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Roberto Pinton
Roberto Pinton
Professore di Chimica Agraria, Università di Udine, Italia
Verified email at uniud.it
Title
Cited by
Cited by
Year
Review on iron availability in soil: interaction of Fe minerals, plants, and microbes
C Colombo, G Palumbo, JZ He, R Pinton, S Cesco
Journal of soils and sediments 14, 538-548, 2014
6002014
The rhizosphere: biochemistry and organic substances at the soil-plant interface
R Pinton, Z Varanini, P Nannipieri
CRC press, 2007
5982007
Release of plant-borne flavonoids into the rhizosphere and their role in plant nutrition
S Cesco, G Neumann, N Tomasi, R Pinton, L Weisskopf
Plant and soil 329, 1-25, 2010
3792010
Plant-borne flavonoids released into the rhizosphere: impact on soil bio-activities related to plant nutrition. A review
S Cesco, T Mimmo, G Tonon, N Tomasi, R Pinton, R Terzano, ...
Biology and Fertility of Soils 48, 123-149, 2012
3312012
Rhizospheric organic compounds in the soil–microorganism–plant system: their role in iron availability
T Mimmo, D Del Buono, R Terzano, N Tomasi, G Vigani, C Crecchio, ...
European Journal of Soil Science 65 (5), 629-642, 2014
2362014
Modulation of NO 3 - uptake by water-extractable humic substances: involvement of root plasma membrane H+ATPase
R Pinton, S Cesco, G Iacolettig, S Astolfi, Z Varanini
Plant and soil 215, 155-161, 1999
2231999
Humic substances and plant nutrition
Z Varanini, R Pinton
Progress in botany: Structural botany physiology genetics taxonomy geobotany …, 1995
1911995
Humic substances contribute to plant iron nutrition acting as chelators and biostimulants
L Zanin, N Tomasi, S Cesco, Z Varanini, R Pinton
Frontiers in Plant Science 10, 452874, 2019
1862019
Two plasma membrane H+-ATPase genes are differentially expressed in iron-deficient cucumber plants
S Santi, S Cesco, Z Varanini, R Pinton
Plant Physiology and Biochemistry 43 (3), 287-292, 2005
1842005
Direct versus indirect effects of soil humic substances on plant growth and nutrition
Z Varanini, R Pinton
The rhizosphere, 157-174, 2000
1832000
Sucrose accumulation in developing peach fruit
G Vizzotto, R Pinton, Z Varanini, G Costa
Physiologia Plantarum 96 (2), 225-230, 1996
1691996
Water-extractable humic substances enhance iron deficiency responses by Fe-deficient cucumber plants
R Pinton, S Cesco, S Santi, F Agnolon, Z Varanini
Plant and Soil 210, 145-157, 1999
1661999
Induction of nitrate uptake in maize roots: expression of a putative high‐affinity nitrate transporter and plasma membrane H+‐ATPase isoforms
S Santi, G Locci, R Monte, R Pinton, Z Varanini
Journal of Experimental Botany 54 (389), 1851-1864, 2003
1482003
Uptake of 5 9Fe from soluble 5 9Fe-humate complexes by cucumber and barley plants
S Cesco, M Nikolic, V Römheld, Z Varanini, R Pinton
Plant and Soil 241, 121-128, 2002
1402002
Solubilization of iron by water‐extractable humic substances
S Cesco, V Römheld, Z Varanini, R Pinton
Journal of Plant Nutrition and Soil Science 163 (3), 285-290, 2000
1372000
Flavonoids of white lupin roots participate in phosphorus mobilization from soil
N Tomasi, L Weisskopf, G Renella, L Landi, R Pinton, Z Varanini, ...
Soil Biology and Biochemistry 40 (7), 1971-1974, 2008
1362008
Development of Fe‐deficiency responses in cucumber (Cucumis sativus L.) roots: involvement of plasma membrane H+‐ATPase activity
M Dell'Orto, S Santi, P De Nisi, S Cesco, Z Varanini, G Zocchi, R Pinton
Journal of Experimental Botany 51 (345), 695-701, 2000
1352000
The rhizosphere as a site of biochemical interactions among soil components, plants, and microorganisms
R Pinton, Z Varanini, P Nannipieri
The rhizosphere, 17-34, 2000
1332000
Low molecular weight humic substances stimulate H+-ATPase activity of plasma membrane vesicles isolated from oat (Avena sativa L.) roots
Z Varanini, R Pinton, MG De Biasi, S Astolfi, A Maggioni
Plant and soil 153, 61-69, 1993
1321993
Action of soil humic matter on plant roots: stimulation of ion uptake and effects on (Mg2++ K+) ATPase activity
A Maggioni, Z Varanini, S Nardi, R Pinton
Science of the Total Environment 62, 355-363, 1987
1261987
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