L, and Cesco S

Subjects

Biological Transport, Biomass, Fertilizers, Gene Expression, Plant Leaves growth & development, Plant Leaves metabolism, Plant Roots metabolism, Valerianella metabolism, Water, Agriculture methods, Iron metabolism, Nitrates metabolism, Nitrogen metabolism, Sulfates metabolism, Sulfur metabolism, Valerianella growth & development

Abstract

Background: Unbalanced nutrient availability causes disequilibrated plant growth, which can result in a worsening of harvested product quality, such as high nitrate content in edible tissues. To cope with this problem, improved knowledge of the mechanisms involved in nutrient acquisition and regulation is necessary. For this purpose the responses of acquisition mechanisms of N, Fe and S were studied as a function of Fe and S availability using two corn salad cultivars grown hydroponically, considering also aspects related to N metabolism., Results: The results showed that an increase in Fe or S availability enhanced nitrate uptake and assimilation, which in turn increased biomass production of leaves with lower nitrate content. In particular, high S availability exerted a positive effect (gene expression and functionality) both on the uptake and metabolism of N and on Fe acquisition mechanisms., Conclusion: The data presented here show close interactions between N, S and Fe, highlighting that relevant improvements in yield and quality from soilless culture might also be obtained through appropriate adjustments of nutrient availability. In this respect, concerning the role of S in the acquisition mechanisms of N and Fe and in N metabolism, its level of availability should be taken into high consideration for equilibrated plant growth., (2010 Society of Chemical Industry.)

Published

2011