Soil organic matter with calcium enables phosphorus retention

Association·nserc

Claim that the binding of phosphorus to soil organic matter via calcium complexes is a mechanism for phosphorus retention in soils/sediments.

Confidence

80%

active

Evidence Quote

“Phosphorus binding to soil organic matter via ternary complexes with calcium”

Relationship

Phosphorus binding to soil organic matter via calcium complexes enables Phosphorus burial and diagenesis in marine sediments

Arguments

Phosphorus binding to soil organic matter via calcium complexessubject

Phosphorus burial and diagenesis in marine sedimentsobject

Connections (2)

Mechanisms of phosphorus sequestration in marine and soil sedimentsInferenceChain

Soil organic matter with calcium enables phosphorus retentionAssociation

Evidence

“Reference on phosphorus binding to soil organic matter with calcium complexes.”

Y. Audette et al. (2020). Phosphorus binding to soil organic matter via ternary complexes with calcium

“Evidence from "Aquatic Chemistry: Chemical Equilibria and Rates in Natural Waters" by Stumm & Morgan (1996), cited for background on phosphate sorption mechanisms, mineral equilibria, and aqueous interface chemistry.”

Stumm & Morgan (1996) on Aquatic Chemistry

“Reference to "Internal phosphorus loading in Canadian fresh waters: a critical review and data analysis" by Orihel et al., Can. J. Fish. Aquat. Sci., 2017.”

D. M. Orihel et al. (2017). Internal phosphorus loading in Canadian fresh waters: a critical review and data analysis

Soil organic matter with calcium enables phosphorus retention — NSERC Knowledge Graph