If you're doing fixed zooming (i.e. each zoom level is a fixed distance from the camer), as opposed to fluid zooming (the player can zoom in by 3.3x, 7.5x, and not just 1x, 2x, 3x, etc.) then it's massively wasteful to try to solve this by simply applying a zoom transform. It's tempting because that's the least complicated approach, and it's easy to understand from an implementation standpoint, but that means that at maximum zoom-out, you're going to be rendering an area that's 10x larger in the X direction, and 10x larger in the Y direction - so the area of the world that you have to render is 100x larger than at maximum zoom-in. I also doubt that you'll like the way your textures get squished by the hardware as you're zooming out. Computer graphics isn't the same as optics - subpixel rendering, and other things that happen in computer graphics aren't going to make your textures look very good if you hand that task off the the software/hardware.
Even if you do fluid zooming, I would still do level-of-detail textures, and dynamically swap them out depending on the distance between the world being rendered, and the camera.
Also, 10 zoom levels? Are you sure you really need 10 zoom levels? Zoom is usually used in 2D games to allow you to perform different activities at different levels of detail because a particular zoom level is especially well suited for a certain set of activities. I don't remember any 2D game that needed 10 zoom levels to accomplish this. 3-5 is the most I've ever seen, and I've never felt that it wasn't enough. It also seems like a lot of art work to produce the images at every zoom level for 10 zoom levels.
You're also likely going to find that applying an AffineTransform sounds like a good idea, but that it's extremely computationally expensive, and if you need 60fps performance, you're highly unlikely to achieve it this way. Don't take my word for it though, go try it and see how badly it falls over on itself.