Babylonian calendar
The Babylonian calendar was a
The civil lunisolar calendar had years consisting of 12
Month names from the Babylonian calendar appear in the
Civil calendar
The Babylonian civil calendar, also called the cultic calendar, was a lunisolar calendar descended from the Nippur calendar, which has evidence of use as early as 2600 BCE and descended from the even older Third Dynasty of Ur (Ur III) calendar. The original Sumerian names of the months are seen in the orthography for the next couple millennia, albeit in more and more shortened forms. When the calendar came into use in Babylon circa 1780 BCE, the spoken month names became a mix from the calendars of the local subjugated cities, which were Akkadian. Historians agree that it was probably Samsu-iluna who effected this change.[3] During the sixth century BCE Babylonian captivity of the Jews, these month names were adopted into the Hebrew calendar.
The first month of the civil calendar during the Ur III and Old Babylonian periods was Šekinku (Akk. Addaru), or the month of barley harvesting, and it aligned with the
Until the 5th century BCE, the calendar was fully observational, and the intercalary month was inserted approximately every two to three years, at first by guidelines which survive in the MUL.APIN tablet. Beginning in around 499 BCE, the intercalation began to be regulated by a predictable lunisolar cycle, so that 19 years comprised 235 months.[3] Although this 19-year cycle is usually called the Metonic cycle after Meton of Athens (432 BCE), the Babylonians used this cycle before Meton, and it may be that Meton learned of the cycle from the Babylonians.[4] After no more than three isolated exceptions, by 380 BCE the months of the calendar were regulated by the cycle without exception. In the cycle of 19 years, the month Addaru 2 was intercalated, except in the year that was number 17 in the cycle, when the month Ulūlu 2 was inserted instead.[3]
During this period, the first day of each month (beginning at sunset) continued to be the day when a new crescent moon was first sighted—the calendar never used a specified number of days in any month. However, as astronomical science grew in Babylon, the appearance of the new moon was predictable with some accuracy into the short-term future. Still, during the Neo-Assyrian period (c. 700 BCE) the calendar was sometimes retroactively "shifted back" a day to account for the fact that the king should have declared a new month, but only did so the following day because of obstructive weather.[5]
Sumerian month names[3] | Akkadian month names[3] | Equivalents | |||
---|---|---|---|---|---|
Hebrew | Levantine and Iraqi | Gregorian | |||
1 | 𒌚𒁈𒍠(𒃻) ITIBARA2.ZAG(.GAR) – 'Month [the proxies of the gods are] placed besides the throne' | Araḫ Nisānu – 𒌚𒁈[6] [7] | Nisan
נִיסָן |
Naysān نَيْسَان | Mar/April |
2 | 𒌚[𒂡]𒄞𒋛𒋢 ITI[EZEM.]GU4.SI.SU – 'Month the horned oxen marched forth' | Araḫ Āru - 𒌚𒄞 – 'Month of the Blossoming'[6] | Iyar
אִיָּיר |
Ayyār أَيَّار | Apr/May |
3 | 𒌚𒋞𒄷𒋛𒊒𒁀𒂷𒃻 ITISIG4.U5.ŠUB.BA.GÁ.GAR – 'Month the brick is placed in the mold' | Araḫ Simanu – 𒌚𒋞 | Sivan
סִיוָן |
Ḥazīrān حَزِيرَان | May/Jun |
4 | 𒌚𒋗𒆰 ITIŠU.NUMUN – 'Month of preparing for seed, festival' | Araḫ Dumuzu – 𒌚𒋗 | Tammuz
תַּמּוּז |
Tammūz تَمُّوز | Jun/Jul |
5 | 𒌚𒉈𒉈𒃻 ITINE.IZI.GAR – 'Month when the braziers are lit' | Araḫ Abu – 𒌚𒉈 | Ab
אָב |
Āb آب | Jul/Aug |
6 | 𒌚𒆥𒀭𒈹 ITIKIN.dINANNA – 'Month of the rectification of Ishtar' | Araḫ Ulūlu – 𒌚𒆥 | Elul
אֱלוּל |
Aylūl أَيْلُول | Aug/Sep |
7 | 𒌚𒇯𒆬 ITIDU6.KÙ – 'Month of the Sacred Mound' | Araḫ Tišritum – 𒌚𒇯
'Month of Beginning'[8] |
Tishrei
תִּשְׁרֵי |
Tishrīn al-Awwal تِشْرِين الْأَوَّل | Sep/Oct |
8 | 𒌚(𒄑)𒀳𒂃𒀀 ITI(GIŠ)APIN.DU8.A – 'Month the plow is let go' | Araḫ Samnu – 𒌚𒀳
'Month the Eighth'[8] |
Cheshvan
מַרְחֶשְׁוָן/חֶשְׁוָן |
Tishrīn ath-Thānī تِشْرِين الثَّانِي | Oct/Nov |
9 | 𒌚𒃶𒃶(𒈬)𒌓𒁺 ITIGAN.GAN.(MU.)E3 – 'Month when the clouds(?) come out' | Araḫ Kislimu – 𒌚𒃶 | Kislev
כִּסְלֵו |
Kānūn al-Awwal كَانُون الْأَوَّل | Nov/Dec |
10 | 𒌚𒀊𒌓𒁺 ITIAB.E3 – 'Month of the father' | Araḫ Ṭebētum – 𒌚𒀊
'Muddy Month'[8] |
Tebeth
טֵבֵת |
Kānūn ath-Thānī كَانُون الثَّانِي | Dec/Jan |
11 | 𒌚𒍩𒀀 ITIZIZ2.A – 'Month for emmer' | Araḫ Šabaṭu – 𒌚𒍩 | Shebat
שְׁבָט |
Shubāṭ شُبَاط | Jan/Feb |
