5. Lluch C , Gómez M, Olivares J
Efecto de la utilización del azufre como fertilizante por vía foliar en judía
Anales de Edafología y Agrobiología 35(5-6): 567-579 (1976)
6. Lluch C , Olivares J
Effect of elemental sulphur and sulphate on soil microflora
Agrochimica XXIII (34): 273-278 (1979)
7. Lluch C , Gómez M, Olivares J
Efecto de la fertilización de soja con distintas formas de azufre
Anales de Edafología y Agrobiología 38(1-2): 197-205 (1979)
8. Ligero F, Lluch C , Recalde L
Efecto de la fertilización nitrogenada y azufrada sobre el crecimiento, superficie foliar y contenido de N, P, K, Ca y Mg en hojas de plantas de judía (Phaseolus vulgaris L.)
Anales de Edafología y Agrobiología 40(7-8): 1269-1280 (1981)
9. Lluch C , Gómez M, Olivares J
The effect of the fertilization leguminous plants with sulphur on ethylene production by roots and Rhizobium nodulation
Agrochimica XXVI (1): 79-86 (1982)
10. Ligero F, Lluch C
Macronutrient content in leaves of bean plants ( Phaseolus vulgaris L.) growth with differents rates of N/S as fertilizers
Plant and Soil 65: 421-424 (1982)
11. Lluch C , Ligero F, Olivares J
Efecto de las giberelinas producidas por Rhizobium meliloti en la nodulación de alfalfa (Medicago sativa L.)
Anales de Edafología y Agrobiología 42(5-6): 793-805 (1983)
12. Lluch C , Campos JA, Ligero F
Effect of nitrogen and sulphur fertilizers and seed inoculation with Rhizobium phaseoli on the nitrogen-sulphur relationships of bean (Phaseolus vulgaris L.)
Journal of Plant Nutrition 6(12): 1033-1042 (1983)
13. Lluch C , Campos JA, Ligero F
Efecto del azufre, nitrógeno y Rhizobium sobre la cosecha, nodulación y contenido de nutrientes en Phaseolus vulgaris
Anales de Edafología y Agrobiología 42(5-6): 769-781 (1983)
14. Lluch C , Ligero F, Campos JA
Efecto de la fertilización azufrada en la relación N/S en plantas de haba (Vicia faba L.)
Anales de Edafología y Agrobiología 43(11-12): 1714-1724 (1985)
15. Ligero F, Lluch C
Nutrición mineral de las leguminosas: nitrógeno y azufre
Anales de Edafología y Agrobiología 44(5-6): 735-766 (1985)
16. Ligero F, Lluch C
Aspectos fisiológicos de la simbiosis Rhizobium-leguminosa
Anales de Edafología y Agrobiología 43(11-12): 1736-1762 (1985)
17. Ligero F, Lluch C , Olivares J
Evolution of ethylene from roots of Medicago sativa plants inoculated with Rhizobium meliloti
Journal of Plant Physiology 125: 361-365 (1986)
18. Ligero F, Lluch C
Las fitohormonas en la simbiosis Rhizobium -leguminosa
Ars Pharmaceutica XXVII(1): 107-110 (1986)
19. Ligero F, Lluch C , Olivares J
Evolution of ethylene from roots and nodulation of alfalta (Medicago sativa L) plants inoculated with Rhizobium meliloti as affected by the presence of nitrate
Journal of Plant Physiology 129: 461-467 (1987)
20. Ligero F, Lluch C , Olivares J, Bedmar EJ
Nitrate reductase activity in nodules of pea inoculated with hydrogenase positive and hydrogenase negative strains of Rhizobium leguminosarum
Physiologia Plantarum 69: 313-316 (1987)
21. Lluch C , Gavilan P
Fijación biológica de nitrógeno
Naturalia Baetica 1: 73-82 (1989)
22. Hervás A, Ligero F, Lluch C
Rendimiento de cultivos de guisantes en diferentes suelos agrícolas
Ars Pharmaceutica XXX(1-2): 133-139 (1989)
23. Caba JM, Lluch C , Hervás A, Ligero F
Nitrate metabolism in roots and nodules of Vicia faba in response to exogenous nitrate
Physiologia Plantarum 79: 531-539 (1990)
24. Ligero F, Caba JM, Lluch C , Olivares J
Nitrate inhibition of nodulation can be overcome by the ethylene inhibitor aminoethosyvinylglycine
Plant Physiology 97: 1221-1225 (1991)
25. Gavilan P, Hervás A, Ligero F, Lluch C
Estudio de la simbiosis Vicia faba L . con diversos mutantes de Rhizobium leguminosarum bv. viciae
Agrochimica XXXV(56): 455-464 (1991)
26. Hervás A, Caba JM, Ligero F, Lluch C
Effect of combined nitrogen supply and nodulation on nitrate reductase activity and growth of pea plants
Journal of Plant Nutrition 14(12): 1319-1330 (1991)
