Malika M. Mezeli
James Hutton Institute
13 Papers
4 Citations
Malika M. Mezeli is an academic researcher from James Hutton Institute. The author has contributed to research in topics: Phytase & Soil pH. The author has an hindex of 8, co-authored 13 publications. Previous affiliations of Malika M. Mezeli include Lancaster University.
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Papers
Organic phosphorus in the terrestrial environment: a perspective on the state of the art and future priorities
Timothy S. George,Courtney D. Giles,Daniel Menezes-Blackburn,Leo M. Condron,Antonio Carlos Gama-Rodrigues,Deb P. Jaisi,Friederike Lang,Andrew L. Neal,Marc Stutter,Danilo S. Almeida,Roland Bol,K. G. Cabugao,Luisella Celi,James B. Cotner,Gu Feng,Daniel S. Goll,Moritz Hallama,J. Krueger,Claude Plassard,Anna Rosling,Tegan Darch,Tandra D. Fraser,Reiner Giesler,Alan Richardson,Federica Tamburini,Charles A. Shand,David G. Lumsdon,Hao Zhang,Martin S. A. Blackwell,Catherine Wearing,Malika M. Mezeli,A. R. Almas,Yuki Audette,Isabelle Bertrand,Elena Beyhaut,Gustavo Boitt,N. Bradshaw,Charles A. Brearley,T. W. Bruulsema,Philippe Ciais,Vincenza Cozzolino,P. C. Duran,María de la Luz Mora,A. B. de Menezes,Rosalind Dodd,Kari E. Dunfield,Christoph Engl,J. J. Frazão,Gina Garland,J. L. González Jiménez,J. Graca,Steven J. Granger,Anthony F. Harrison,Christine Heuck,Enqing Hou,Penny J Johnes,Klaus Kaiser,Helle Astrid Kjær,Erwin Klumpp,Angela L. Lamb,Katrina A. Macintosh,Eleanor B. Mackay,John W. McGrath,Catherine A. McIntyre,Timothy I. McLaren,Éva Mészáros,Anna Missong,Maria Mooshammer,C. P. Negrón,L. A. Nelson,Verena Pfahler,P. Poblete-Grant,M. Randall,Alex Seguel,Kritarth Seth,Andrew C. Smith,Mark M. Smits,J. A. Sobarzo,Marie Spohn,Keitaro Tawaraya,Mark Tibbett,Paul Voroney,Håkan Wallander,L. Wang,Jun Wasaki,Philip M. Haygarth +85 more
TL;DR: In this article, a group of experts consider the global issues associated with phosphorus in the terrestrial environment, methodological strengths and weaknesses, benefits to be gained from understanding the Po cycle, and to set priorities for Po research.
Phosphorus acquisition by citrate- and phytase-exuding Nicotiana tabacum plant mixtures depends on soil phosphorus availability and root intermingling.
Courtney D. Giles,Alan Richardson,Barbara J. Cade-Menun,Malika M. Mezeli,Lawrie K. Brown,Daniel Menezes-Blackburn,Tegan Darch,Martin S. A. Blackwell,Charles A. Shand,Marc Stutter,Renate Wendler,Patricia Cooper,David G. Lumsdon,Catherine Wearing,Hao Zhang,Philip M. Haygarth,Timothy S. George +16 more
TL;DR: Exudate-specific strategies for the acquisition of soil P were most effective in P-limited soil and depended on citrate efflux rate and the relative mobility of the expressed phytase in soil.
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Using a meta-analysis approach to understand complexity in soil biodiversity and phosphorus acquisition in plants
Malika M. Mezeli,Stephen Page,Timothy S. George,Roy Neilson,Andrew Mead,Martin S. A. Blackwell,Philip M. Haygarth +6 more
TL;DR: In this paper, the authors conducted a meta-analysis on relevant literature, which reported the response of terrestrial plants of economic and anthropogenic importance to P conditions, and controlled for biological treatments across different land-uses (arable, grassland and woodland).
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Does the combination of citrate and phytase exudation in Nicotiana tabacum promote the acquisition of endogenous soil organic phosphorus
Courtney D. Giles,Timothy S. George,Lawrie K. Brown,Malika M. Mezeli,Alan Richardson,Charles A. Shand,Renate Wendler,Tegan Darch,Daniel Menezes-Blackburn,Patricia Cooper,Marc Stutter,David G. Lumsdon,Martin S. A. Blackwell,Catherine Wearing,Hao Zhang,Philip M. Haygarth +15 more
TL;DR: It is shown for the first time that trait synergism associated with the exudation of citrate and phytase by tobacco can be linked to the improved acquisition of P and the depletion of soil organic P.
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Effect of citrate on Aspergillus niger phytase adsorption and catalytic activity in soil
Malika M. Mezeli,Daniel Menezes-Blackburn,Timothy S. George,Courtney D. Giles,Roy Neilson,Philip M. Haygarth +5 more
TL;DR: In this article, the effect of citrate on phytase adsorption and activity towards free, precipitated and adsorbed InsP 6 was investigated in a series of enzyme hydrolysis activity assays.
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