P. Marino Gallina scite author profile

Iron deficiency responses were investigated in roots of soybean, a Strategy I plant species. Soybean responds to iron deficiency by decreasing growth, both at the root and shoot level. Chlorotic symptoms in younger leaves were evident after a few days of iron deficiency, with chlorophyll content being dramatically decreased. Moreover, several important differences were found as compared with other species belonging to the same Strategy I. The main differences are (i) a lower capacity to acidify the hydroponic culture medium, that was also reflected by a lower H(+)-ATPase activity as determined in a plasma membrane-enriched fraction isolated from the roots; (ii) a drastically reduced activity of the phosphoenolpyruvate carboxylase enzyme; (iii) a decrease in both cytosolic and vacuolar pHs; (iv) an increase in the vacuolar phosphate concentration, and (v) an increased exudation of organic carbon, particularly citrate, phenolics, and amino acids. Apparently, in soybean roots, some of the responses to iron deficiency, such as the acidification of the rhizosphere and other related processes, do not occur or occur only at a lower degree. These results suggest that the biochemical mechanisms induced by this nutritional disorder are differently regulated in this plant. A possible role of inorganic phosphate in the balance of intracellular pHs is also discussed.

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Nitrogen fertilizer replacement value of undigested liquid cattle manure and digestates

Cavalli

Cabassi

Borrelli

et al. 2016

European Journal of Agronomy

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Does remote and proximal optical sensing successfully estimate maize variables? A review

Corti

Cavalli

Cabassi³

et al. 2018

European Journal of Agronomy

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Hyperspectral imaging of spinach canopy under combined water and nitrogen stress to estimate biomass, water, and nitrogen content

Corti

Gallina

Cavalli

et al. 2017

Biosystems Engineering

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Effect of nitrogen fertilisation levels on melon fruit quality at the harvest time and during storage

et al. 2008

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BACKGROUND: The quality of melon fruit depends upon many factors that can be affected by growing conditions and post-harvest management. The aim of this work was to investigate the effect of nitrogen fertilisation levels on the fruit quality at harvest time and during storage. Experiments were performed in an open field using melon plants (Cucumis melo L. Var. Reticulatus cv. Prodigio). The nitrogen (N) was applied through fertigation using four fertilisation levels: 0, 55, 110 and 165 kg ha −1 . After harvest the fruits were stored at 10 • C for 8 days. At harvest time the yield, flesh firmness, skin and pulp colours, content of carotenoids, total phenols, ascorbic acid (AsA) and ethylene production were measured on fruits differently fertilised.

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P. Marino Gallina

Iron deficiency differently affects metabolic responses in soybean roots

Nitrogen fertilizer replacement value of undigested liquid cattle manure and digestates

Does remote and proximal optical sensing successfully estimate maize variables? A review

Hyperspectral imaging of spinach canopy under combined water and nitrogen stress to estimate biomass, water, and nitrogen content

Effect of nitrogen fertilisation levels on melon fruit quality at the harvest time and during storage

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