Articles citing this paper
Phytase and acid phosphatase activities in extracts from roots of temperate pasture grass and legume seedlings
Julie E. Hayes, Alan E. Richardson and Richard J. Simpson
26(8) pp.801 - 809
88 articles found in Crossref database.
Acid Phosphatase Role in Chickpea/Maize Intercropping
LI S. M.,
LI L.,
ZHANG F. S., TANG C.
Annals of Botany. 2004 94(2). p.297
Extracellular secretion of Aspergillus phytase from Arabidopsis roots enables plants to obtain phosphorus from phytate
Richardson Alan E.,
Hadobas Paul A., Hayes Julie E.
The Plant Journal. 2001 25(6). p.641
Transgenic expression of a novel M. truncatula phytase gene results in improved acquisition of organic phosphorus by Arabidopsis
Xiao Kai,
Harrison Maria J., Wang Zeng-Yu
Planta. 2005 222(1). p.27
Agronomic application of olive mill wastewaters with phosphate rock in a semi-arid Mediterranean soil modifies the soil properties and decreases the extractable soil phosphorus
Mechri Beligh,
Attia Faouzi,
Braham Mohamed,
Elhadj Salem Ben, Hammami Mohamed
Journal of Environmental Management. 2007 85(4). p.1088
Dynamics of phosphorus fractions in the rhizosphere of fababean (Vicia faba L.) and maize (Zea mays L.) grown in calcareous and acid soils
Li Guohua,
Li Haigang,
Leffelaar Peter A.,
Shen Jianbo, Zhang Fusuo
Crop and Pasture Science. 2015 66(11). p.1151
Engineering crop plants: getting a handle on phosphate
Brinch-Pedersen Henrik,
Sørensen Lisbeth Dahl, Holm Preben Bach
Trends in Plant Science. 2002 7(3). p.118
Isolation of phytase-producing bacteria from Himalayan soils and their effect on growth and phosphorus uptake of Indian mustard (Brassica juncea)
Kumar Vinod,
Singh Prashant,
Jorquera Milko A.,
Sangwan Punesh,
Kumar Piyush,
Verma A. K., Agrawal Sanjeev
World Journal of Microbiology and Biotechnology. 2013 29(8). p.1361
The oxygen isotope composition of phosphate released from phytic acid by the activity of wheat and <i>Aspergillus niger</i> phytase
von Sperber C.,
Tamburini F.,
Brunner B.,
Bernasconi S. M., Frossard E.
Biogeosciences. 2015 12(13). p.4175
Reducing carbon: phosphorus ratio can enhance microbial phytin mineralization and lessen competition with maize for phosphorus
Zhang Lin,
Ding Xiaodong,
Chen Sanfeng,
He Xinhua,
Zhang Fusuo, Feng Gu
Journal of Plant Interactions. 2014 9(1). p.850
Microbial engineering for the production and application of phytases to the treatment of the toxic pollutants: A review
Zhou Yuwen,
Anoopkumar A.N.,
Tarafdar Ayon,
Madhavan Aravind,
Binoop Mohan,
Lakshmi Nair M.,
B Arun K.,
Sindhu Raveendran,
Binod Parameswaran,
Sirohi Ranjna,
Pandey Ashok,
Zhang Zengqiang, Awasthi Mukesh Kumar
Environmental Pollution. 2022 308 p.119703
Soil Phosphorus (2016)
Legumes have a higher root phosphatase activity than other forbs, particularly under low inorganic P and N supply
Olde Venterink Harry
Plant and Soil. 2011 347(1-2). p.137
Remediation of soil cadmium pollution by biomineralization using microbial-induced precipitation: a review
Zheng Yunting,
Xiao Chunqiao, Chi Ruan
World Journal of Microbiology and Biotechnology. 2021 37(12).
