I would be grateful for your thoughts on dependence on VOC and air temperature dax. I suspect most would believe (perhaps naively so) that the concentration of VOCs emitted into the air would increase with surface (or near surface) temperature. Using your expertise, can you explain why this would be case? I think most interesting would be your counter as to why this might not be the case (as found by this study). Why did they find that the concentrations did not depend (heavily) on temperature? What physical/chemical phenomenon is occurring here that runs counter to what most people would expect?
I knew it wouldn't be long before you pulled the smartest guy in the room card, Chin.
Now, tell me, what does any of what you said have anything to do with why K-State women's soccer should or shouldn't play on an artificial grass surface?
If you're predisposed to natural grass and since you are the smartest guy in the room could you please list the types of chemicals that are often needed to maintain a natural turf athletic field in Central Kansas. Please note that would be the necessary chemicals to maintain a natural turf athletic field in Central Kansas at level that would afford above average, if not superior playing conditions in all climatic circumstances one can typically find in Central Kansas from August until the late Fall (let's pretend our Lady Soccer players are eventually going to be really good). I can only guess what those chemicals might be, but surely you know.
Thanks
Chin, nice agenda, because we all know that there's a hell of a lot more money in crumb rubber research than there is in climate research.