Thanks @Victor_G, 

Just before I work through the suggestions you gave, what should be done with the Value Order, if my Rings although called Ring1 to Ring6, don't necessarily need to follow a particular order?

Thank you so much for the very detailed explanation, it helped a lot.

I would like to clarify about the Generalized regression how is different from just doing the Least squares directly? Although, I noticed a few difference as the generalized regression allows me to explore different estimation methods. However, what is the advantage or difference if I fit the least squares directly and doing it through the generalised regression platform?

When I do both separately for my parameter of interest, I see some difference and similarities (see attached), could you please explain why the difference (especially the Cv in the effect test)?

Hi @Gabriel,

It seems you only have nominal variables in your model.

I might have found an element of response concerning your question about the differences from Least Squares estimation method between Generalized Regression and Least Squares platforms :

"The parameterization of nominal variables used in the Generalized Regression personality differs from their parameterization using other Fit Model personalities. The Generalized Regression personality uses indicator function parameterization. In this parameterization, the estimate that corresponds to the indicator for a level of a nominal variable is an estimate of the difference between the mean response at that level and the mean response at the last level. The last level is the level with the highest value order coding; it is the level whose indicator function is not included in the model."

From :  Launch the Generalized Regression Personality

Whereas in Fit Model : 

"When you enter a column with a nominal modeling type in the Fit Model launch window, JMP represents it internally as a set of continuous indicator variables. Each variable assumes only the values –1, 0, and 1. (Note that this coding is one of many ways to use indicator variables to code nominal variables.) If your nominal column has n levels, then n–1 of these indicator variables are needed to represent it. (The need for n–1 indicator variables relates directly to the fact that the main effect associated with the nominal column has n–1 degrees of freedom.) Full details are covered in Nominal Factors."

From : Statistical Details for Nominal Effects Coding

So the difference you see might be linked to this difference of nominal effects coding, hence giving different estimate values and calculated p-values.

I hope this answer will help you understand the difference,

thank you @Victor_G . I see now.

The bottom line would then be, when to use what? or is there specific nature of ones nominal variable that necessitates using one over the other if we have a normally distributed dataset?

For instance Cv in this case has to remain nominal, as there is no particular order. CO2 contamination (is either high or low) but not in any particularly an order. Of course inputting days into the model as to come in as a continuous variable. 

I am not just clear about this.

Thanks.

Hi @Gabriel,

There may no definitive answer to your question, as it highly depends on your factors, topic and objectives.

As far as I understand the differences between these two nominal effects coding, I would say that if you expect to evaluate levels from a nominal factor by comparing each level to one specific level, then the nominal coding from Generalized Regression might be more appropriate. You can use column property "Value Order" to specify the order needed so that it fits your study design. The last level of the factor will be used for the comparison to all other levels.
For example, in the JMP datatable example "Cholesterol.jmp", I personally would prefer creating a model based on Generealized Regression platform with Standard Least Squares estimation method, as it would enable the nominal coding to compare each treatment effect level to the "Placebo" treatment effect level (by default because of alphabetical ordering, but by adding a "Value order" column property I can change the comparisons done with another level, like "Control"). It makes more sense, as we would like to know what are the effects of various treatments compared to Placebo (or Control), not compared to the average calculated on all different levels.

But when you want to know how each levels may influence the average response calculated on all levels, then the Standard Least Squares from Fit Model platform may be more useful.

Your CO2 contamination seems to be an ordinal factor, since there is a "natural order" between high and low (high > low), so you may specify this factor as ordinal, as it is an information taken into account in the ordinal factors coding as well : https://www.jmp.com/support/help/en/17.1/index.shtml#page/jmp/ordinal-factors.shtml#ww96069 

If you specify it as an ordinal effect and if you have only 2 levels, effect estimate will be calculated by taking the difference between the average response for each level (High - Low), whereas with a "normal" nominal coding and 2 levels, effect estimate will be calculated by taking the difference between the average response of a level and the overall average response for the two levels (example: High - Mean(High,Low)).  

I hope this answer will bring a little more clarity to this complex topic,

Thank you @Victor_G. I guess in my case CO2 contamination is more a nominal variable or factor since the high or low are just environment within which my data are collected. One chamber is given high CO2 contamination and the other is given low, and my measurement of plant's "A-Dyn" response is taken in the various open chamber.

But just like you said the topic is quite complex to navigate.