Basically, it's like they say: Compress text, and send it coded in a usefully way. But:
1) Common compression methods are heavier than text because of dictionaries. If the data is always an undetermined order of determined chunks of data (like in a text are words or syllabes, and numbers and some symbols) you could use always the same static dictionary, and don't send it (don't paste it on the URL). Then you can save the space of the dictionary.
1.a) If you are already sending the language (or if it's always the same), you could generate a dictionary per lang.
1.b) Take advantage of the format limitations. If you known it's a number, you can code it directly (see 3). If you known it's a date, you could coded as Unix-time (seconds since 01/01/1970), so "21/05/2013 23:45:18" turns "519C070E" (hex); if it's a date of the year, you could coded as days since new year including 29/02 (25/08 would be 237).
1.3) You known emails has to follow certain rules, and usually are from the same few servers (gmail, yahoo, etc.) You could take advantages of that to compress it with your own simple method:
email@example.com,firstname.lastname@example.org,email@example.com => samplemail1:1,samplemail2:5,samplemail3@idontknowyou:1
2) If the data follows patterns, you can use that to help compression. For example, if always follows this patter:
name=[TEXT 1]&phone=[PHONE]&mail=[MAIL]&desc=[TEXT 2]&create=[DATE 1]&modified=[DATE 2]&first=[NUMBER 1]&last=[NUMBER 2]
2.a) Ignore the similar text, and compress just the variable text. Like:
[TEXT1]|[PHONE]|[MAIL]|[TEXT 2]|[DATE 1]|[DATE 2]|[NUMBER 1][NUMBER 2]
2.b) Encode or compress data by type (encode numbers using base64 or similar). Like at 1). This allows you even to supress separators. Like:
[DATE 1][DATE 2][NUMBER 1][NUMBER 2][PHONE][MAIL]|[TEXT 1]|[TEXT 2]
3.a) While it is true that if we compress coding with characters not supported by HTTP, they will be transformed into a more heavy ones (like 'año' => 'a%C3%B1o'), that can still be useful. Maybe you wanna compress it for store it at a Unicode or binary database, or to pasteit at web sites (Facebook, Twitter, etc.).
3.b) Although Base64 it is a good method, you can squeeze more at the expense of speed (as you use user functions instead of compiled ones).
So, we can buil our one "Base 80" (d)encode functions.