Sunday, March 8, 2009
On phosphate and sulfide in sediments
Authigenic pyrite (FeS2) commonly forms in marine sediments during early diagenesis from microbially reduced iron and sulfide, both inorganic (from deepsea hydrothermal vents) and microbially produced. Authigenic pyrite is rare in fresh-water lacustrine sediments due to lack of sulfide.
Instead, in most lake sediments, reduced iron that has been released into the pore water during diagenesis of clay minerals is bound by phosphate, not sulfide, to form vivianite Fe3(PO4)2 8H2O.
However, pyrite is common in one fresh-water diagenetic setting: coal swamps. This is apparently because there is so much organic material that sulfide can reach high enough concentrations to compete with the phosphate for the available iron.
I don't know, but I suppose that the activation energy of pyrite formation is much lower than that of vivianite formation. Berner (1980) and Canfield et al (2005) will reveal more to me tonight.
On the quantization of precipitation
I guess rain falls in discrete drops because of water molecules' dipole moments. Does snow form in discrete flakes because a growing snowflake, once it forms on its nucleation site, scavenges all of the water vapor from the surrounding area?
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