12 | 𒌚𒊺𒆥𒋻 ITIŠE.KIN.KU5 – 'Month of the cutting of corn, harvest month'[8][9][10] | Araḫ Addaru / Adār – 𒌚𒊺 | Adar
אֲדָר (אֲדָר א׳/אֲדָר רִאשׁון if there is an intercalary month that year) |
Ādhār آذَار | Feb/Mar |
13 | 𒌚𒋛𒀀𒊺𒆥𒋻 ITIDIRI.ŠE.KIN.KU5 – 'Additional harvest month' | Araḫ Makaruša Addari[citation needed]
Araḫ Addaru Arku – 𒌚𒋛𒀀𒊺 |
Adar II
אֲדָר ב׳/אֲדָר שֵׁנִי |
Mart (Âzâr) |
Accuracy
As a lunisolar calendar, the civil calendar aimed to keep calendar months in sync with the synodic month and calendar years in sync with the tropical year. Since new months of the civil calendar were declared by observing the crescent moon, the calendar months could not drift from the synodic month. On the other hand, since the length of a calendar year was handled by the Metonic cycle starting after 499 BCE, there is some inherent drift present in the formulaic computation of the new year when compared to the true new year. While on any given year the first day of the first month could be up to 20 days off from the vernal equinox, on average the length of a year was very well approximated by the Metonic cycle; the computed average length is within 30 minutes of the true solar year length.[11]
Administrative calendar
Since the civil calendar was not standardized and predictable for at least the first millennium of its use, a second calendar system thrived in Babylon during the same time spans, known today as the administrative or schematic calendar. The administrative year consisted of 12 months of exactly 30 days each. In the 4th and 3rd millennia BCE, extra months were occasionally intercalated (in which case the year is 390 days), but by the beginning of the 2nd millenium BCE it did not make any intercalations or modifications to the 360-day year.[3] This calendar saw use in areas requiring precision in dates or long-term planning; there is tablet evidence demonstrating it was used to date business transactions and astronomical observations, and that mathematics problems, wage calculations, and tax calculations all assumed the administrative calendar instead of the civil calendar.[1]
Babylonian astronomers in particular made all astral calculations and predictions in terms of the administrative calendar. Discrepancies were accounted for in different ways according to the heavenly measurements being taken. When predicting the phase of the moon, it was treated as if each ideal month began with a new moon, even though this could not be true. In fact, this guideline appears in the MUL.APIN, which goes on further to specify that months that began "too early" (on the 30th of the previous month) were considered unlucky, and months that began "on time" (the day after the 30th of the previous month) were considered auspicious. When discussing the dates of equinoxes and solstices, the events were assigned fixed days of the administrative calendar, with shortening or lengthening of intervening days taking place to ensure that the celestial phenomena would fall on the "correct" day. Which fixed day each phenomenon was assigned varied throughout time, for one because which month was designated first varied throughout history. In general, they were assigned to the 15th day of four equally spaced months.[3]
Seven-day week and Sabbath
Counting from the
Among other theories of
The rarely attested Sapattum or Sabattum as the
Impact
The Akkadian names for months surface in a number of calendars still used today. In Iraq and the Levant, the solar Gregorian calendar system is used, with Classical Arabic names replacing the Roman ones,[19] and the month names in the Assyrian calendar descend directly from Aramaic, which descended from Akkadian.[20] Similarly, while Turkey uses the Gregorian calendar in the present day, the names of Turkish months were inspired by the 1839 Rumi calendar of the Ottoman Empire, itself derived from the Ottoman fiscal calendar of 1677 based on the Julian calendar. This last calendar month names of both Syriac and Islamic origin, and in the modern calendar four of these names descend from the original Akkadian names.[21]
See also
Lunisolar calendars
Other systems
- Assyrian calendar
- Mandaean calendar
- Persian calendar
- Islamic calendar
- Solar Hijri calendar
References
Notes
Citations
- ^ ISBN 978-1-84217-302-2.