27. Caba JM, Lluch C , Hervás A, Ligero F
Acumulación de nitratos y actividad nitrato reductasa en diferentes cultivares de Vicia faba L
Suelo y Planta 105-116 (1991)
28. Hervás A, Caba JM, Lluch C , Ligero F
Effect of combined nitrogen on dinitrogen fixation and productivity in Pisum sativum L. inoculated with different strains of Rhizobium
Chemosphere 22: 1153-1160 (1991)
29. Hervás A, Ligero F, Lluch C
Nitrate reduction in pea plants: effects of nitrate application and Rhizobium strains
Soil Biology and Biochemistry 23: 695-699 (1991)
30. Pasqualini S, Lluch C , Antonielli M
Seed storage proteins in several genetic lines of Vicia faba
Plant Physiology and Biochemistry 29 (5): 507-515 (1991)
31. Caba JM, Lluch C , Ligero F
Effect of combined nitrogen supply and nodulation on nitrate reductasa activity and growth of pea plants
Journal of Plant Nutrition 14: 1319-1330 (1992)
32. Caba JM, Lluch C , Ligero F
Genotypic differences in nitrogen assimilation in Vicia faba: Effect of nitrate
Plant and Soil 151: 167-174 (1993)
33. Delgado MJ, Garrido JM, Ligero F, Lluch C
Nitrogen fixation and carbon metabolism by nodules and bacteroids of pea plants under sodium chloride stress
Physiologia Plantarum 89: 824-829 (1993)
34. Delgado MJ, Ligero F, Lluch C
Comparative effect of salt stress on growth and nitrogen fixation in Pisum sativum, Vicia faba, Phaseolus vulgaris and Glycine max plants
Soil Biology and Biochemistry 26(3): 371-376 (1994)
35. Caba JM, Lluch C , Ligero F
Genotypic variability in nitrogen metabolism enzymes in nodulated roots of Vicia faba
Soil Biology and Biochemistry 26(6): 785-789 (1994)
36. Caba JM, Lluch C , Ligero F
Variability in symbiotic performance of Vicia faba genotypes
Soil Science (Trends in Agricultural Sciences) 2: 37-43 (1994)
37. Cordovilla MP, Ligero F, Lluch C
The effect of salinity on N fixation and assimilation in Vicia faba
Journal of Experimental Botany 45(279): 1483-1488 (1994)
38. Cordovilla MP, Ocaña A, Ligero F, Lluch C
Growth stage response to salinity in symbiosis Vicia faba-Rhizobium leguminosarum biovar. vicieae
Life Science Advances Plant Physiology 14: 105-111 (1995)
39. Caba JM, Lluch C , Ligero F
Distribution of nitrate reductase activity in Vicia faba: Effect of nitrate and plant genotype
Physiologia Plantarum 93: 667-672 (1995)
40. Cordovilla MP, Ligero F, Lluch C
Influence of host genotype on growth, symbiotic performance and nitrogen assimilation in faba bean under salt stress
Plant and Soil 172: 289-297 (1995)
41. Cordovilla MP, Ocaña A, Ligero F, Lluch C
Salinity effects on growth analysis and nutrient composition in four grain legumes- Rhizobium symbiosis
Journal of Plant Nutrition 18(8): 1595-1609 (1995)
42. Cordovilla MP, Ocaña A, Ligero F, Lluch C
Growth and macronutrient contents of faba bean plants: effects of salinity and nitrate nutrition
Journal of Plant Nutrition 18(8): 1611-1628 (1995)
43. Cordovilla MP, Ligero F, Lluch C
Growth and nitrogen assimilation in nodules in response to nitrate levels in Vicia faba under salt stresss
Journal of Experimental Botany 47(295): 203-210 (1996)
44. Cordovilla MP, Ocaña A, Ligero F, Lluch C
Growth and symbiotic performance of faba bean inoculated with Rhizobium leguminosarum biovar. viciae strains tolerant to salt
Soil Science and Plant Nutrition 42(1): 133-140 (1996)
45. Ocaña A, Cordovilla MP, Ligero F, Lluch C
Phosphoenolpyruvate carboxylase in root nodules of Vicia faba : partial purification and properties
Physiologia Plantarum 97: 724-730 (1996)
46. Lluch C , Ocaña A
El estrés salino en la simbiosis Rhizobium-leguminosa
Boletín de la Sociedad Española de Fisiología Vegetal 27: 8-21 (1997)
47. Caba JM, Guzmán J, Ortega JL, Lluch C , Lara M, Ligero F
Purification and partial characterization of glutamine synthetase from root nodules of faba bean
Ars Pharmaceutica 38(4): 345-356 (1997)
48. Cordovilla MP, Ocaña A, Ligero F, Lluch C
Diurnal variation in nodule nitrogen metabolism in faba bean (Vicia faba L.)
