FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1485004917> ?p ?o ?g. }

• W1485004917 endingPage "266" @default.
• W1485004917 startingPage "253" @default.
• W1485004917 abstract "Phosphate (P) fixation to the soil solid phase is considered to be important for P availability and is often attributed to the strong binding of orthophosphate anion species. However, the fixation and subsequent immobilization of inositolhexa and pentaphosphate isomers (phytate) in soil is often much stronger than that of the orthosphate anion species. The result is that phytate is a main organic P form in soil and the dominating form of identifiable organic P. The reasons for the accumulation are not fully clear. Two hypothesis can be found in the literature in the last 20 years, the low activity of phytase (phosphatases) in soil, which makes phytate P unavailable to the plant roots, and, on the other hand, the strong binding of phytate to the soil solid phase with its consequent stabilization and accumulation in soil. The hypothesis that low phytase activity is responsible for phytate accumulation led to the development of genetically modified plant genotypes with a higher expression of phytase activity at the root surface and research on the effect of a higher phytate activity on P acquisition. Obviously, this hypothesis has a basic assumption, that the phytate mobility in soil is not the limiting step for P acquisition of higher plants from soil phytate. This assumption is, however, not justified considering the results on the sorption, immobilization and fixation of phytate to the soil solid phase reported in the last two decades. Phytate is strongly bound, and the P sorption maximum and probably the sorption strength of phytate P to the soil solid phase is much higher, compared to that of orthophosphate P. Mobilization of phytate seems to be a promising step to make it available to the plant roots. The excretion of organic acid anions, citrate and to a lesser extend oxalate, seems to be an important way to make phytate P available to the plants. Phytase activity at the root surface seems not be the limiting step in P acquisition from phytate. Phytate is not only bound to inorganic surfaces in soil but can also be bound, similar to orthophosphate, to humic surfaces via Fe or Al bridges. Humic-metal-phytate complexes may be transported in the soil solution to the roots where hydrolysis and uptake of the liberated P may occur. Research on this topic is strongly required." @default.
• W1485004917 created "2016-06-24" @default.
• W1485004917 creator A5007731555 @default.
• W1485004917 date "2015-05-22" @default.
• W1485004917 modified "2023-10-03" @default.
• W1485004917 title "Phytate (Inositol Hexakisphosphate) in Soil and Phosphate Acquisition from Inositol Phosphates by Higher Plants. A Review" @default.
• W1485004917 cites W1524476612 @default.
• W1485004917 cites W1535598549 @default.
• W1485004917 cites W1592620365 @default.
• W1485004917 cites W1970546603 @default.
• W1485004917 cites W1972975493 @default.
• W1485004917 cites W1973315365 @default.
• W1485004917 cites W1977030388 @default.
• W1485004917 cites W1983971897 @default.
• W1485004917 cites W1986980650 @default.
• W1485004917 cites W1988510724 @default.
• W1485004917 cites W1999754294 @default.
• W1485004917 cites W2000522724 @default.
• W1485004917 cites W2005534427 @default.
• W1485004917 cites W2012425063 @default.
• W1485004917 cites W201582657 @default.
• W1485004917 cites W2015947486 @default.
• W1485004917 cites W2020381350 @default.
• W1485004917 cites W2021862789 @default.
• W1485004917 cites W2022758625 @default.
• W1485004917 cites W2028233650 @default.
• W1485004917 cites W2029762533 @default.
• W1485004917 cites W2034275026 @default.
• W1485004917 cites W2041655745 @default.
• W1485004917 cites W2042544727 @default.
• W1485004917 cites W2044734136 @default.
• W1485004917 cites W2047077419 @default.
• W1485004917 cites W2051536405 @default.
• W1485004917 cites W2053346193 @default.
• W1485004917 cites W2053435444 @default.
• W1485004917 cites W2053578272 @default.
• W1485004917 cites W2056418046 @default.
• W1485004917 cites W2065381259 @default.
• W1485004917 cites W2072689357 @default.
• W1485004917 cites W2074108535 @default.
• W1485004917 cites W2076867262 @default.
• W1485004917 cites W2078616161 @default.
• W1485004917 cites W2081513507 @default.
• W1485004917 cites W2083992929 @default.
• W1485004917 cites W2087532283 @default.
• W1485004917 cites W2091985220 @default.
• W1485004917 cites W2093822659 @default.
• W1485004917 cites W2103814022 @default.
• W1485004917 cites W2122778469 @default.
• W1485004917 cites W2131544648 @default.
• W1485004917 cites W2135823429 @default.
• W1485004917 cites W2143996809 @default.
• W1485004917 cites W2151640967 @default.
• W1485004917 cites W2153545295 @default.
• W1485004917 cites W2155785332 @default.
• W1485004917 cites W276530947 @default.
• W1485004917 cites W3188909002 @default.
• W1485004917 doi "https://doi.org/10.3390/plants4020253" @default.
• W1485004917 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4844319" @default.
• W1485004917 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27135327" @default.
• W1485004917 hasPublicationYear "2015" @default.
• W1485004917 type Work @default.
• W1485004917 sameAs 1485004917 @default.
• W1485004917 citedByCount "72" @default.
• W1485004917 countsByYear W14850049172015 @default.
• W1485004917 countsByYear W14850049172016 @default.
• W1485004917 countsByYear W14850049172017 @default.
• W1485004917 countsByYear W14850049172018 @default.
• W1485004917 countsByYear W14850049172019 @default.
• W1485004917 countsByYear W14850049172020 @default.
• W1485004917 countsByYear W14850049172021 @default.
• W1485004917 countsByYear W14850049172022 @default.
• W1485004917 countsByYear W14850049172023 @default.
• W1485004917 crossrefType "journal-article" @default.
• W1485004917 hasAuthorship W1485004917A5007731555 @default.
• W1485004917 hasBestOaLocation W14850049171 @default.
• W1485004917 hasConcept C107872376 @default.
• W1485004917 hasConcept C109551439 @default.
• W1485004917 hasConcept C150394285 @default.
• W1485004917 hasConcept C170493617 @default.
• W1485004917 hasConcept C178666793 @default.
• W1485004917 hasConcept C178790620 @default.
• W1485004917 hasConcept C181199279 @default.
• W1485004917 hasConcept C185592680 @default.
• W1485004917 hasConcept C2777132085 @default.
• W1485004917 hasConcept C2777427919 @default.
• W1485004917 hasConcept C523546767 @default.
• W1485004917 hasConcept C54355233 @default.
• W1485004917 hasConcept C55493867 @default.
• W1485004917 hasConcept C58445606 @default.
• W1485004917 hasConcept C6557445 @default.
• W1485004917 hasConcept C86626682 @default.
• W1485004917 hasConcept C86803240 @default.
• W1485004917 hasConceptScore W1485004917C107872376 @default.
• W1485004917 hasConceptScore W1485004917C109551439 @default.
• W1485004917 hasConceptScore W1485004917C150394285 @default.
• W1485004917 hasConceptScore W1485004917C170493617 @default.
• W1485004917 hasConceptScore W1485004917C178666793 @default.

• next