43
Views
24
CrossRef citations to date
0
Altmetric
Original Articles

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

&
Pages 679-692 | Published online: 21 Nov 2008

Keep up to date with the latest research on this topic with citation updates for this article.

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.
Read now
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.
Read now
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.
Read now
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.
Read now

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.
Crossref
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.
Crossref
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.
Crossref
Ewa Żebrowska, Marta Milewska & Iwona Ciereszko. (2017) Mechanisms of oat ( Avena sativa L.) acclimation to phosphate deficiency . PeerJ 5, pages e3989.
Crossref
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.
Crossref
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.
Crossref
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.
Crossref
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.
Crossref
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.
Crossref
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.
Crossref
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.
Crossref
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

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.