Ars Pharmaceutica 38(4): 365-373 (1997)
49. Soussi M, Ocaña A, Lluch C
Effects of salt stress on growth, photosynthesis and nitrogen fixation in chick-pea (Cicer arietinum L.)
Journal of Experimental Botany 49: 1329-1337 (1998)
50. Sánchez-Guerrero I, Caba JM, Lluch C , Ligero F
Nitrate uptake by Vicia faba L. plants: A physiological approach
Journal of Plant Nutrition 21(12): 2589-2599 (1998)
51. Ocaña A, Caba JM, Ligero F, Lluch C
Effect of plant genotype on nitrogen fixation and carbon metabolism in Vicia faba root nodules
Agricoltura Mediterranea 128: 241-249 (1998)
52. Cordovilla MP, Ligero F, Lluch C
Effect of salinity on growth, nodulation and nitrogen assimilation in nodules of faba bean (Vicia faba L.)
Applied Soil Ecology 11: 1-7 (1999)
53. Ocaña A, Caba JM, Ligero F, Lluch C
Nitrogen fixation and carbon metabolism in vicia faba root nodules over ontogeny
Israel Journal of Plant Sciences 47: 35-41 (1999)
54. Soussi M, Lluch C , Ocaña A
Comparative study of nitrogen fixation and carbon metabolism in two chick-pea (Cicer arietinum L.) cultivars under salt stress
Journal of Experimental Botany 50: 1701-1708 (1999)
55. Cordovilla MP, Berrido SI, Ligero F, Lluch C
Rhizobium strain effects on the growth and nitrogen assimilation in Pisum sativum and Vicia faba growth under salt stress
Journal of Plant Physiology 154: 127-131 (1999)
56. Cordovilla MP, Ligero F, Lluch C
Effect of NaCl on growth and nitrogen fixation and assimilation of inoculated and KNO 3 fertilized Vicia faba L. and Pisum sativum L. plants
Plant Science 140: 127-136 (1999)
57. Cordovilla MP, Pérez J, Ligero F, Lluch C , Valpuesta V
Partial purification and characterization of NADH-glutamate synthase from faba bean (Vicia faba) root nodules
Plant Science 150: 121-128 (2000)
58. Ferri A, Lluch C , Ocaña A
Effect of salt stress on carbon metabolism and bacteroid respiration in root nodules of common bean
(Phaseolus vulgaris L.)
