Francisco Weliton Rocha Silva & José Zilton Lopes Santos. (2023) Response of cowpea plants submitted to acid conditions: Aluminum and hydrogen stress. Revista Brasileira de Ciência do Solo 47.
Crossref
Daniele Caroline Hörz Engel, Daniela Feltrim, Mayara Rodrigues, João Leonardo Corte Baptistella & Paulo Mazzafera. (2023) Algae Extract Increases Seed Production of Soybean Plants and Alters Nitrogen Metabolism. Agriculture 13:7, pages 1296.
Crossref
Annika Durve Gupta & Sonali Zankar Patil. 2022. Ecological and Health Effects of Building Materials. Ecological and Health Effects of Building Materials
159
183
.
Ranbir ChhabraRanbir Chhabra. 2021. Salt-affected Soils and Marginal Waters. Salt-affected Soils and Marginal Waters
255
347
.
Xue Q. Zhao & Ren F. Shen. (2018) Aluminum–Nitrogen Interactions in the Soil–Plant System. Frontiers in Plant Science 9.
Crossref
Nikolai P. Bityutskii, Kirill L. Yakkonen, Anastasiya I. Petrova & Alexey L. Shavarda. (2017) Interactions between aluminium, iron and silicon in Cucumber sativus L. grown under acidic conditions. Journal of Plant Physiology 218, pages 100-108.
Crossref
Emanuel Bojórquez-Quintal, Camilo Escalante-Magaña, Ileana Echevarría-Machado & Manuel Martínez-Estévez. (2017) Aluminum, a Friend or Foe of Higher Plants in Acid Soils. Frontiers in Plant Science 8.
Crossref
Braja B. Nanda, J. S. Brahmaji Rao, R. Kumar & R. Acharya. (2016) Determination of trace concentration of aluminium in raw rice samples using instrumental neutron activation analysis and particle induced gamma-ray emission methods. Journal of Radioanalytical and Nuclear Chemistry 310:3, pages 1241-1245.
Crossref
Cantú Talita, Emidio Vieira Crislaine, David Piffer Rafaélla, Carneiro Luiz Giovanna & Graciele Hülse de Souza Silvia. (2016) Transcriptional modulation of genes encoding nitrate reductase in maize (Zea mays) grown under aluminum toxicity. African Journal of Biotechnology 15:43, pages 2465-2473.
Crossref
Ubuki Moriyama, Rie Tomioka, Mikiko Kojima, Hitoshi Sakakibara & Chisato Takenaka. (2015) Aluminum effect on starch, soluble sugar, and phytohormone in roots of Quercus serrata Thunb. seedlings. Trees 30:2, pages 405-413.
Crossref
Boris Lazarević, Tea Horvat & Milan Poljak. (2014) Effect of Acid Aluminous Soil on Photosynthetic Parameters of Potato (Solanum tuberosum L.). Potato Research 57:1, pages 33-46.
Crossref
Glacy Jaqueline da Silva & Antonio Costa de Oliveira. (2014) Genes Acting on Transcriptional Control during Abiotic Stress Responses. Advances in Agriculture 2014, pages 1-7.
Crossref
Nidhi Gupta, Shailendra Singh Gaurav & Ashwani Kumar. (2013) Molecular Basis of Aluminium Toxicity in Plants: A Review. American Journal of Plant Sciences 04:12, pages 21-37.
Crossref
F. Rezaee, F. Ghanati & M. Behmanesh. (2013) Antioxidant activity and expression of catalase gene of (Eustoma grandiflorum L) in response to boron and aluminum. South African Journal of Botany 84, pages 13-18.
Crossref
Sheng-Xiu Li, Zhao-Hui Wang & B.A. Stewart. 2013.
205
397
.
. 2012. Marschner's Mineral Nutrition of Higher Plants. Marschner's Mineral Nutrition of Higher Plants
483
643
.
Y. Yang, Q.L. Wang, M.J. Geng, Z.H. Guo & Z. Zhao. (2011) Rhizosphere pH difference regulated by plasma membrane H<sup>+</sup>-ATPase is related to differential Al tolerance of two wheat cultivars. Plant, Soil and Environment 57:5, pages 201-206.
Crossref
R. J. A. Cristancho, M. M. Hanafi, S. R. Syed Omar & M. Y. Rafii. (2011)
Variations in oil palm (
Elaeis guineensis
Jacq.) progeny response to high aluminium concentrations in solution culture
. Plant Biology 13:2, pages 333-342.
Crossref
Nand Fageria, Virupax Baligar & Charles Jones. 2010. Growth and Mineral Nutrition of Field Crops, Third Edition. Growth and Mineral Nutrition of Field Crops, Third Edition
125
174
.
