Northwestern University researchers are actively overturning the conventional view of iron oxides as mere phosphorus "sinks." A critical nutrient for life, most phosphorus in the soil is organic—from ...

Iron oxide reactions in the soil help synthesize inorganic phosphorus for plants Researchers found that iron oxides in soil catalyze reactions that produce phosphorus, an essential nutrient for ...

Northwestern University researchers are actively overturning the conventional view of iron oxides as mere phosphorus "sinks." A critical nutrient for life, most phosphorus in the soil is organic ...

Iron oxides, traditionally seen as phosphorus "sinks," are now recognized as efficient natural catalysts that convert organic phosphorus into its inorganic form, essential for plant growth.

Northwestern University researchers are actively overturning the conventional view of iron oxides as mere phosphorus “sinks.” A critical nutrient for life, most phosphorus in the soil is ...

Most phosphorus in the environment is in an organic form that plants cannot directly use, and traditional understanding suggested only enzymes could convert it into the bioavailable inorganic form.

Iron oxides act as natural catalysts to unlock phosphorus to fuel plant growth New study finds minerals drive phosphorus release at enzyme-like rates Date: March 4, 2025 Source: Northwestern ...