Relationships between t distributions and normal distributions

The t distribution is the marginal posterior distribution for the normal mean with unknown variance and conjugate prior distribution and can be interpreted as a mixture of normals with common mean and variances that follow an inverse-gamma distribution.

• What precisely (in terms of mathematical formulas) does it mean by "the t distribution is the marginal posterior distribution for the normal mean with unknown variance"?

• In the table on Wikipedia, I didn't find that the t distribution is a conjugate prior distribution for a normal distribution. So where does "conjugate prior distribution" come from?

• The t is the posterior, not the prior. The prior for the variance is - quite explicitly in what you quoted - inverse gamma. Mar 14 '14 at 3:10
• The mixture question is asked and answered at stats.stackexchange.com/questions/52906/…. In light of @Glen_b's comments and this duplicate, please edit your set of questions to eliminate those with answers and keep only one question that you might still need an answer to.
– whuber
Mar 14 '14 at 15:16
• @Glen_b:Thanks! I can only see that the t is the mixture distribution when the prior for Gaussian's variance is inverse gamma. I don't see how it is a porterior.
– Tim
Mar 14 '14 at 19:55

I'll let someone else address your first question, but regarding the second bullet point, @Glen_b is right: the $t$ distribution is the posterior, not the prior. The problem here is that there is an ambiguity in the text concerning what phrases are being joined by the "and". Consider these two possibilities:
1. The t distribution is $($the marginal posterior distribution for the normal mean with unknown variance$)$ and [it is also the] conjugate prior distribution...
2. The t distribution is the marginal posterior distribution for the normal mean $($with unknown variance and [when the] conjugate prior distribution [had been used]$)$...