Growth, P accumulation, and physiological characteristics of two ecotypes of Polygonum hydropiper as affected by excess P supply
Huang Xia,
Li Tingxuan,
Zhang Xizhou,
Zheng Zicheng, Yu Haiying
Journal of Plant Nutrition and Soil Science. 2012 175(2). p.293
Plant and microbial strategies to improve the phosphorus efficiency of agriculture
Richardson Alan E.,
Lynch Jonathan P.,
Ryan Peter R.,
Delhaize Emmanuel,
Smith F. Andrew,
Smith Sally E.,
Harvey Paul R.,
Ryan Megan H.,
Veneklaas Erik J.,
Lambers Hans,
Oberson Astrid,
Culvenor Richard A., Simpson Richard J.
Plant and Soil. 2011 349(1-2). p.121
Inter- and intra-species intercropping of barley cultivars and legume species, as affected by soil phosphorus availability
Darch Tegan,
Giles Courtney D.,
Blackwell Martin S. A.,
George Timothy S.,
Brown Lawrie K.,
Menezes-Blackburn Daniel,
Shand Charles A.,
Stutter Marc I.,
Lumsdon David G.,
Mezeli Malika M.,
Wendler Renate,
Zhang Hao,
Wearing Catherine,
Cooper Patricia, Haygarth Philip M.
Plant and Soil. 2018 427(1-2). p.125
A conceptual framework and an empirical test of complementarity and facilitation with respect to phosphorus uptake by plant species mixtures
LI Chunjie,
KUYPER Thomas W.,
VAN DER WERF Wopke,
ZHANG Junling,
LI Haigang,
ZHANG Fusuo, HOFFLAND Ellis
Pedosphere. 2022 32(2). p.317
Root response of soybean genotypes to low phosphorus availability from juvenile to adult vegetative stages
Furuya Mai,
Shin Myra,
Masumoto Hiroyuki,
Takata Shiho,
Takano Junpei, Matsumura Atsushi
Soil Science and Plant Nutrition. 2022 68(3). p.361
A critical analysis of the causes of boron toxicity in plants
REID R. J.,
HAYES J. E.,
POST A.,
STANGOULIS J. C. R., GRAHAM R. D.
Plant, Cell & Environment. 2004 27(11). p.1405
Influence of phosphorus nutrition on growth and metabolism of Duo grass (Duo festulolium)
Priya Padmanabhan, Sahi Shivendra V.
Plant Physiology and Biochemistry. 2009 47(1). p.31
Soil algae enzymes and their biotechnological applications
Shoarnaghavi Mohammad Amin,
Mishra Arti,
Amirifar Arian,
Mahapatra Smruthi Sagarika,
Nobaharan Khatereh,
Hemati Arash,
Asgari Lajayer Behnam, Astatkie Tess
Systems Microbiology and Biomanufacturing. 2022 2(4). p.589
Rapid decomposition of phytate applied to a calcareous soil demonstrated by a solution 31P NMR study
Doolette A. L.,
Smernik R. J., Dougherty W. J.
European Journal of Soil Science. 2010 61(4). p.563
Transgenic expression of phytase and acid phosphatase genes in alfalfa (Medicago sativa) leads to improved phosphate uptake in natural soils
Ma Xue-Feng,
Tudor Steven,
Butler Twain,
Ge Yaxin,
Xi Yajun,
Bouton Joseph,
Harrison Maria, Wang Zeng-Yu
Molecular Breeding. 2012 30(1). p.377
Soil Phosphorus (2016)
Elevated levels of acid and alkaline phosphatase activity in roots and rhizosphere of cowpea (Vigna unguiculata L. Walp.) genotypes grown in mixed culture and at different densities with sorghum (Sorghum bicolor L.)
Makoi Joachim H. J. R.,
Chimphango Samson B. M., Dakora Felix D.
Crop and Pasture Science. 2010 61(4). p.279
Plant mechanisms to optimise access to soil phosphorus
Richardson Alan E.,
Hocking Peter J.,
Simpson Richard J., George Timothy S.
