The article mentions 9 layers of zip files, so it's not a simple case of zipping a bunch of zeros. Why 9, why 10 files in each?
First off, the Wikipedia article currently says 5 layers with 16 files each. Not sure where the discrepancy comes from, but it's not all that relevant. The real question is why use nesting in the first place.
DEFLATE, the only commonly supported compression method for zip files*, has a maximum compression ratio of 1032. This can be achieved asymptotically for any repeating sequence of 1-3 bytes. No matter what you do to a zip file, as long as it is only using DEFLATE, the unpacked size will be at most 1032 times the size of the original zip file.
Therefore, it is necessary to use nested zip files to achieve really outrageous compression ratios. If you have 2 layers of compression, the maximum ratio becomes 1032^2 = 1065024. For 3, it's 1099104768, and so on. For the 5 layers used in 42.zip, the theoretical maximum compression ratio is 1170572956434432. As you can see, the actual 42.zip is far from that level. Part of that is the overhead of the zip format, and part of it is that they just didn't care.
If I had to guess, I'd say that 42.zip was formed by just creating a large empty file, and repeatedly zipping and copying it. There is no attempt to push the limits of the format or maximize compression or anything - they just arbitrarily picked 16 copies per layer. The point was to create a large payload without much effort.
Note: Other compression formats, such as bzip2, offer much, much, much larger maximum compression ratios. However, most zip parsers don't accept them.
P.S. It is possible to create a zip file which will unzip to a copy of itself (a quine). You can also make one that unzips to multiple copies of itself. Therefore, if you recursively unzip a file forever, the maximum possible size is infinite. The only limitation is that it can increase by at most 1032 on each iteration.
P.P.S. The 1032 figure assumes that file data in the zip are disjoint. One quirk of the zip file format is that it has a central directory which lists the files in the archive and offsets to the file data. If you create multiple file entries pointing to the same data, you can achieve much higher compression ratios even with no nesting, but such a zip file is likely to be rejected by parsers.