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Journal of Plant Nutrition Volume 22, 1999 - Issue 4-5
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Original Articles

Comparison of acid phosphatases in two genotypes of white clover with different responses to applied phosphate

Donal A. Hunter Institute of Molecular Biosciences, Massey University, Private Bag 11222, Palmerston North, New Zealand
&
Michael T. McManus Institute of Molecular Biosciences, Massey University, Private Bag 11222, Palmerston North, New Zealand
Pages 679-692 | Published online: 21 Nov 2008

Citations (24)

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Read on this site (4)

Vikramjit Kaur Zhawar, Narinder Kaur & Anil Kumar Gupta. (2014) Effect of Increasing Concentration of Inorganic Phosphate (Pi) and Pyrophosphate (PPi) on Growth and Phosphatases of Germinating Chickpea Seeds. Journal of Plant Nutrition 37:13, pages 2195-2207.
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Jollanda Effendy, Derek Woodfield, John Caradus & Michael T. McManus. (2014) Responses to Low P-Supply in Breeding Lines of White Clover (Trifolium Repens L.) Reveals Two Tiers of Responses. Journal of Plant Nutrition 37:9, pages 1441-1454.
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Iwona Ciereszko, Agnieszka Szczygła & Ewa Żebrowska. (2011) PHOSPHATE DEFICIENCY AFFECTS ACID PHOSPHATASE ACTIVITY AND GROWTH OF TWO WHEAT VARIETIES. Journal of Plant Nutrition 34:6, pages 815-829.
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Iwona Ciereszko, Anna Janonis & Marta Kociakowska. (2002) GROWTH AND METABOLISM OF CUCUMBER IN PHOSPHATE-DEFICIENT CONDITIONS. Journal of Plant Nutrition 25:5, pages 1-1.
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Articles from other publishers (20)

Asif Iqbal, Dong Qiang, Wang Xiangru, Gui Huiping, Zhang Hengheng, Zhang Xiling & Song Meizhen. (2023) Phosphorus and carbohydrate metabolism contributes to low phosphorus tolerance in cotton. BMC Plant Biology 23:1.
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Pedro García-Caparrós, María Teresa Lao, Pablo Preciado-Rangel & Esteban Sanchez. (2021) Phosphorus and Carbohydrate Metabolism in Green Bean Plants Subjected to Increasing Phosphorus Concentration in the Nutrient Solution. Agronomy 11:2, pages 245.
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Wenjing Ma, Jin Li, Saheed Olaide Jimoh, Yujuan Zhang, Fenghui Guo, Yong Ding, Xiliang Li & Xiangyang Hou. (2019) Stoichiometric ratios support plant adaption to grazing moderated by soil nutrients and root enzymes. PeerJ 7, pages e7047.
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Ewa Żebrowska, Marta Milewska & Iwona Ciereszko. (2017) Mechanisms of oat ( Avena sativa L.) acclimation to phosphate deficiency . PeerJ 5, pages e3989.
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Iwona Ciereszko, Honorata Balwicka & Ewa Żebrowska. (2017) Acid Phosphatases Activity and Growth of Barley, Oat, Rye and Wheat Plants as Affected by Pi Deficiency. The Open Plant Science Journal 10:1, pages 110-122.
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Hongbo Qiu, Xiupeng Mei, Chaoxian Liu, Jiuguang Wang, Guoqiang Wang, Xu Wang, Zheng Liu & Yilin Cai. (2013) Fine mapping of quantitative trait loci for acid phosphatase activity in maize leaf under low phosphorus stress. Molecular Breeding 32:3, pages 629-639.
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Peter J. Gregory, A. Glyn Bengough, Timothy S. George & Paul D. Hallett. 2013. Enhancing Understanding and Quantification of Soil-Root Growth Interactions. Enhancing Understanding and Quantification of Soil-Root Growth Interactions 1 30 .
Ewa Żebrowska, Elżbieta Bujnowska & Iwona Ciereszko. (2011) Differential responses of oat cultivars to phosphate deprivation: plant growth and acid phosphatase activities. Acta Physiologiae Plantarum 34:4, pages 1251-1260.
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Iwona Ciereszko, Ewa Żebrowska & Marta Ruminowicz. (2011) Acid phosphatases and growth of barley (Hordeum vulgare L.) cultivars under diverse phosphorus nutrition. Acta Physiologiae Plantarum 33:6, pages 2355-2368.
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Timothy S. George, Ann-Mari Fransson, John P. Hammond & Philip J. White. 2011. Phosphorus in Action. Phosphorus in Action 245 271 .
Thanh H. Dao. 2011. Soil Enzymology. Soil Enzymology 75 102 .
Alan E. Richardson, Peter J. Hocking, Richard J. Simpson & Timothy S. George. (2009) Plant mechanisms to optimise access to soil phosphorus. Crop and Pasture Science 60:2, pages 124.
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Timothy S. George & Alan E. Richardson. 2008. The Ecophysiology of Plant-Phosphorus Interactions. The Ecophysiology of Plant-Phosphorus Interactions 247 270 .
Kai Xiao, Hiro Katagi, Maria Harrison & Zeng-Yu Wang. (2006) Improved phosphorus acquisition and biomass production in Arabidopsis by transgenic expression of a purple acid phosphatase gene from M. truncatula. Plant Science 170:2, pages 191-202.
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Yan Liu, Guohua Mi, Fanjun Chen, Jianhua Zhang & Fusuo Zhang. (2004) Rhizosphere effect and root growth of two maize (Zea mays L.) genotypes with contrasting P efficiency at low P availability. Plant Science 167:2, pages 217-223.
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Leon V. KochianOwen A. HoekengaMiguel A. Piñeros. (2004) HOW DO CROP PLANTS TOLERATE ACID SOILS? MECHANISMS OF ALUMINUM TOLERANCE AND PHOSPHOROUS EFFICIENCY. Annual Review of Plant Biology 55:1, pages 459-493.
Crossref
Jennifer L. Tomscha, Melanie C. Trull, Jill Deikman, Jonathan P. Lynch & Mark J. Guiltinan. (2004) Phosphatase Under-Producer Mutants Have Altered Phosphorus Relations. Plant Physiology 135:1, pages 334-345.
Crossref
Gareth K Phoenix, Rosemary E. Booth, Jonathan R. Leake, David J. Read, J. Philip Grime & John A. Lee. (2003) Simulated pollutant nitrogen deposition increases P demand and enhances root‐surface phosphatase activities of three plant functional types in a calcareous grassland. New Phytologist 161:1, pages 279-290.
Crossref
Xiaolong YanHong Liao, Melanie C. Trull, Steve E. BeebeJonathan P. Lynch. (2001) Induction of a Major Leaf Acid Phosphatase Does Not Confer Adaptation to Low Phosphorus Availability in Common Bean. Plant Physiology 125:4, pages 1901-1911.
Crossref
Celia Zhang & Michael T. McManus. (2000) Identification and characterisation of two distinct acid phosphatases in cell walls of roots of white clover. Plant Physiology and Biochemistry 38:4, pages 259-270.
Crossref

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