Crop and Pasture Science. 2009 60(2). p.124
Microorganisms in Sustainable Agriculture and Biotechnology (2012)
Water Treatment Residuals and Biosolids Co‐applications Affect Phosphatases in a Semi‐arid Rangeland Soil
Bayley Robin M.,
Ippolito James A.,
Stromberger Mary E.,
Barbarick Kenneth A., Paschke Mark W.
Communications in Soil Science and Plant Analysis. 2008 39(19-20). p.2812
Phosphate, phytate and phytases in plants: from fundamental knowledge gained in Arabidopsis to potential biotechnological applications in wheat
Secco David,
Bouain Nadia,
Rouached Aida,
Prom-u-thai Chanakan,
Hanin Moez,
Pandey Ajay K., Rouached Hatem
Critical Reviews in Biotechnology. 2017 37(7). p.898
(2000)
Current and Future Biotechnological Applications of Bacterial Phytases and Phytase-Producing Bacteria
Jorquera Milko,
Martínez Oscar,
Maruyama Fumito,
Marschner Petra, de la Luz Mora Maria
Microbes and Environments. 2008 23(3). p.182
Phosphorus acquisition and use: critical adaptations by plants for securing a nonrenewable resource
Vance Carroll P.,
Uhde‐Stone Claudia, Allan Deborah L.
New Phytologist. 2003 157(3). p.423
Enhancing Phytate Availability in Soils and Phytate-P Acquisition by Plants: A Review
Liu Xue,
Han Ran,
Cao Yue,
Turner Benjamin L., Ma Lena Q.
Environmental Science & Technology. 2022 56(13). p.9196
Quantification of Climate Variability, Adaptation and Mitigation for Agricultural Sustainability (2017)
Legume Nitrogen Fixation in Soils with Low Phosphorus Availability (2017)
The Effect of Sheep Wool Fertilizer on Some Biochemical Properties of a Clay Loam Soil
Çetin Karaca Ummahan,
Chalabee Omar Amjed Hasan, Saba Mohammed
Communications in Soil Science and Plant Analysis. 2023 54(1). p.48
Phosphorous accumulation and distribution of two ecotypes of Pilea sinofasciata grown in phosphorous-enriched soils
Zheng ZiCheng,
Li TingXuan,
Zhang XiZhou,
Yu HaiYing,
Wang YongDong,
Liu Tao, Liu Shuang
Applied Soil Ecology. 2014 84 p.54
Identification, kinetics and thermodynamic analysis of novel β-galactosidase from Convolvulus arvensis seeds: An efficient agent for delactosed milk activity
Zaman Umber,
Rehman Khalil ur,
Khan Shahid Ullah,
Refat Moamen S.,
Badshah Syed,
Hajira Bibi,
Iqbal Anwar,
Khan Waseem Ullah, Alsuhaibani Amnah Mohammed
International Journal of Biological Macromolecules. 2022 220 p.1545
Plant Nutrition (2001)
Behaviour of plant‐derived extracellular phytase upon addition to soil
George Timothy S.,
Richardson Alan E., Simpson Richard J.
Soil Biology and Biochemistry. 2005 37(5). p.977
Greater root phosphatase activity in nitrogen‐fixing rhizobial but not actinorhizal plants with declining phosphorus availability
Png Guochen K.,
Turner Benjamin L.,
Albornoz Felipe E.,
Hayes Patrick E.,
Lambers Hans,
Laliberté Etienne, Cameron Duncan
Journal of Ecology. 2017 105(5). p.1246
Secretion of beta-propeller phytase from tobacco and Arabidopsis roots enhances phosphorus utilization
Lung Shiu-Cheung,
Chan Wing-Lee,
Yip Wingkin,
Wang Lingjian,
Yeung Edward C., Lim Boon L.
