It depends on various aspects. When using the standard "seconds since epoch", and someone uses only integer precision, their dates are limited to the 1970-2038 year range.
But there also is some precision issue. For example, unix time ignores leap seconds. Every day is defined to have the same number of seconds. So when computing time deltas between unix time, you do get some error.
But the more important thing is that you assume all your dates to be completely known, as your representation does not have the possibility to half only half-specified dates. In reality, there is a lot of events you do not know at a second (or even ms) precision. So it is a feature if a representation allows specifing e.g. only a day precision. Ideally, you would store dates with their precision information.
Furthermore, say you are building a calendar application. There is time, but there also is local time. Quite often, you need both information available. When scheduling overlaps, you of course can do this best in a synchronized time, so longs will be good here. If you however do also want to ensure you are not scheduling events outside of 9-20 h local time, you also always need to preserve timezone information. For anything that does span more than one location, you really need to include the time zone in your date representation. Assuming that you can just convert all dates you see to your current local time is quite naive.
Note that dates in SQL can lead to odd situations. One of my favorites is the following MySQL absurdity:
SELECT * FROM Dates WHERE date IS NULL AND date IS NOT NULL;
may return records that have the date
0000-00-00 00:00:00, although this violates the popular understanding of logic.