Plant Biology 2: 396-402 (2000)
59. Soussi M, Ocaña A, Lluch C
Growth, nitrogen fixation and ion accumulation in two chickpea cultivars under salt stress
Agricoltura Mediterranea 130: 1-8 (2001)
60. Soussi M, Santamaría M, Ocaña A, Lluch C
Effect of salinity on protein and lipopolysaccharide pattern in a salt-tolerant strain of Mesorhizobium ciceri
Journal of Applied Microbiology 90: 476-481 (2001)
61. Soussi M, Khadri M, Lluch C , Ocaña A
C arbon metabolism and bacteroid respiration in nodules of chick-pea ( Cicer arietinum L. ) plants grown under saline conditions
Plant Biosystem 135: 157-164 (2001)
62. Khadri M, Soussi M Pliego L, Lluch C , Ocaña A
Ammonium assimilation and ureide metabolism in common bean (Phaselus vulgaris L.) nodules
Agronomie 21 (6-7): 635-644 (2001)
63. Drevon JJ, Abdelly C, Amarger N, Aouani E A, Auraj J, Gherbi H, Jebara M, Lluch C , Payre H, Schump O, Soussi M, Sifi B, Trabelsi M
An interdisciplinary research strategy to improve symbiotic nitrogen fixation and yield of common bean plants (Phaseolus vulgaris ) in salinized areas of the Mediterranean bassin
Journal of Biotechnology 91: 257-268 (2001)
64. Nogales J, Campos R, BenAbdekhallek H, Olivares J, Lluch C , Sanjuán J
Rhizobiun tropici genes involved in free-living salt tolerance are required fir the establishment of efficiency nitrogen-fixing simbiosis with Phaseolus vulgaris
Molecular Plant Microbe Interaction 15: 225-232 (2002)
65. Maâtallah J, Berraho B, Muñoz S, Sanjuán J, Lluch C
Phenotypic and molecular characterization of chickpea rhizobia isolated from different areas of Morocco
Journal of Applied Microbiol ogy 93: 531-540 (2002)
66. Maâtallah J, Berraho B, Sanjuán J, Lluch C
Phenotypic characterization of rhizobia isolated from chickpea (Cicer arietinum ) growing in Moroccan soils
Agronomie 22: 321-329 (2002)
67. Tejera NA, Ortega E, González-López J, Lluch C
Effect of some abiotic factors on the biological activity of Gluconacetobacter diazotrophicus
Journal of Applied Microbiol ogy 95: 528-535 (2003)
68. Tejera NA, Campos R, Sanjuán J, Lluch C
Nitrogenase and antioxidant enzyme activities in Phaseolus vulgaris nodules formed by Rhizobium tropici isogenic strains with varying tolerance to salt stress
Journal of Plant Physiology 161: 329-338 (2004)
69. Olivera M, Tejera NA, Iribarne C, Ocaña A, Lluch C
Growth, nitrogen fixation and ammonium assimilation in common bean (Phaseolus vulgaris): effect of phosphorus
Physiologia Plantarum 121: 498-505 (2004)
70. Tejera NA, Olivera M, Iribarne C, Lluch C
Partial purification and characterization of a non-specific acid phosphatase in leaves and root nodules of Phaseolus vulgaris
Plant Physiology and Biochemistry 42 : 585-591 (2004)
71. Tejera NA, Ortega E, Rodés R, Lluch C
Influence of carbon and nitrogen sources on growth, nitrogenase activity and carbon metabolism of Gluconacetobacter diazotrophicus
Canadian Journal of Microbiology 50: 745-750 (2004)
72. Tejera NA, Lluch C , Martínez-Toledo MV, González-López J
Isolation and characterization of Azotobacter and Azospirillum strains from the sugar cane rhizosphere
Plant and Soil 270: 223-232 (2005)
73. Tejera NA, Iribarne C, López M, Herrera-Cervera J, Lluch C
Physiological implications of trehalase from Phaseolus vulgaris root nodules: partial purification and characterization
Plant Physiology and Biochemistry 43: 355-361 (2005)
74. Herrera-Cervera J, López M, Tejera NA, Lluch C
Partial cloning and expression analysis under salt stress of MTTRE1, a Medicago truncatula gene coding for trehalase
Comparative Biochemistry and Physiology 141: 347-348 (2005)
75. Tejera NA, Campos R, Sanjuán J, Lluch C
Effect of sodium chloride on growth, nutrient accumulation and nitrogen fixation of common bean plants in symbiosis with isogenic strains
Journal of Plant Nutrition 28: 1907-1921 (2005)
76. Tejera NA, Ortega E, Rodes R, Lluch C
Nitrogen compounds in the apoplastic sap of sugarcane stem: some implications in the association with endophytes
Journal of Plant Physiology 163(1): 80-85 (2006)
77. Khadri M, Tejera NA, Lluch C
Alleviation of salt stress in common bean (Phaseolus vulgaris) by exogenous abscisic acid supply
Journal of Plant Growth Regulation (en prensa, 2006)
78. Tejera NA, Soussi M, Lluch C
Physiological and nutritional indicators of tolerance to salinity in chickpea plants growing under symbiotic conditions
Environmental and Experimental Botany (en prensa, 2006)
79. Khadri M, Tejera NA, Lluch C
Sodium chloride-ABA interactions in two common bean (Phaseolus vulgaris) cultivars differing in salinity tolerance
Environmental and Experimental Botany (enviado )
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