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Critical Reviews in Environmental Science and Technology Volume 43, 2013 - Issue 9
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Original Articles

Phytases and Phytase-Labile Organic Phosphorus in Manures and Soils

Daniel Menezes-Blackburn Chile–Italy International Doctorate in Environmental Resources Science, Universidad de La Frontera, Temuco, Chile; Department of Food Technology and Bioprocess Engineering, Max Rubner-Institut, Federal Research Institute of Nutrition and Food, Karlsruhe, Germany; Università di Napoli Federico II, Portici, Italy
,
Milko A. Jorquera Scientific and Technological Bioresource Nucleus (BIOREN), Universidad de La Frontera, Temuco, Chile
,
Ralf Greiner Department of Food Technology and Bioprocess Engineering, Max Rubner-Institut, Federal Research Institute of Nutrition and Food, Karlsruhe, Germany
,
Liliana Gianfreda Dipartimento di Scienze del Suolo, della Pianta, dell’Ambiente e delle produzioni Animali, Università di Napoli, Federico II, Italy
&
Maria de la Luz Mora Scientific and Technological Bioresource Nucleus (BIOREN), Universidad de La Frontera, Temuco, Chile
Pages 916-954 | Published online: 14 Mar 2013

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Reza Ghorbani Nasrabadi, Ralf Greiner, Esther Mayer-miebach & Daniel Menezes-Blackburn. (2023) Phosphate Solubilizing and Phytate Degrading Streptomyces Isolates Stimulate the Growth and P Accumulation of Maize (Zea mays) Fertilized with Different Phosphorus Sources. Geomicrobiology Journal 40:4, pages 325-336.
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Ralf Greiner. (2021) Preparation of pure lower-order myo-Inositol phosphates on laboratory scale for physiological and enzymatic studies. Preparative Biochemistry & Biotechnology 51:10, pages 985-989.
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Muhammad Azeem, Adnan Riaz, Arshad Nawaz Chaudhary, Rifat Hayat, Qaiser Hussain, Muhammad Ibrahim Tahir & Muhammad Imran. (2015) Microbial phytase activity and their role in organic P mineralization. Archives of Agronomy and Soil Science 61:6, pages 751-766.
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Articles from other publishers (58)

