| Inscriptions |
|
Abbreviations in Latin Inscriptions
Conceived and compiled by Tom Elliott
(thomase@mindspring.com)
for the ASGLE web site
| Copyright 1998 by Tom Elliott
These lists may be used, reproduced and distributed for any academic purpose that
does not generate profit so long as the title and authorship information, and the
copyright notice, remain attached.
|
This page provides access to a series of lists containing abbreviations
found in Latin inscriptions. The series represents a new compilation of
such abbreviations, assembled from digital texts of all Latin inscriptions
published in L'Année Épigraphique between 1888 and
1993. For a description of the methods used to compile these lists (and
the limitations resulting therefrom) please see the
Methods and Limitations section, below.
There are two sets of lists, one containing common abbreviations (those
occuring more than 10 times in the inscriptions sampled), and another containing
all the abbreviations that occur in the inscriptions sampled. Please note
the file sizes listed next to each link; the complete listings in particular
are quite large and may take a significant amount of time to download and
format for viewing.
Common Abbreviations in Latin Inscriptions Published in AE 1888-1993
Click on the letter to view the list:
| Initial letter of abbreviation |
Number of abbreviations |
File size (in KB) |
| A |
25 |
9 |
| B |
5 |
3 |
| C |
26 |
12 |
| D |
14 |
7 |
| E |
3 |
2 |
| F |
16 |
7 |
| G |
4 |
2 |
| H |
3 |
2 |
| I |
8 |
3 |
| K |
2 |
2 |
| L |
12 |
5 |
| M |
22 |
10 |
| N |
8 |
3 |
| O |
2 |
2 |
| P |
38 |
16 |
| Q |
5 |
3 |
| R |
3 |
2 |
| S |
21 |
9 |
| T |
8 |
4 |
| U |
2 |
1 |
| V |
16 |
6 |
| X (no list) |
0 |
|
| Z (no list) |
0 |
|
All Abbreviations in Latin Inscriptions Published in AE 1888-1993
Click on the letter to view the list:
| Initial letter of abbreviation |
Number of abbreviations |
File size (in KB) |
| A |
3304 |
304 |
| B |
704 |
62 |
| C |
3715 |
322 |
| D |
2139 |
196 |
| E |
683 |
55 |
| F |
1744 |
157 |
| G |
548 |
47 |
| H |
804 |
73 |
| I |
1739 |
157 |
| K |
478 |
43 |
| L |
1555 |
139 |
| M |
2139 |
187 |
| N |
811 |
69 |
| O |
483 |
39 |
| P |
3479 |
320 |
| Q |
652 |
59 |
| R |
549 |
46 |
| S |
2368 |
201 |
| T |
1388 |
118 |
| U |
274 |
22 |
| V |
1583 |
146 |
| X |
56 |
6 |
| Z |
19 |
2 |
Method and Limitations
Definition of 'abbreviation'
Two types of abbreviations are represented in the lists above. First,
there are those Latin words that were abbreviated in epigraphical texts
by the omission of one or more letters, often at the end, although sometimes
in the middle or in several places in the word. Second, there are those
phrases that, in the engraving, consist of a series of words that are each
abbreviated in the manner just described. Both these meta-abbreviations
and the individual abbreviated words they contain are recorded in the lists.
For example, if the meta-abbreviation VSLM = v(otum) s(olvit) l(ibens)
m(erito) was encountered in a text, the meta-abbreviation VSLM will
have an entry in the "V" list and each word will have its own entry in
the appropriate list (i.e., V = v(otum) in the "V" list, S = s(olvit)
in the "S" list, and so on). See the Limitations
section below for some exceptions to (and consequences of ) these rules.
Data source
The abbreviations contained in these lists were identified using the
digital texts of all Latin inscriptions published in AE 1888-1993
available from Dr. Manfred Clauss and the Ancient History Seminar at the
Johann Wolfgang Goethe-Universität in Frankfurt am Main,
Germany ( http://www.rz.uni-frankfurt.de/~clauss/).
Identification and classification
Abbreviations were identified in the data set using
software written expressly for the purpose. The following algorithm was used:
- Read each data file sequentially.
- If a word contains a parenthesis, mark it as an abbreviation. If the preceding
word was marked as an abbreviation add this one to all uninterrupted preceding
abbreviations to build the meta-abbreviation.
- If a word does not contain a parenthesis or if the end of a text has been
reached, and if a meta-abbreviation is being recorded, conclude it and
store it with the single-word abbreviations.
- Once all data files have been parsed, review the abbreviations identified,
group and sort them, reconstruct the inscribed letters by removing all
parentheses and their content, strip out all sigla except parentheses,
and store the resulting data with formatting in HTML files.
- If an abbreviation (i.e., a particular sequence of inscribed letters that
corresponds to any of a number of possible abbreviated words or phrases)
occurs more than 10 times in the data, store its description in both the
common and complete lists. If it occurs less than 10 times, store it only
in the "complete" list.
Limitations
Several consequences of the identification and classification approach
outlined above can be observed in the data:
- The identification of an abbreviation as an abbreviation, and its supplementation
to the corresponding Latin word or phrase, is dependent entirely upon the
decisions of the original editor and upon the accuracy of the digital text.
No independent attempt has been made to verify the accuracy of the texts
or to explore other options for abbreviation supplements.
- Common short abbreviated phrases that are often incorporated into longer
abbreviated phrases may not be identified separately in the common lists.
For example, the abbreviation BM = b(ene) m(erenti) occurs 817 times
in the data, but it almost always occurs as part of a larger phrase (e.g.,
BMP = b(ene) m(erenti) p(osuit), CGBM = c(oniu)g(i) b(ene) m(erenti)).
Because of this tendency, BM occurs by itself less than 10 times in the
data. Because the algorithm outlined above is not capable of recognizing
meta-abbreviations within larger meta-abbreviations, the meta-abbreviation
BM does not appear in the common list, it only appears in the complete
list (and that only because it does appear by itself at least once). Moreover,
there is so much variation in the number of meta-abbreviations containing
BM that each of these occurs less than 10 times. The result: no meta-abbreviation
containing BM appears in the B common list at all. An enhanced version
of the processing software is planned which will reprocess the meta-abbreviation
data looking for sub-abbreviations that match other meta-abbreviations
identified in the first pass, but for the present, this shortcoming constitutes
the greatest limitation for anyone who might wish to use the common lists
in instruction.
- Because the algorithm identifies abbreviations solely on the basis of the
appearance of parentheses in the source data, misspellings (and variant
spellings) "corrected" by an editor are recorded amongst the abbreviations.
This classification occurs because, in the Frankfurt data, parentheses
are used to bracket both supplements for abbreviations and supplements
for accidentally omitted characters, often set off in other editions by
different sigla: <. A particular misspelling or character omission
in a particular word is by nature infrequent, therefore none of these have
made their way into the common lists. They do make some prominent appearances
in the complete lists, but it is hoped that their presence there will be
at least as instructive as it is disruptive.
- No pedagogical decisions have been made concerning the content of the common
lists. They are not lists of abbreviations encountered most often in inscriptions
taught in university courses. They consist simply of all abbreviations
occuring over 10 times in the source data. Nonetheless, comparison with
lists in the various epigraphical handbooks shows a significant degree
of commonality. One feature that separates these common lists from those
in the handbooks is the fact that all recorded supplements for a given
abbreviation (regardless of a given supplement's frequency) are included
in the common list. Although this may represent a challenge for students,
it also serves as a cautionary note concerning the power and perils of editorship.
Grammar Index