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Roman calendar

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The *Roman calendar* changed its form several times in the time between
the foundation of Rome  and the fall of the
Roman Empire . This article generally discusses the
early Roman or '*pre-Julian'* calendars . The calendar
used after 46 BC is discussed under Julian calendar .



/Fasti Antiates Maiores/—Painting of the Roman calendar about 60 BC,
before the Julian reform. Observe (/enlarged /) that it contains the
months /Quintilis / ("QVI") and /Sextilis / ("SEX"), and displays the
intercalary month ("INTER") as the far righthand column.


Contents

[hide ]

* 1 History 
* 2 Months 
* 3 Nundinal cycle 
* 4 Character of the day 
* 5 Years 
* 6 Converting pre-Julian dates 
* 7 See also 
* 8 Notes 
* 9 References and further reading 
* 10 External links 


[edit ] History

The original Roman calendar is believed to have been a lunar calendar
,^[1] which may have been based on one of the Greek lunar calendars . As
the time between new moons averages 29.5 days, its months were constructed
to be either hollow (29 days) or full (30 days). Full months were
considered powerful and therefore auspicious; hollow months were unlucky.
Unlike currently used dates, which are numbered sequentially from the
beginning of the month, the Romans counted backwards from three fixed
points: the *Nones*, the *Ides* and the *Kalends* of the following month.
This system originated in the practice of "calling" the new month when the
lunar crescent was first observed in the west after sunset. From the shape
and orientation of the new moon, the number of days remaining to the nones
would be proclaimed.

Roman writers claimed that their calendar was invented by Romulus , the
founder of Rome around 753 BC. His version contained ten months with the
vernal equinox in the first month. However, his months were not lunar:

Calendar of Romulus Martius (31 days) Aprilis (30 days) Maius (31 days)
Iunius (30 days) Quintilis (31 days) Sextilis (30 days) September (30
days) October (31 days) November (30 days) December (30 days)

The calendar year lasted 304 days and there were about 61 days of winter
which were not assigned to any month.^[2] The later months were named
based on their position in the calendar: /Quintilis/ comes from /quinque/
(meaning /five/), /Sextilis/ from /sex/ (meaning /six/), /September/ from
/septem/ (meaning /seven/), /October/ from /octo/ (meaning /eight/),
/November/ from /novem/ (meaning /nine/) and /December/ from /decem/
(meaning /ten/).

Numa Pompilius , the second of the seven traditional kings of Rome ,
reformed the calendar of Romulus by adding January and February around 713
BC to the original ten months, although Quintilis, Sextilis, September,
October, November and December no longer agreed with their position in his
calendar. Although Numa wanted to have a lunar year of 354 days, Romans
considered odd numbers to be lucky,^[3] so Numa added 51 days to the 304
days in the calendar of Romulus and took one day from each of the six
30-day months giving a total of 57 days to share between January and
February. January was given 29 days leaving February with the unlucky
number of 28 days, suitable for the month of purification. Of the eleven
months with an odd number of days, four had 31 days each and seven had 29
days each.

*Calendar of Numa* Civil calendar Religious calendar according to
Macrobius ^[2] and Plutarch ^[4] according to Ovid ^[5] (modern order due
to Decemviri , 450 BC)  according to Fowler ^[6] Ianuarius (29)  
Ianuarius Martius Februarius (28)  Martius Aprilis Martius (31)  Aprilis
Maius Aprilis (29)  Maius Iunius Maius (31)  Iunius Quintilis Iunius (29)  
Quintilis Sextilis Quintilis (31)  Sextilis September Sextilis (29)  
September October September (29)  October November October (31)  November
December November (29)  December Ianuarius December (29)  Februarius
Februarius

February was split into two parts, each with an odd number of days. The
first part ended with the /Terminalia/ on the 23rd, which was considered
the end of the religious year; the five remaining days formed the second
part. In order to keep the calendar year roughly aligned with the solar
year, a leap month (the *Mensis Intercalaris*, sometimes also known as
Mercedonius or Mercedinus), was added from time to time between the two
parts of February. This caused the second part of February to be
incorporated in the intercalary month as its last five days; there was
thus no change either in their dates or the festivals observed on them.
The resulting leap year was either 377 or 378 days long, depending on
whether Intercalaris began on the day after the Terminalia^[7] or the
second day after the Terminalia.^[8] Intercalaris had 27 days, its nones
were on the fifth and its ides on the thirteenth as usual; the next
following day was /a.d. XV Kal. Mart./^[9]

