Given the nature of your data, it seems you are handling some kind of raw sample.
So the easiest and most generic "lossy" technique will be to drop the lower bits, reducing precision, up to the level you want.
Note that you will need to "drop the lower bits", which is quite different from "round to the next power of 10". Computer work on base 2, and you want all your lower bits to be "00000" for compression to perform as well as possible. This method suppose that the selected compression algorithm will make use of the predictable 0-bits pattern.
Another method, more complex and more specific, could be to convert your values as an index into a table. The advantage is that you can "target" precision where you want it. The obvious drawback is that the table will be specific to a distribution pattern.
On top of that, you may also store not the value itself, but the delta of the value with its preceding one if there is any kind of relation between them. This will help compression too.
For data to be compressed, you will need to "group" them by packets of appropriate size, such as 64KB. On a single field, no compression algorithm will give you suitable results. This, in turn, means that each time you want to access a field, you need to decompress the whole packet, so better tune it depending on what you want to do with it. Sequential access is easier to deal with in such circumstances.
Regarding compression algorithm, since these data are going to be "live", you need something very fast, so that accessing the data has very small latency impact.
There are several open-source alternatives out there for that use. For easier license management, i would recommend a BSD alternative. Since you use C++, the following ones look suitable :