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Phosphate Pools, Phosphate Transport, and Phosphate Availability
Annual Review of Plant Physiology, 1973(gIucose-6- phosphate ) and similar abbreviations for specific esters, P-lipid (phospholipid), P-choline (phosphatyl choline). 2 Throughout this article, solution concentrations will be given as molarities. The tissue content will usually be expressed as miIIimoles (mmoles), micromoles (I'moles) or nano moles (nmoles) per gram fresh weight (g fr wt ...
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Plant and Soil, 2005
Phosphate (Pi) is considered to be one of the least available plant nutrients in the soil. High-affinity Pi transporters are generally accepted as entry points for Pi in the roots. The physiological, genetic, molecular and biochemical analysis of phosphate starvation response mechanisms highlight the ability of plants to adapt and thrive under ...
K. G. Raghothama, A. S. Karthikeyan
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Phosphate (Pi) is considered to be one of the least available plant nutrients in the soil. High-affinity Pi transporters are generally accepted as entry points for Pi in the roots. The physiological, genetic, molecular and biochemical analysis of phosphate starvation response mechanisms highlight the ability of plants to adapt and thrive under ...
K. G. Raghothama, A. S. Karthikeyan
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Phosphates Recovery from Iron Phosphates Sludge
Environmental Technology, 2001Recovery of phosphates from ferrous and/or ferric residues as a result of chemical precipitation was investigated. The product of biological reduction of sulphates--sulphides and free hydrogen sulphide--can react with iron ions forming ferrous sulphide which are less soluble then ferrous phosphates, releasing phosphates into solution.
J. Suschka, A. Machnicka, S. Poplawski
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Annual Review of Plant Physiology and Plant Molecular Biology, 1999
▪ Abstract Phosphorus is one of the major plant nutrients that is least available in the soil. Consequently, plants have developed numerous morphological, physiological, biochemical, and molecular adaptations to acquire phosphate (Pi). Enhanced ability to acquire Pi and altered gene expression are the hallmarks of plant adaptation to Pi deficiency ...
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▪ Abstract Phosphorus is one of the major plant nutrients that is least available in the soil. Consequently, plants have developed numerous morphological, physiological, biochemical, and molecular adaptations to acquire phosphate (Pi). Enhanced ability to acquire Pi and altered gene expression are the hallmarks of plant adaptation to Pi deficiency ...
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Disodium phosphate/monosodium phosphate/potassium phosphate
Reactions Weekly, 2023openaire +1 more source
Disodium phosphate/monosodium phosphate/potassium phosphate
Reactions Weekly, 2014openaire +1 more source
Editorial: Phosphate here, phosphate there…
Environmental Science & Technology, 1985openaire +2 more sources