Plant Science. 2005 169(2). p.341
Response of Tomato (Lycopersicon esculentum Mill.) Cultivars to MS, Water Agar and Salt Stress in in vitro Culture
. F. Amini, . A.A. Ehsanpour
Pakistan Journal of Biological Sciences. 2005 9(1). p.170
A Meta-Analysis of Organic and Inorganic Phosphorus in Organic Fertilizers, Soils, and Water: Implications for Water Quality
Darch T.,
Blackwell M. S. A.,
Hawkins J. M. B.,
Haygarth P. M., Chadwick D.
Critical Reviews in Environmental Science and Technology. 2014 44(19). p.2172
Characteristics and biotechnological applications of bacterial phytases
Jain Jinender,
Sapna , Singh Bijender
Process Biochemistry. 2016 51(2). p.159
Regulation of Soluble Phosphate on the Ability of Phytate Mineralization and β-Propeller Phytase Gene Expression of Pseudomonas fluorescens JZ-DZ1, a Phytate-Mineralizing Rhizobacterium
Shen Lan,
Wu Xiao-Qin,
Zeng Qing-Wei, Liu Hong-Bin
Current Microbiology. 2016 73(6). p.915
Microbial phytase activity and their role in organic P mineralization
Azeem Muhammad,
Riaz Adnan,
Chaudhary Arshad Nawaz,
Hayat Rifat,
Hussain Qaiser,
Tahir Muhammad Ibrahim, Imran Muhammad
Archives of Agronomy and Soil Science. 2015 61(6). p.751
Localized nutrient supply promotes maize growth and nutrient acquisition by shaping root morphology and physiology and mycorrhizal symbiosis
Zhang Aiping,
Wang Xin-Xin,
Zhang Deshan,
Dong Zhijie,
Ji Hui, Li Hongbo
Soil and Tillage Research. 2023 225 p.105550
Organic-acid-producing, phytate-mineralizing rhizobacteria and their effect on growth of pigeon pea (Cajanus cajan)
Patel Kuldeep J.,
Singh Anil K.,
Nareshkumar G., Archana G.
Applied Soil Ecology. 2010 44(3). p.252
Is the enzymatic hydrolysis of soil organic phosphorus compounds limited by enzyme or substrate availability?
Jarosch K.A.,
Kandeler E.,
Frossard E., Bünemann E.K.
Soil Biology and Biochemistry. 2019 139 p.107628
Assessing phosphorus availability in paddy soils: the importance of integrating soil tests and plant responses
Martinengo Sara,
Schiavon Michela,
Santoro Veronica,
Said-Pullicino Daniel,
Romani Marco,
Miniotti Eleonora Francesca,
Celi Luisella, Martin Maria
Biology and Fertility of Soils. 2023 59(4). p.391
Tomato plant responses induced by sparingly available inorganic and organic phosphorus forms are modulated by strigolactones
Santoro Veronica,
Schiavon Michela,
Visentin Ivan,
Martin Maria,
Said-Pullicino Daniel,
Cardinale Francesca, Celi Luisella
Plant and Soil. 2022 474(1-2). p.355
Biolistic transformation of cotton (Gossypium hirsutum L.) with the phyA gene from Aspergillus ficuum
Liu J. F.,
Wang X. F.,
Li Q. L.,
Li X.,
Zhang G. Y.,
Li M. G., Ma Z. Y.
Plant Cell, Tissue and Organ Culture (PCTOC). 2011 106(2). p.207
The potential of genetically enhanced plants to address food insecurity
Christou Paul, Twyman Richard M.
Nutrition Research Reviews. 2004 17(1). p.23
Variation in root-associated phosphatase activities in wheat contributes to the utilization of organic P substrates in vitro, but does not explain differences in the P-nutrition of plants when grown in soils
George Timothy S.,
Gregory Peter J.,
Hocking Peter, Richardson Alan E.