Ivica DjalovicG.G., Ivana MaksimovicV.V., Rudolf KastoriR.R. & Miodrag JelicZ.Z.. (2010) Mechanisms of adaptation of small grains to soil acidity. Zbornik Matice srpske za prirodne nauke Matica Srpska Journal for Natural Sciences:118, pages 107-120.
Crossref
Jasmina M. Dimitrić Marković, Zoran S. Marković, Dragan S. Veselinović, Jugoslav B. Krstić & Jasmina D. Predojević Simović. (2009) Study on fisetin–aluminium(III) interaction in aqueous buffered solutions by spectroscopy and molecular modeling. Journal of Inorganic Biochemistry 103:5, pages 723-730.
Crossref
Youbo SU, Takuro SHINANO, Erry PURNOMO & Mitsuru OSAKI. (2007) Growth promotion of rice by inoculation of acid-tolerant, N2-fixing bacteria isolated from acid sulfate paddy soil in South Kalimantan, Indonesia. Tropics 16:3, pages 261-274.
Crossref
Jun-ping Wang, Harsh Raman, Guo-ping Zhang, Neville Mendham & Mei-xue Zhou. (2006) Aluminium tolerance in barley (Hordeum vulgare L.): Physiological mechanisms, genetics and screening methods. Journal of Zhejiang University SCIENCE B 7:10, pages 769-787.
Crossref
X.F. Ying, P. Liu & G.D. XU. (2006) Effect of aluminum on the isozymes of the seedlings of two soybeans [Glycine max (L.) Merrill] varieties. Plant, Soil and Environment 52:6, pages 262-270.
Crossref
Roni Paulo Fortunato & Fernando Teixeira Nicoloso. (2004) Toxidez de alumínio em plântulas de grápia (Apuleia leiocarpa Vog. Macbride). Ciência Rural 34:1, pages 89-95.
Crossref
. 2002. Marschner's Mineral Nutrition of Higher Plants. Marschner's Mineral Nutrition of Higher Plants
681
861
.
Jörg DegenhardtPaul B. LarsenStephen H. HowellLeon V. Kochian. (1998)
Aluminum Resistance in the Arabidopsis Mutant
alr
-104 Is Caused by an Aluminum-Induced Increase in Rhizosphere pH1
. Plant Physiology 117:1, pages 19-27.
Crossref
T. W. RUFTYJRJR, C. T. MacKOWN, D. B. LAZOF & T. E. CARTER. (2006) Effects of aluminium on nitrate uptake and assimilation. Plant, Cell & Environment 18:11, pages 1325-1331.
Crossref
. 1995. Mineral Nutrition of Higher Plants. Mineral Nutrition of Higher Plants
681
861
.
Thomas B. Kinraide. (2006) Aluminum enhancement of plant growth in acid rooting media. A case of reciprocal alleviation of toxicity by two toxic cations. Physiologia Plantarum 88:4, pages 619-625.
Crossref
K. A. Kelling & P. E. Fixen. 1992. Oat Science and Technology. Oat Science and Technology
165
190
.
Charles D. Foy. 1992. Limitations to Plant Root Growth. Limitations to Plant Root Growth
97
149
.
M. Marziah. 1991. Plant-Soil Interactions at Low pH. Plant-Soil Interactions at Low pH
879
882
.
M. Marziah, P. Abdullah, N. Mispar & M. A. Syed. 1991. Plant-Soil Interactions at Low pH. Plant-Soil Interactions at Low pH
869
874
.
Larisa Galvez, R. B. Clark, L. A. Klepper & L. Hansen. 1991. Plant-Soil Interactions at Low pH. Plant-Soil Interactions at Low pH
859
867
.
S. AmÂncio, A. Lopes, H. Santos, M. Rodrigues & A. Teixeiral. 1991. Plant-Soil Interactions at Low pH. Plant-Soil Interactions at Low pH
795
803
.
B. E. Nichol, L. Oliveira, A. D. M. Glass & M. Y. Siddiqi. 1991. Plant-Soil Interactions at Low pH. Plant-Soil Interactions at Low pH
741
746
.
L. Bona, J. Matuz & L. Purnhauser. 1991. Plant-Soil Interactions at Low pH. Plant-Soil Interactions at Low pH
1057
1062
.
R. J. Haynes. (1990) Active ion uptake and maintenance of cation-anion balance: A critical examination of their role in regulating rhizosphere pH. Plant and Soil 126:2, pages 247-264.
Crossref
Paul J. Jackson, Pat J. Unkefer, Emmanuel Delhaize & Nigel J. Robinson. 1990. Environmental Injury to Plants. Environmental Injury to Plants
231
255
.