The decision to insert the intercalary month was the responsibility of the
/pontifex maximus /. On average, this happened roughly in alternate years.
The system of aligning the year through intercalary months broke down at
least twice: the first time was during and after the Second Punic War. It
led to the reform of the *Lex Acilia* in 191 BC, the details of which are
unclear, but it appears to have successfully regulated intercalation for
over a century. The second breakdown was in the middle of the 1st century
BC and may have been related to the increasingly chaotic and adversarial
nature of Roman politics at the time. The position of pontifex maximus was
not a full-time job; it was held by a member of the Roman elite, who would
almost invariably be involved in the machinations of Roman politics.
Because a Roman calendar year defined the term of office of elected Roman
magistrates , a pontifex maximus would have reason to lengthen a year in
which he or his allies were in power, or shorten a year in which his
political opponents held office. It was while Julius Caesar was pontifex
maximus that the calendar was overhauled, with the result being the Julian
calendar . The calendar reforms were completed during the reign of his
successor Augustus . Quintilis was renamed Iulius (July) in honour of
Julius Caesar in 44 BC and Sextilis was renamed Augustus (August) in
honour of Augustus in 8 BC.


[edit ] Months

The three reference dates were probably declared publicly when the lunar
conditions were observed. After the reforms of Numa Pompilius , they
occurred on fixed days.

* *Kalendae* (Kalends)—first day of the month, from which the word
"calendar " is derived; thought to have originally been the day of the new
moon . Interest on debt was due on Kalends. * *Nonae* (Nones)—thought to
have originally been the day of the half moon . * *Idūs* (Ides)—thought
to have originally been the day of the full moon . The Romans considered
this an auspicious day in their calendar. The word *ides* comes from Latin
, meaning "half division" (of a month).

The nones are related to the *nundinae*, the market days which fell on the
eighth day of the eight-day market week used by the Romans. They are so
called because, in the Roman system of inclusive counting, they came every
nine days. From the nones to the ides, there was exactly one market week.
From the ides to the end of the month (except in February), there were
exactly two market weeks; hence the mnemonic:

"March, May, July, October, These are they, Make nones the seventh, Ides
the fifteenth day."

In all other months, nones were on the fifth and ides on the thirteenth.
The preceding day was /Pridie/, e.g. /Prid. Id. Mart./ = 14 March. Other
days were /a.d. NN/, abbreviation for /ante diem NN/ (meaning "on the NNth
day before"),^[10] e.g. /a.d. III Kal. Oct./ = on the third day before the
October Kalends = 28 September (where this date refers to the early period
when September had only 29 days). The inclusive system of counting meant
that the second day before the fixed point did not exist (because it was
the same as /Pridie/, and the 'third' day was thus the day before that).
Some examples: /a.d. IV Non. Jan./ = 2 January; /a.d. VI Non. Mai./ = 2
May; /a.d. VIII Id. Apr./ = 6 April; /a.d. VIII Id. Oct./ = 8 October;
/a.d. XVII Kal. Nov./ = 16 October; /a.d. XVII Kal. Dec./ = 14 November
(where the date refers to the early period when November had only 29
days).

Some dates are sometimes known by the name of a festival that occurred on
them, or shortly afterwards. Such dates are known for the Feralia ,
Quirinalia and the Terminalia (though not yet for the Lupercalia ). These
dates are all after the Ides of February, which suggests that they are
connected with resolving an ambiguity that could arise in intercalary
years: dates of the form /a.d. [N] Kal. Mart./ were dates in late February
in regular years but were a month later in intercalary years. However, it
is much debated whether there was a fixed rule for using festival-based
dates. It has been suggested that dates like /a.d. X Terminalia/ (known
from an inscription in 94 BC) indicated that the year /was/ intercalary,
that it was /not/ intercalary, or that it /could/ be intercalary.

When Julius Caesar added a day to September, he added it to the end of the
month, so as not to disturb the dates of religious festivals in September,
but the effect was to increase the count of the day that immediately
followed the Ides:

/a.d. XVIII Kal. Oct./ = 18 days before the Kalends of October = 14
September

As a result, the position of all the following dates in September got
bumped up by one day. This has some unexpected effects. For example, the
emperor Augustus was born on 23 September 63 BC. In the pre-Julian
calendar this is eight days before the Kalends of October (or, in Roman
style, /a.d. VIII Kal. Oct./), but in the Julian calendar it is nine days
(/a.d. IX Kal. Oct./). Because of this ambiguity, his birthday was
sometimes celebrated on both dates, i.e. (for us) on both 23 and 24
September.


