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W1974015289 endingPage "83" @default.
W1974015289 startingPage "73" @default.
W1974015289 abstract "Brazilian soils predominantly consist of iron and aluminum oxides and have a low phosphorus content. The present study was carried out in order to assess the status of phosphate fractions in pasture, forest and agricultural soils and the ability of soil fungi to solubilize iron and aluminum phosphates. The abundance of P fractions in the soils studied occurred in the following order: Fe–P > reductant-soluble Fe–P > occluded Fe–P > occluded Al–P > Al–P > Ca–P. Of the 481 fungi isolated, 33 showed the ability to solubilize the inorganic phosphates in culture. Of these, 14 were considered to be high or very high solubilizers based on a solubilization capacity >1000 μg PO43− ml−1. Isolate F111 was the only one that dissolved all the insoluble phosphates used. Nine isolates solubilized both Al–P and Ca–P, and four other isolates only solubilized Ca–P. The highest number of isolates with high solubilization capacity were detected in pasture soil, followed by tropical rain forest and forest patch soils. Pasture soil presented both the largest contents of insoluble phosphates and the largest number of fungal isolates with phosphate-solubilizing ability. The range and size of P fractions influenced the number of fungi and their ability to solubilize hardly soluble phosphates." @default.
W1974015289 created "2016-06-24" @default.
W1974015289 creator A5006878402 @default.
W1974015289 creator A5038656419 @default.
W1974015289 date "2005-05-01" @default.
W1974015289 modified "2023-10-03" @default.
W1974015289 title "The status of soil phosphate fractions and the ability of fungi to dissolve hardly soluble phosphates" @default.
W1974015289 cites W1629828150 @default.
W1974015289 cites W1912410317 @default.
W1974015289 cites W1969110890 @default.
W1974015289 cites W1970152576 @default.
W1974015289 cites W1971042188 @default.
W1974015289 cites W1972070782 @default.
W1974015289 cites W1980288877 @default.
W1974015289 cites W1985871461 @default.
W1974015289 cites W1987399716 @default.
W1974015289 cites W1990651610 @default.
W1974015289 cites W1990768879 @default.
W1974015289 cites W1993892474 @default.
W1974015289 cites W1997138016 @default.
W1974015289 cites W1999517072 @default.
W1974015289 cites W2000298068 @default.
W1974015289 cites W2003222186 @default.
W1974015289 cites W2003680837 @default.
W1974015289 cites W2004249441 @default.
W1974015289 cites W2012911947 @default.
W1974015289 cites W2014651352 @default.
W1974015289 cites W2015458779 @default.
W1974015289 cites W2016241111 @default.
W1974015289 cites W2016872619 @default.
W1974015289 cites W2020624358 @default.
W1974015289 cites W2023410488 @default.
W1974015289 cites W2024585563 @default.
W1974015289 cites W2030156497 @default.
W1974015289 cites W2034444708 @default.
W1974015289 cites W2036944627 @default.
W1974015289 cites W2044317327 @default.
W1974015289 cites W2045076715 @default.
W1974015289 cites W2048861743 @default.
W1974015289 cites W2049907812 @default.
W1974015289 cites W2050229481 @default.
W1974015289 cites W2071332821 @default.
W1974015289 cites W207434997 @default.
W1974015289 cites W2079553923 @default.
W1974015289 cites W2081331837 @default.
W1974015289 cites W2082316489 @default.
W1974015289 cites W2091493425 @default.
W1974015289 cites W2093820501 @default.
W1974015289 cites W2095538916 @default.
W1974015289 cites W2106889550 @default.
W1974015289 cites W2111238109 @default.
W1974015289 cites W2116372239 @default.
W1974015289 cites W2117884441 @default.
W1974015289 cites W2122106493 @default.
W1974015289 cites W2162834231 @default.
W1974015289 cites W327020386 @default.
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W1974015289 doi "https://doi.org/10.1016/j.apsoil.2004.09.005" @default.
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