Articles citing this paper
Changes in nitrate and nitrate reductase levels on restoration of molybdenum to molybdenum-deficient plants
PJ Randall
20(4) pp.635 - 642
36 articles found in Crossref database.
Sources of reductant for nitrate assimilation in non-photosynthetic tissue: a review
LEE R. B.
Plant, Cell and Environment. 1980 3(2). p.65
Reassessment of the in vivo Assay for Nitrate Reductase in Leaves
HEUER BRURIA, PLAUT Z.
Physiologia Plantarum. 1978 43(3). p.306
Effects of elevated carbon dioxide and nitrogen fertilization on nitrate reductase activity in sweetgum and loblolly pine trees in two temperate forests
Natali Susan M.,
Sañudo-Wilhelmy Sergio A., Lerdau Manuel T.
Plant and Soil. 2009 314(1-2). p.197
Environmental regulation of nitrogenase and nitrate reductase as systems of nitrogen assimilation in the Azolla mexicana-Anabaena azollae symbiosis
Holst Robert W., Yopp John H.
Aquatic Botany. 1979 7 p.369
?In vivo? estimates of nitrate reductase activity
James D. B., Smith S. M.
Plant and Soil. 1976 44(2). p.467
Fortschritte der Botanik (1971)
Nitrate assimilation-its regulation and relationship to reduced nitrogen in higher plants
Naik M.S.,
Abrol Y.P.,
Nair T.V.R., Ramarao C.S.
Phytochemistry. 1982 21(3). p.495
Nitrate-reducing capacity of roots and nodules ofAlnus rubra and roots ofPseudotsuga menziesii
Li C. Y.,
Lu K. C.,
Trappe J. M., Bollen W. B.
Plant and Soil. 1972 37(2). p.409
Soil Acidity and Liming (2015)
Recycling Electric Arc Furnace Slag into Fertilizer: Effects of “Waste Product” on Growth and Physiology of the Common Bean (Phaseolus vulgaris L.)
Radić Sandra,
Sandev Dubravka,
Maldini Krešimir,
Vujčić Bok Valerija,
Lepeduš Hrvoje, Domijan Ana-Marija
Agronomy. 2022 12(9). p.2218
Effect of Molybdenum Rate on Yield and Quality of Lettuce, Escarole, and Curly Endive Grown in a Floating System
Moncada Alessandra,
Miceli Alessandro,
Sabatino Leo,
Iapichino Giovanni,
D’Anna Fabio, Vetrano Filippo
Agronomy. 2018 8(9). p.171
Regulation of nitrate reductase activity in higher plants
Srivastava H.S.
Phytochemistry. 1980 19(5). p.725
Protein Hydrolysates and Mo-Biofortification Interactively Modulate Plant Performance and Quality of ‘Canasta’ Lettuce Grown in a Protected Environment
Sabatino Leo,
Consentino Beppe Benedetto,
Rouphael Youssef,
De Pasquale Claudio,
Iapichino Giovanni,
D’Anna Fabio, La Bella Salvatore
Agronomy. 2021 11(6). p.1023
Nitrate reductase and nitrogenase activities of common beans (Phaseolus vulgaris L.) from different geographic locations
Felix J. -F.,
Obaton M.,
Messiaen C. -M., Salsac L.
Plant and Soil. 1981 63(3). p.427
Inheritance of physiological characters associated with yield variation in bread wheat
Ellison F.,
Derera N. F., Pederson D. G.
Euphytica. 1983 32(1). p.241
Advances in Agronomy Volume 41 (1987)
Interactive Effects of Genotype and Molybdenum Supply on Yield and Overall Fruit Quality of Tomato
Sabatino Leo,
D'Anna Fabio,
Iapichino Giovanni,
Moncada Alessandra,
D'Anna Eleonora, De Pasquale Claudio
Frontiers in Plant Science. 2019 9
Endogenous nitrate loss as an assay for nitrate reduction in vivo
Soares M. Inês M.,
Lips S. Herman, Cresswell Cristopher F.
Physiologia Plantarum. 1985 64(4). p.487
The Role of Molybdenum in Agricultural Plant Production
KAISER BRENT N.,
GRIDLEY KATE L.,
NGAIRE BRADY JOANNE,
PHILLIPS THOMAS, TYERMAN STEPHEN D.
Annals of Botany. 2005 96(5). p.745
Marschner's Mineral Nutrition of Higher Plants (2012)
Effect of Molybdenum Fertilization on the Nitrogenous Constituents of Potatoes
MONDY NELL I., MUNSHI CYRUS B.
Journal of Food Science. 1988 53(6). p.1909
Beurteilung der Molybdänversorgung von Pflanzen mit Hilfe der Moinduzierbaren Nitratreduktase‐Aktivität
Witt H. H., Jungk A.
Zeitschrift für Pflanzenernährung und Bodenkunde. 1977 140(2). p.209
Mineral Nutrition of Higher Plants (1995)
Sources of reductant for nitrate assimilation in non‐photosynthetic tissue: a review
LEE R. B.
Plant, Cell & Environment. 1980 3(2). p.65
Methodische Verbesserungen zur Bestimmung der Nitratreduktase-Aktivität in höheren Pflanzen
Schlesier G.
Biochemie und Physiologie der Pflanzen. 1977 171(6). p.503
Effect of various nitrogen sources on growth and the nitrate-nitrite reductase system of the Azolla mexicana -Anabaena azollae symbiosis
Holst Robert W., Yopp John H.
Aquatic Botany. 1979 7 p.359
Effect of wind and sandblast injury on nitrate accumulation and on nitrate reductase activity in soybean seedlings
Armbrust D.V., Paulsen Gary M.
Communications in Soil Science and Plant Analysis. 1973 4(3). p.197
Effect of Molybdenum Fertilization on Oats Grown onSphagnumPeat
Kähäri Jorma, Jaakkola Antti
Acta Agriculturae Scandinavica. 1971 21(2). p.84
Handbook of Plant Nutrition (2006)
Soil organic matter regulates molybdenum storage and mobility in forests
Marks Jade A.,
Perakis Steven S.,
King Elizabeth K., Pett-Ridge Julie
Biogeochemistry. 2015 125(2). p.167
Inorganic Plant Nutrition (1983)
Marschner's Mineral Nutrition of Higher Plants (2002)
Nitrate reductase activity and growth in Paul's Scarlet rose suspension cultures in relation to nitrogen source and molybdenum
Jones R. W.,
Abbott A. J.,
Hewitt E. J.,
James D. M., Best G. R.
Planta. 1976 133(1). p.27
Ribonuclease activity as an index of hidden hunger of zinc in crops
Snehi Dwivedi R., Takkar P. N.
Plant and Soil. 1974 40(1). p.173
(1976)
Advances in Agronomy Volume 34 (1981)