[edit ] Nundinal cycle

The Romans of the Republic, like the Etruscans , used a "market week" of
eight days, marked as A to H in the calendar. A /*nundina*/ was the market
day; etymologically, the word is related to /novem/, "nine," because the
Roman system of counting was inclusive. The market "week" is the nundinal
cycle. Since the length of the year was not a multiple of eight days, the
letter for the market day (known as a "nundinal letter") changed every
year. For example, if the letter for market days in some year was A and
the year was 355 days long, then the letter for the next year would be F.

The nundinal cycle formed a basic rhythm of day-to-day Roman life; the
market day was the day that country people would come to the city, and the
day that city people would buy their eight days' worth of groceries. For
this reason, a law was passed in 287 BC (the /Lex Hortensia/) that forbade
the holding of meetings of the /comitia/ (for example to hold elections)
on market days, but permitted the holding of legal actions. In the late
republic, a superstition arose that it was unlucky to start the year with
a market day (i.e. for the market day to fall on 1 January, with a letter
A), and the pontiffs , who regulated the calendar, took steps to avoid it.

Because the nundinal cycle was absolutely fixed at eight days under the
Republic, information about the dates of market days is one of the most
important tools we have for working out the Julian equivalent of a Roman
date in the pre-Julian calendar. In the early Empire, the Roman market day
was occasionally changed. The details of this are not clear, but one
likely explanation is that it would be moved by one day if it fell on the
same day as the festival of Regifugium , an event that could occur every
other Julian leap year. When this happened the market day would be moved
to the next day, which was the bissextile (leap) day.

The nundinal cycle was eventually replaced by the modern seven-day week ,
which first came into use in Italy during the early imperial period, after
the Julian calendar had come into effect. The system of nundinal letters
was also adapted for the week, see dominical letter . For a while, the
week and the nundinal cycle coexisted, but by the time the week was
officially adopted by Constantine in AD 321 the nundinal cycle had fallen
out of use. For further information on the week, see week and days of the
week .


[edit ] Character of the day

Each day of the Roman calendar was associated with a "character", which
was marked in the fasti . The most important of these were /dies fasti/,
marked by an *F*, on which legal matters could normally be heard, /dies
nefasti/, marked by an *N*, on which they could not, and /dies
comitiales/, marked by a *C*, on which meetings of the public assemblies
known as /comitia/ were permitted, subject to other constraints such as
the /Lex Hortensia /. A few days had a different character, e.g. *EN*
(/endotercissus/ or perhaps /endoitio exitio nefas/), a day in which legal
actions were permitted on half of the day only, and *NP*, which were
public holidays.


[edit ] Years



Fragment of an imperial-age consular fasti, Museo Epigrafico, Rome

In the Roman Republic , the years were not counted. Instead they were
named after the consuls who were in power at the beginning of the year
(see List of Republican Roman Consuls ). For example, 205 BC was /The year
of the consulship of Publius Cornelius Scipio Africanus and Publius
Licinius Crassus/. Lists of consuls were maintained in the fasti .

However, in the later Republic, historians and scholars began to count
years from the founding of the city of Rome. Different scholars used
different dates for this event. The date most widely used today is that
calculated by Varro , 753 BC, but other systems varied by up to several
decades. Dates given by this method are numbered /ab urbe condita /
(meaning /from the founding of the city/, and abbreviated AUC). When
reading ancient works using AUC dates, care must be taken to determine the
epoch used by the author before translating the date into a Julian year.

The first day of the consular term, which was effectively the first day of
the year, changed several times during Roman history. It became 1 January
in 153 BC. Before then it was 15 March. Earlier changes are a little less
certain. There is good reason to believe it was 1 May for most of the 3rd
century BC, till 222 BC. Livy mentions consulates starting on 1 July
before then, and arguments exist for other dates at earlier times.


[edit ] Converting pre-Julian dates

The fact that we use the same month names as the Romans encourages us to
assume that a Roman date occurred on the same Julian date as its modern
equivalent. This assumption is not correct. Even early Julian dates,
before the leap year cycle was stabilised, are not quite what they appear
to be. For example, it is well known that Julius Caesar was assassinated
on the Ides of March in 44 BC, and this is usually converted to 15 March
44 BC. While he was indeed assassinated on the 15th day of the *Roman*
month Martius, the equivalent date on the modern Julian calendar is
probably 14 March 44 BC.