Environmental and Experimental Botany. 2008 64(3). p.239
Transgenic Brassica napus Growing with Phytate as a Sole Phosphorus Source
FANG Xiao-Ping,
WANG Zhuan,
CHEN Ru-Mei,
LI Jun,
FAN Yun-Liu,
LUO Li-Xia,
CHEN Kun-Rong, REN Li
ACTA AGRONOMICA SINICA. 2010 36(2). p.228
Toward a Regional Phosphorus (Re)cycle in the US Midwest
Margenot Andrew J.,
Kitt Dianna,
Gramig Benjamin M.,
Berkshire Taylor B.,
Chatterjee Neha,
Hertzberger Allan J.,
Aguiar Sammy,
Furneaux Aliza,
Sharma Navneet, Cusick Roland D.
Journal of Environmental Quality. 2019 48(5). p.1397
Differential interaction of Aspergillus niger and Peniophora lycii phytases with soil particles affects the hydrolysis of inositol phosphates
George Timothy S.,
Simpson Richard J.,
Gregory Peter J., Richardson Alan E.
Soil Biology and Biochemistry. 2007 39(3). p.793
The Molecular and Physiological Basis of Nutrient Use Efficiency in Crops (2011)
Unraveling the potential of bacterial phytases for sustainable management of phosphorous
Vashishth Amit,
Tehri Nimisha,
Tehri Piyush,
Sharma Avinash,
Sharma Anil Kumar, Kumar Vineet
Biotechnology and Applied Biochemistry. 2023 70(5). p.1690
The reprogramming of mitochondrial energy metabolism in Rice: The role of the TCA cycle and GABA shunt under Arsenic exposure
Bhatia Priyanka,
Saini Himanshu,
Mirza Zainab, Gupta Meetu
Physiologia Plantarum. 2024 176(1).
Syntheses, spectroscopic properties and molecular structure of silver phytate complexes - IR, UV-VIS studies and DFT calculations
Zając A.,
Dymińska L.,
Lorenc J.,
Ptak M., Hanuza J.
Journal of Molecular Structure. 2018 1156 p.483
Tillage effects, soil quality and production potential of kikuyu–ryegrass pastures in South Africa
Swanepoel P. A.,
Habig J.,
du Preez C. C.,
Snyman H. A., Botha P. R.
Grass and Forage Science. 2017 72(2). p.308
Is maize-cowpea intercropping a viable option for smallholder farms in the risky environments of semi-arid southern Africa?
Masvaya Esther N.,
Nyamangara Justice,
Descheemaeker Katrien, Giller Ken E.
Field Crops Research. 2017 209 p.73
Root-specific and phosphate-regulated expression of phytase under the control of a phosphate transporter promoter enables Arabidopsis to grow on phytate as a sole P source
Mudge Stephen R.,
Smith Frank W., Richardson Alan E.
Plant Science. 2003 165(4). p.871
Phytase and phosphatase producing fungi in arid and semi-arid soils and their efficiency in hydrolyzing different organic P compounds
Yadav R.S., Tarafdar J.C.
Soil Biology and Biochemistry. 2003 35(6). p.745
Land-use intensity shapes kinetics of extracellular enzymes in rhizosphere soil of agricultural grassland plant species
Tischer Alexander,
Sehl Livia,
Meyer Ulf-Niklas,
Kleinebecker Till,
Klaus Valentin, Hamer Ute
Plant and Soil. 2019 437(1-2). p.215
Improving Crop Resistance to Abiotic Stress (2012)
Interactive effects of phosphorus deficiency and exogenous auxin on root morphological and physiological traits in white lupin (Lupinus albus L.)
Tang HongLiang,
Shen JianBo,
Zhang FuSuo, Rengel Zed
Science China Life Sciences. 2013 56(4). p.313
Enhancing Understanding and Quantification of Soil-Root Growth Interactions (2015)
Phytoextraction of excess soil phosphorus
Sharma Nilesh C.,
Starnes Daniel L., Sahi Shivendra V.
Environmental Pollution. 2007 146(1). p.120
Plant-Environment Interactions, Third Edition (2006)
Evidence for Soil Phosphorus Resource Partitioning in a Diverse Tropical Tree Community
Müller Robert,
Elsenbeer Helmut, Turner Benjamin L.