Mechthild Neitzke. (2007) Stickstoffernährung und Al‐Toxizität bei Buchenjungpflanzen. I: Entwicklung von Buchenjungpflanzen in Abhängigkeit von der Form der Stickstoffernährung und dem Aluminiumgehalt der Nährlösung. Zeitschrift für Pflanzenernährung und Bodenkunde 153:4, pages 229-234.
Crossref
Mechthild Neitzke. (2007) Einfluß von Ammonium‐ und Nitratstickstoff auf die Entwicklung von Buchenjungpflanzen. Zeitschrift für Pflanzenernährung und Bodenkunde 153:4, pages 225-228.
Crossref
Sune Pettersson & Håkan Strid. (2006)
Effects of aluminium on growth and kinetics of K
+
(
86
Rb) uptake in two cultivars of wheat
(Triticum aestivum)
with different sensitivity to aluminium
. Physiologia Plantarum 76:3, pages 255-261.
Crossref
Sune Pettersson & Hakan Strid. (1989) Effects of aluminium on growth and kinetics of K+(86Rb) uptake in two cultivars of wheat (Triticum aestivum) with different sensitivity to aluminium. Physiologia Plantarum 76:3, pages 255-261.
Crossref
Tang van Hai, Truong Thi Nga & Henri Laudelout. (1989) Effect of aluminium on the mineral nutrition of rice. Plant and Soil 114:2, pages 173-185.
Crossref
Gregory J. Taylor. 1989. Acidic Precipitation. Acidic Precipitation
327
361
.
F. Klotz & W. J. Horst. (1988) Effect of ammonium- and nitrate-nitrogen nutrition on aluminium tolerance of soybean (Glycine max L.). Plant and Soil 111:1, pages 59-65.
Crossref
F. Klotz & W.J. Horst. (1988) Genotypic Differences in Aluminium Tolerance of Soybean (Glycine max L.) as Affected by Ammonium and Nitratenitrogen Nutrition. Journal of Plant Physiology 132:6, pages 702-707.
Crossref
Maud Andersson. (1988) Toxicity and tolerance of aluminium in vascular plants. Water, Air, and Soil Pollution 39:3-4, pages 439-462.
Crossref
Ajoy Kumar Roy, Archana Sharma & Geeta Talukder. (1988) Some aspects of aluminum toxicity in plants. The Botanical Review 54:2, pages 145-178.
Crossref
W. G. Keltjens & P. S. R. van Ulden. (1987) Effects of Al on nitrogen (NH 4 + and NO 3 − ) uptake, nitrate reductase activity and proton release in two sorghum cultivars differing in Al tolerance. Plant and Soil 104:2, pages 227-234.
Crossref
C. D. Foy, W. A. Berg & C. L. Dewald. (1987) Tolerances of Old World bluestems to an acid soil high in exchangeable aluminum. Plant and Soil 99:1, pages 39-46.
Crossref
C. D. Foy, W. A. Berg & C. L. Dewald. 1987. Genetic Aspects of Plant Mineral Nutrition. Genetic Aspects of Plant Mineral Nutrition
181
188
.
W. J. Horst & H. Göppel. (2007)
Aluminium‐Toleranz von Ackerbohne (
Vicia faba
), Lupine (
Lupinus luteus
), Gerste (
Hordeum vulgare
) und Roggen (
Secale cereale
). I. Sproß‐ und Wurzelwachstum in Abhängigkeit vom Aluminium‐Angebot
. Zeitschrift für Pflanzenernährung und Bodenkunde 149:1, pages 83-93.
Crossref
Gregory J. Taylor & Charles D. Foy. (1985) MECHANISMS OF ALUMINUM TOLERANCE IN TRITICUM AESTIVUM L. (WHEAT). II. DIFFERENTIAL PH INDUCED BY SPRING CULTIVARS IN NUTRIENT SOLUTIONS. American Journal of Botany 72:5, pages 702-706.
Crossref
Gregory J. Taylor & Charles D. Foy. (1985) MECHANISMS OF ALUMINUM TOLERANCE IN TRITICUM AESTIVUM L. (WHEAT). I. DIFFERENTIAL PH INDUCED BY WINTER CULTIVARS IN NUTRIENT SOLUTIONS. American Journal of Botany 72:5, pages 695-701.
Crossref
J. Lee & M. W. Pritchard. (1984) Aluminium toxicity expression nutrient uptake, growth and root morphology ofTrifolium repens L. cv. ‘Grasslands Huia’. Plant and Soil 82:1, pages 101-116.
Crossref
Charles D. Foy. 1984. Soil Acidity and Liming. Soil Acidity and Liming
57
97
.