kw.\*:("Cloranemia")
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Time to pump iron : iron-deficiency-signaling mechanisms of higher plantsWALKER, Elsbeth L; CONNOLLY, Erin L.Current opinion in plant biology. 2008, Vol 11, Num 5, pp 530-535, issn 1369-5266, 6 p.Article
Le soufre en agriculture en Europe Occidentale Madrid, du 27 au 30 septembre 1984 = Sulphur in agriculture in Western Europe Madrid from 27 to 30 september 1984Le soufre en agriculture en Europe Occidentale. 1984, 254 p.Conference Proceedings
Nouveaux complexes du fer et nutrition sidérique de végétaux = Novel iron complexes and iron nutrition of plantsCaris, Catherine; Baret, P.1994, 272 p.Thesis
Effect of sulphur on prevention of iron chlorosis and plant composition of groundnut on alkaline calcareous soilsSAHU, M. P; SINGH, H. G.Journal of Agricultural Science. 1987, Vol 109, Num 1, pp 73-77, issn 0021-8596Article
Ameliorating chlorosis-inducing soils with rock materials of varying porosity and iron contentCLEMENS, G; SINGER, A.Soil Science Society of America journal. 1992, Vol 56, Num 3, pp 807-813, issn 0361-5995Article
Prevention of stress in iron metabolism of plantsBIENFAIT, H. F.Acta botanica neerlandica. 1989, Vol 38, Num 2, pp 105-129, issn 0044-5983Article
Towards a knowledge-based correction of iron chlorosisABADIA, Javier; VAZQUEZ, Saúl; RELLAN-ALVAREZ, Rubén et al.Plant physiology and biochemistry (Paris). 2011, Vol 49, Num 5, pp 471-482, issn 0981-9428, 12 p.Conference Paper
Kinetics of ferric chelate reduction by roots of iron-deficient peanut (Arachis hypogea)CHANEY, R. L.Acta botanica neerlandica. 1989, Vol 38, Num 2, pp 155-163, issn 0044-5983Article
The relationships among iron-stress responses, iron-efficiency and iron uptake of plantsLONGNECKER, N; WELCH, R.Journal of plant nutrition. 1986, Vol 9, Num 3-7, pp 715-727, issn 0190-4167Conference Paper
Grapevine rootstock effects on lime-induced chlorosis, nutrient uptake, and source-sink relationshipsBAVARESCO, L; GIACHINO, E; PEZZUTTO, S et al.Journal of plant nutrition. 2003, Vol 26, Num 7, pp 1451-1465, issn 0190-4167, 15 p.Article
Identification of dibutyl phthalate in the root exudate of Fe-efficient (Corchorus capsularis L.) subjected to Fe-deficiency stress: its action on Fe-chlorosis recoverySARADHA RAMANI PATANKAR, A. V; SESHADRI KANNAN.Journal of plant nutrition. 1986, Vol 9, Num 12, pp 1533-1541, issn 0190-4167Article
Effect of soil pH and texture on the growth and nodulation of lupinsWHITE, P. F; ROBSON, A. D.Australian journal of agricultural research. 1989, Vol 40, Num 1, pp 63-73, issn 0004-9409Article
Effects of dibutyl phthalate and phthalic acid on chlorosis recovery in iron-deficiency stressed sorghum cultivarsSESHADRI KANNAN.Journal of plant nutrition. 1986, Vol 9, Num 12, pp 1543-1551, issn 0190-4167Article
Different strategies in higher plants in mobilization and uptake of ironMARSCHNER, H; RÖMHELD, V; KISSEL, M et al.Journal of plant nutrition. 1986, Vol 9, Num 3-7, pp 695-713, issn 0190-4167Conference Paper
Characterization of MxFIT, an iron deficiency induced transcriptional factor in Malus xiaojinensisLILI YIN; YI WANG; MUDAN YUAN et al.Plant physiology and biochemistry (Paris). 2014, Vol 75, pp 89-95, issn 0981-9428, 7 p.Article
Considerations on the shuttle mechanism of FeEDDHA chelates at the soil-root interface in case of Fe deficiencySCHENKEVELD, Walter D. C; REICHWEIN, Arjen M; TEMMINGHOFF, Erwin J. M et al.Plant and soil. 2014, Vol 379, Num 1-2, pp 373-387, issn 0032-079X, 15 p.Article
Morpho-physiological parameters affecting iron deficiency chlorosis in soybean (Glycine max L.)VASCONCELOS, Marta W; GRUSAK, Michael A.Plant and soil. 2014, Vol 374, Num 1-2, pp 161-172, issn 0032-079X, 12 p.Article
Adaptive strategies of Parietaria diffusa (M.&K.) to calcareous habitat with limited iron availabilityDONNINI, Silvia; DE NISI, Patrizia; GABOTTI, Damiano et al.Plant, cell and environment (Print). 2012, Vol 35, Num 6, pp 1171-1184, issn 0140-7791, 14 p.Article
Carboxylate metabolism changes induced by Fe deficiency in barley, a Strategy II plant speciesLOPEZ-MILLAN, Ana-Flor; GRUSAK, Michael A; ABADIA, Javier et al.Journal of plant physiology. 2012, Vol 169, Num 11, pp 1121-1124, issn 0176-1617, 4 p.Article
Quantitative Phosphoproteome Profiling of Iron-Deficient Arabidopsis RootsPING LAN; WENFENG LI; WEN, Tuan-Nan et al.Plant physiology (Bethesda). 2012, Vol 159, Num 1, pp 403-417, issn 0032-0889, 15 p.Article
The biodegradability of EDDHA chelates under calcareous soil conditionsSCHENKEVELD, W. D. C; HOFFLAND, E; REICHWEIN, A. M et al.Geoderma (Amsterdam). 2012, Vol 173-174, pp 282-288, issn 0016-7061, 7 p.Article
Iron deficiency affects plant defence responses and confers resistance to Dickeya dadantii and Botrytis cinereaPHUONG KIEU, Nam; AZNAR, Aude; SEGOND, Diego et al.Molecular plant pathology. 2012, Vol 13, Num 8, pp 816-827, issn 1464-6722, 12 p.Article
Arabidopsis CYP82C4 expression is dependent on Fe availability and circadian rhythm, and correlates with genes involved in the early Fe deficiency responseMURGIA, Irene; TARANTINO, Delia; SOAVE, Carlo et al.Journal of plant physiology. 2011, Vol 168, Num 9, pp 894-902, issn 0176-1617, 9 p.Article
Changes of metabolic responses to direct and induced Fe deficiency of two Pisum sativum cultivarsJELALI, Nahida; WISSAL, M'sehli; DELL'ORTO, Marta et al.Environmental and experimental botany. 2010, Vol 68, Num 3, pp 238-246, issn 0098-8472, 9 p.Article
Inheritance of resistance to iron deficiency and identification of AFLP markers associated with the resistance in mungbean (Vigna radiata (L.) Wilczek)SRINIVES, Peerasak; KITSANACHANDEE, Ratanakorn; CHALEE, Thitaporn et al.Plant and soil. 2010, Vol 335, Num 1-2, pp 423-437, issn 0032-079X, 15 p.Article