Finding the exact Julian equivalent of a pre-Julian date can be very hard.
Since we have an essentially complete list of the consuls, it is not
difficult to find the Julian year that generally corresponds to a
pre-Julian year. However, our sources very rarely tell us which years were
regular, which were intercalary, and how long an intercalary year was.
Nevertheless, we do know that the pre-Julian calendar could be
substantially out of alignment with the Julian calendar. Two precise
astronomical synchronisms given by Livy show that in 168 BC the two
calendars were misaligned by more than two months, and in 190 BC they were
four months out of alignment.

We have a number of other clues to help us reconstruct the Julian
equivalent of pre-Julian dates. First, we know the precise Julian date for
the start of the Julian calendar (although there is some uncertainty even
about that), and we have detailed sources for the previous decade or so,
mostly in the letters and speeches of Cicero . Combining these with what
we know about how the calendar worked, especially the nundinal cycle, we
can accurately convert Roman dates after 58 BC relative to the start of
the Julian calendar. Also, the histories of Livy give us exact Roman dates
for two eclipses in 190 BC and 168 BC, and we have a few loose
synchronisms to dates in other calendars which help to give rough (and
sometimes exact) solutions for the intervening period. Before 190 BC the
alignment between the Roman and Julian years is determined by clues such
as the dates of harvests mentioned in the sources.

Combining these sources of data, we are able to estimate approximate
Julian equivalents of Roman dates back to the start of the First Punic War
in 264 BC. However, while we have enough data to make such
reconstructions, the number of years before 45 BC for which we can convert
pre-Julian Roman dates to Julian dates with certainty is very small, and
several reconstructions of the pre-Julian calendar are possible. A
detailed reconstruction giving conversions from pre-Julian dates into
Julian dates is available.^[11]


[edit ] See also

* Ancient Rome * Julian calendar * Gregorian calendar * Ab urbe condita *
Roman festivals


[edit ] Notes

1. *^ * According to Livy , Numa's calendar was lunisolar with lunar
months and several intercalary months spread over nineteen years so that
the Sun returned in the twentieth year to the same position it had in the
first year. (Livy, /History of Rome / 1.19) (William Smith, /A Dictionary
of Greek and Roman Antiquities/ (London: 1875) "Calendarium ", Year of
Numa) 2. ^ ^/*a*/ ^/*b*/ Macrobius, /Saturnalia/, tr. Percival Vaughan
Davies (New York: Columbia University Press, 1969), book I, chapters
12–13, pp. 89–91. 3. *^ * Theodor Mommsen, /History of Rome, Book I /
chapter 14 4. *^ * Plutarch, /Life of Numa / chapter 18. 5. *^ * Ovid,
/Fasti /, tr. A.S. Kline (2004), Book II (February), last eight lines of
introduction. 6. *^ * W. Warde Fowler, /The Roman festivals of the period
of the republic / (London, 1899/1908), p.5. 7. *^ * Livy 45.44.3 for an
example of this in 167 B.C. 8. *^ * Livy 43.11.13 for an example of this
in 170 B.C. 9. *^ * This is the standard modern reconstruction, following
the discussion of intercalation in Michel's study of the pre-Julian
calendar. Other models have been proposed by earlier scholars, e.g. that
Intercalaris was 22 or 23 days inserted into the middle of February, or
that the length of February was fixed at 23 days in intercalary years and
the /mensis intercalaris/ was variable with 27 or 28 days. See e.g.
William Smith (ed.), /A Dictionary of Greek and Roman Antiquities/, John
Murray, /London/, 1875. 10. *^ * Syntax note: The Latins had a habit of
often inserting a phrase between a preposition and its noun. /a.d. III
Kal. Nov./ expands effectively to /ante (diem tertium) Kalendas
Novembres/, the /ante/ refers to the /Kalendas/, and the literal meaning
is 'on the third day' [accusative of time, and with an inclusive count as
already stated.] 'before the November kalends' [months being adjectival
back then]. In late Latin usage of the Roman dating method, the 'a.d.' was
sometimes dropped in favor of an ablative construction. (The equivalent
modern numeration is then 30 October, October having 31 days.) 11. *^ *
Roman Dates