- ISBN 978-1-136-21912-2.
- ^ ISBN 978-1-84217-302-2.
- ISBN 0-7156-3301-5.
- ISBN 978-1-84217-302-2.
- ^ S2CID 165247741.
- ^ Tinney, Steve (2017). "barag [SANCTUM] N". Oracc: The Open Richly Annotated Cuneiform Corpus. Retrieved June 5, 2023.
- ^ a b c d Muss-Arnolt, W., The Names of the Assyro-Babylonian Months and Their Regents, Journal of Biblical Literature Vol. 11, No. 2 (1892), pp. 160-176 [163], accessed 9-8-2020
- JSTOR 23283452.
- ^ Tinney, Steve (2017). "ŠE.KIN kud [REAP]". Oracc: The Open Richly Annotated Cuneiform Corpus. Retrieved June 5, 2023.
- ISBN 978-1-383-02079-3.
- ^ a b Pinches, T.G. (1919). "Sabbath (Babylonian)". In Hastings, James (ed.). Encyclopedia of Religion and Ethics. Selbie, John A., contrib. Charles Scribner's Sons. pp. 889–891.
- ^ Landau, Judah Leo. The Sabbath. Johannesburg: Ivri Publishing Society, Ltd. pp. 2, 12. Retrieved 2009-03-26.
- ^ Joseph, Max (1943). "Holidays". In Landman, Isaac (ed.). The Universal Jewish Encyclopedia: An authoritative and popular presentation of Jews and Judaism since the earliest times. Vol. 5. Cohen, Simon, compiler. The Universal Jewish Encyclopedia, Inc. p. 410.
- ^ Joseph, Max (1943). "Sabbath". In Landman, Isaac (ed.). The Universal Jewish Encyclopedia: An authoritative and popular presentation of Jews and Judaism since the earliest times. Vol. 9. Cohen, Simon, compiler. The Universal Jewish Encyclopedia, Inc. p. 295.
- ^ Cohen, Simon (1943). "Week". In Landman, Isaac (ed.). The Universal Jewish Encyclopedia: An authoritative and popular presentation of Jews and Judaism since the earliest times. Vol. 10. Cohen, Simon, compiler. The Universal Jewish Encyclopedia, Inc. p. 482.
- ^ Sampey, John Richard (1915). "Sabbath: Critical Theories". In Orr, James (ed.). The International Standard Bible Encyclopedia. Howard-Severance Company. p. 2630.
- ^ Craveri, Marcello (1967). The Life of Jesus. Grove Press. p. 134.
- ^ Fröhlich, Werner. "The months of the Gregorian (Christian) calendar in various languages". GEONAMES. Archived from the original on 2011-07-17. Retrieved 2011-07-17.
- ISBN 978-0-19-968717-6.
- ^ Sener, Ömer; Sener, Mehmet. "Turkish Months of the Year". ielanguages.com. Archived from the original on 2023-09-30. Retrieved 2024-01-25.
Bibliography
- Parker, Richard Anthony and Waldo H. Dubberstein. Babylonian Chronology 626 BC.–AD. 75. Providence, RI: Brown University Press, 1956.
- W. Muss-Arnolt, The Names of the Assyro-Babylonian Months and Their Regents, Journal of Biblical Literature (1892).
- Sacha Stern, "The Babylonian Calendar at Elephantine" in Zeitschrift für Papyrologie und Epigraphik 130 (2000) 159–171 (PDF document, 94 KB)
- Fales, Frederick Mario, “A List of Umma Month Names”, Revue d’assyriologie et d’archéologie orientale, 76 (1982), 70–71.
- Gomi, Tohru, “On the Position of the Month iti-ezem-dAmar-dSin in the Neo-Sumerian Umma Calendar”, Zeitschrift für Assyriologie und Vorderasiatische Archäologie, 75 (1985), 4–6.
- Pomponio, Francesco, “The Reichskalender of Ur III in the Umma Texts”, Zeitschrift für Assyriologie und Vorderasiastische Archäologie, 79 (1989), 10–13.
- Verderame, Lorenzo, “Le calendrier et le compte du temps dans la pensée mythique suméro-akkadienne”, De Kêmi à Birit Nâri, Revue Internationale de l'Orient Ancien, 3 (2008), 121–134.
- Steele, John M., ed., "Calendars and Years: Astronomy and Time in the Ancient Near East", Oxford: Oxbow, 2007.