Thanks. Your point about biasing the MSe is at the heart of my concern about my conclusions about the significance of the remaining terms ... that I probably have a higher type I error rate than I think I do. So I may be falsely claiming a factor effect.

I'll add that it was a replicated experiment with four replicates, since we expected poor signal to noise. Does that help guard against false claims of term significance?

The factors were binary/categorical and the response was continuous. 

To add some remarks and comments in addition of @statman answer.

Your topic seems very similar to models evaluation and selection. In this process, statistical significance may be one metric, but not the only one (always add domain expertise !).
Complementary model's estimation and evaluation metrics, like log-likelihood, information criteria (AICc, BIC) or model's metrics (explanative power through R2 and R2 adjusted, predictive power through MSE/RMSE/RASE, ...) offer different perspective and may highlight different models.
You can then select based on domain expertise and statistical evaluation which one(s) is/are the most appropriate/relevant for your topic, and choose to estimate individual predictions with the different models (to see how/where they differ), and/or to use a combined model to average out the prediction errors.

"All models are wrong, but some are useful" is a quite adequate quote when dealing with multiple possible models and trying to evaluate and select some to answer a question.

Hope this additional answer may help you,

Why 4 replicates?  What was changing within and between replicate?  Does the RMSE look reasonable and comparable to the variation you see in the process?  Is the process stable?  

The commonest of defects in DOE are (paraphrased from Daniel):

1. Oversaturation: too many effects for the number of treatments
2. Overconservativeness: too many observations for the desired estimates
3. Failure to study the data for bad values
4. Failure to take into account all of the aliasing
5. Imprecision due to misunderstanding the error variance.

Point 5 is important, particularly if you are relying on p-values for assessing significance.

Victor's advice regarding use of other statistics to determine an appropriate model are worth consideration as well.

The experiment was "open sourced" where volunteer participant teams conducted four runs (randomly assigned treatments) from the master design matrix. I blocked for the team effect, as well as other nuisance factors such as the scenario (of which there were four). Even without these nuisance factors, I expected a team's score (the response variable) to vary despite the factors' effects. These nuisance factors were an unfortunate compromise between "realism" with human subjects and a more tightly controlled experiment.