Murad Muhammad, Sani Begum, Abdul Basit, Aqsa Arooj & Heba I. Mohamed. 2024. Bacterial Secondary Metabolites. Bacterial Secondary Metabolites 335 351 .
Yuanyuan Feng, Ning Wang, Haibin Fu, Huifang Xie, Lihong Xue, Yanfang Feng, Gerrard Eddy Jai Poinern & Deli Chen. (2023) Manure-derived hydrochar superior to manure: Reducing non-point pollution risk by altering nitrogen and phosphorus fugacity in the soil–water system. Waste Management 168, pages 440-451.
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Amit Vashishth, Nimisha Tehri, Piyush Tehri, Avinash Sharma, Anil Kumar Sharma & Vineet Kumar. (2023) Unraveling the potential of bacterial phytases for sustainable management of phosphorous. Biotechnology and Applied Biochemistry.
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Sheikh Rizwanuddin, Vijay Kumar, Pallavi Singh, Bindu Naik, Sadhna Mishra, Mansi Chauhan, Per Erik Joakim Saris, Ankit Verma & Vivek Kumar. (2023) Insight into phytase-producing microorganisms for phytate solubilization and soil sustainability. Frontiers in Microbiology 14.
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Yuan Wang, Wei Zhang, Torsten Müller, Prakash Lakshmanan, Yu Liu, Tao Liang, Lin Wang, Huaiyu Yang & Xinping Chen. (2023) Soil phosphorus availability and fractionation in response to different phosphorus sources in alkaline and acid soils: a short-term incubation study. Scientific Reports 13:1.
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Qi Li, Xiaolei Yang, Jianhong Li, Mingyuan Li, Changning Li & Tuo Yao. (2023) In-depth characterization of phytase-producing plant growth promotion bacteria isolated in alpine grassland of Qinghai-Tibetan Plateau. Frontiers in Microbiology 13.
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Zhonghua Wang, Huihong Zhang, Lu Liu, Shaojian Li, Jiufeng Xie, Xia Xue & Ying Jiang. (2022) Screening of phosphate-solubilizing bacteria and their abilities of phosphorus solubilization and wheat growth promotion. BMC Microbiology 22:1.
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Francisco Basílio, Teresa Dias, Margarida M. Santana, Juliana Melo, Luís Carvalho, Patrícia Correia & Cristina Cruz. (2022) Multiple modes of action are needed to unlock soil phosphorus fractions unavailable for plants: The example of bacteria- and fungi-based biofertilizers. Applied Soil Ecology 178, pages 104550.
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Zabin K. Bagewadi, Deepak A. Yaraguppi, Sikandar I. Mulla & Sanjay H. Deshpande. (2022) Response Surface Methodology Based Optimization, Partial Purification and Characterization of Alkaline Phosphatase Isolated from Pseudomonas asiatica Strain ZKB1 and its Application in Plant Growth Promotion. Molecular Biotechnology 64:9, pages 984-1002.
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Aamir Manzoor, Michaela A. Dippold, Sebastian Loeppmann & Evgenia Blagodatskaya. (2022) Two-Phase Conceptual Framework of Phosphatase Activity and Phosphorus Bioavailability. Frontiers in Plant Science 13.
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Xue Liu, Ran Han, Yue Cao, Benjamin L. Turner & Lena Q. Ma. (2022) Enhancing Phytate Availability in Soils and Phytate-P Acquisition by Plants: A Review. Environmental Science & Technology 56:13, pages 9196-9219.
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Jing‐li Lu, Pu Jia, Shi‐wei Feng, Yu‐tao Wang, Jin Zheng, Shu‐ning Ou, Zhuo‐hui Wu, Bin Liao, Wen‐sheng Shu, Jie‐Liang Liang & Jin‐tian Li. (2022) Remarkable effects of microbial factors on soil phosphorus bioavailability: A country‐scale study. Global Change Biology 28:14, pages 4459-4471.
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Ceinwen Evans, Hamish Irving, Jari Vehmanperä, Kari Juntunen, John Patience, Qingyun Li, Amy Petry, Jason Lee, Kyle Brown, Aaron Cowieson, Daniel Menezes-Blackburn, Ralf Greiner & Ursula KonietznyDaniel Menezes-Blackburn, Ralf Greiner & Ursula Konietzny. 2022. Enzymes in Farm Animal Nutrition. Enzymes in Farm Animal Nutrition 103 123 .
Yeonsoo Park, Mina Solhtalab, Wiriya Thongsomboon & Ludmilla Aristilde. (2022) Strategies of organic phosphorus recycling by soil bacteria: acquisition, metabolism, and regulation. Environmental Microbiology Reports 14:1, pages 3-24.
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Daniel Menezes-Blackburn, Nahad Al-Mahrouqi, Buthaina Al-Siyabi, Adhari Al-Kalbani, Ralf Greiner & Sergey Dobretsov. (2021) Bacterial Communities Associated with the Cycling of Non-Starch Polysaccharides and Phytate in Aquaponics Systems. Diversity 13:12, pages 631.
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Yanwen Zhou, Tingxi Zhang, Shengyan Jin, Siyu Chen & Yinlong Zhang. (2021) Effects of Escherichia coli Alkaline Phosphatase PhoA on the Mineralization of Dissolved Organic Phosphorus. Water 13:23, pages 3315.
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Daniel Menezes-Blackburn, Roland Bol, Erwin Klumpp, Anna Missong, Volker Nischwitz & Philip M. Haygarth. (2021) Citric Acid Effect on the Abundance, Size and Composition of Water-Dispersible Soil Colloids and Its Relationship to Soil Phosphorus Desorption: A Case Study. Journal of Soil Science and Plant Nutrition 21:3, pages 2436-2446.
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Mingjing Sun, Zhongqi He & Deb P. Jaisi. (2021) Role of metal complexation on the solubility and enzymatic hydrolysis of phytate. PLOS ONE 16:8, pages e0255787.
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Moritz Hallama, Carola Pekrun, Stefan Pilz, Klaus A. Jarosch, Magdalena Frąc, Marie Uksa, Sven Marhan & Ellen Kandeler. (2021) Interactions between cover crops and soil microorganisms increase phosphorus availability in conservation agriculture. Plant and Soil 463:1-2, pages 307-328.
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Hitoshi Moro, Ho-Dong Park & Takashi Kunito. (2021) Organic Phosphorus Substantially Contributes to Crop Plant Nutrition in Soils with Low Phosphorus Availability. Agronomy 11:5, pages 903.
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Fei WuZhengyun LiYulan LinLinping Zhang. (2021) Effects of Funneliformis mosseae on the utilization of organic phosphorus in Camellia oleifera Abel . Canadian Journal of Microbiology 67:5, pages 349-357.
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Maria Rasul, Sumera Yasmin, Mahreen Yahya, Claudia Breitkreuz, Mika Tarkka & Thomas Reitz. (2021) The wheat growth-promoting traits of Ochrobactrum and Pantoea species, responsible for solubilization of different P sources, are ensured by genes encoding enzymes of multiple P-releasing pathways. Microbiological Research 246, pages 126703.
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Guohui Wu, Kai Wei, Zhenhua Chen, Dongqi Jiang, Hongtu Xie, Nan Jiang & Lijun Chen. (2021) Crop residue application at low rates could improve soil phosphorus cycling under long-term no-tillage management. Biology and Fertility of Soils 57:4, pages 499-511.
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Ana María García-López, Ramiro Recena & Antonio Delgado. (2020) The adsorbent capacity of growing media does not constrain myo-inositol hexakiphosphate hydrolysis but its use as a phosphorus source by plants. Plant and Soil 459:1-2, pages 277-288.
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Driss Touhami, Richard W. McDowell, Leo M. Condron, Mark Lieffering & Paul C.D. Newton. (2020) Long-term atmospheric carbon dioxide enrichment decreases soil phosphorus availability in a grazed temperate pasture. Geoderma 378, pages 114621.
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Zakaria Baiz, Jamila Dahmani, Fatima Gaboun & Mohammed Elguilli. (2020) Inhibition of Verticillium Dahliae and Rhizoctonia Solani Growth by Solid Phosphate Sludge Amendments. The Open Agriculture Journal 14:1, pages 145-156.
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Danmei Chen, Jianguo Huang & Ling Yuan. (2019) A new function of the biocontrol bacterium Lysobacter enzymogenes LE16 in the mineralization of soil organic phosphorus. Plant and Soil 442:1-2, pages 299-309.
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Xiao Z. Yang & Li J. Chen. (2016) Distribution of exogenous phytase activity in soil solid–liquid phases and their effect on soil organic P hydrolysis . Journal of Plant Nutrition and Soil Science 180:1, pages 39-48.
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