Forests. 2024 15(2). p.361
Phosphate Uptake from Phytate Due to Hyphae-Mediated Phytase Activity by Arbuscular Mycorrhizal Maize
Wang Xin-Xin,
Hoffland Ellis,
Feng Gu, Kuyper Thomas W.
Frontiers in Plant Science. 2017 8
(2001)
A novel acid phosphatase from cactus (Opuntia megacantha Salm-Dyck) cladodes: Purification and biochemical characterization of the enzyme
Chafik Abdelbasset,
Essamadi Abdelkhalid,
Çelik Safinur Yildirim, Mavi Ahmet
International Journal of Biological Macromolecules. 2020 160 p.991
Sustainable Agriculture Reviews 58 (2023)
Expression of a fungal phytase gene in Nicotiana tabacum improves phosphorus nutrition of plants grown in amended soils
George Timothy S.,
Simpson Richard J.,
Hadobas Paul A., Richardson Alan E.
Plant Biotechnology Journal. 2005 3(1). p.129
Acid phosphomonoesterase and phytase activities of wheat (Triticum aestivum L.) roots and utilization of organic phosphorus substrates by seedlings grown in sterile culture
Richardson A. E.,
Hadobas P. A., Hayes J. E.
Plant, Cell & Environment. 2000 23(4). p.397
Extracellular Secretion of Phytase from Transgenic Wheat Roots Allows Utilization of Phytate for Enhanced Phosphorus Uptake
Mohsin Samreen,
Maqbool Asma,
Ashraf Mehwish, Malik Kauser Abdulla
Molecular Biotechnology. 2017 59(8). p.334
Adsorption to soils and biochemical characterization of commercial phytases
Caffaro María Marta,
Balestrasse Karina Beatriz, Rubio Gerardo
SOIL. 2020 6(1). p.153
Characterization of transgenic Trifolium subterraneum L. which expresses phyA and releases extracellular phytase: growth and P nutrition in laboratory media and soil
GEORGE T. S.,
RICHARDSON A. E.,
HADOBAS P. A., SIMPSON R. J.
Plant, Cell & Environment. 2004 27(11). p.1351
Contrasting P acquisition strategies of the bacterial communities associated with legume and grass in subtropical orchard soil
Zhou Yang,
Zhu Honghui, Yao Qing
Environmental Microbiology Reports. 2018 10(3). p.310
Phytase activity in lichens
Higgins Niall F., Crittenden Peter D.
New Phytologist. 2015 208(2). p.544
INTERACTIONS BETWEEN COMMON BEAN GENOTYPES AND RHIZOBIA STRAINS ISOLATED FROM MOROCCAN SOILS FOR GROWTH, PHOSPHATASE AND PHYTASE ACTIVITIES UNDER PHOSPHORUS DEFICIENCY CONDITIONS
Mandri Btissam,
Drevon Jean-Jacques,
Bargaz Adnane,
Oufdou Khalid,
Faghire Mustapha,
Plassard Claude,
Payre Hélène, Ghoulam Cherki
Journal of Plant Nutrition. 2012 35(10). p.1477
Symbiotic nitrogen fixation does not stimulate soil phosphatase activity under temperate and tropical trees
Jager Emily A.,
Quebbeman Andrew W.,
Wolf Amelia A.,
Perakis Steven S.,
Funk Jennifer L., Menge Duncan N. L.
Oecologia. 2023 201(3). p.827
Contribution of arbuscular mycorrhizal fungi to utilization of organic sources of phosphorus by red clover in a calcareous soil
Feng G,
Song Y.C,
Li X.L, Christie P
Applied Soil Ecology. 2003 22(2). p.139
Soy and mustard effectively mobilize phosphorus from inorganic and organic sources
Schwerdtner Ulrike,
Lacher Ulrike, Spohn Marie
Nutrient Cycling in Agroecosystems. 2022 124(2). p.211
