Pre-Columbian American
Maya and Mexican
The lowland Maya had a 365-day year formed of 18 “months.” Each month consisted of 20 days, plus five “nameless” days, which the Maya considered an extremely dangerous and unlucky period and during which activities were kept to a minimum. Leap days were not intercalated.
Reckoning was not by those years but by tuns (360 days) and their multiples of 20: katuns (20 tuns), baktuns (400 tuns), pictuns (8,000 tuns), calabtuns (160,000 tuns), and kinchiltuns (3,200,000). In practice, the last three were seldom used. The tun comprised 18 uinals, each of 20 kins (days), but these did not coincide with the equivalent divisions of the 365-day year. The Maya normally carved or wrote these in descending order; students transcribe them in Arabic numerals—e.g., 9.10.6.5.9 represents nine baktuns, ten katuns, six tuns, five uinals, nine kins.
With this system, current dates were related to the start of the Maya era, which, because of the Maya system of re-entering cycles, marked both the end of 13 baktuns (written 13.0.0.0.0) and the start of another cycle of baktuns and perhaps commemorated a re-creation of the world, the baktun about to enter being numbered 1, not 14. Because of the construction of the calendar, this start of the era happened to be day 4 Ahau falling on the eighth day of the month Cumku.
Such reckonings are called Initial Series, or Long Counts, the former because they usually stand at the start of an inscription (see calendar: The Mayan calendar). For example, the combination day 8 Muluc, falling on second of Zip (third month), recurs every 52 years, but the Initial Series (here 9.10.6.5.9 8 Muluc 2 Zip) pinpoints its position. The next occurrence, 52 years later, would be 9.12.19.0.9 8 Muluc 2 Zip. Each unit had its own glyph (or symbolic character), with appropriate number (normally a dot for 1 and bar for 5) attached.
A shorter dating system was by “Period Endings”—that is, by recording the ending of the current baktun, katun, or tun. Thus, day 13 Ahau and month position 13 Muan with 13 tuns added is an abbreviation of 9.17.13.0.0 13 Ahau 13 Muan, a combination that will not repeat for over 900 years (949 tuns). A still shorter but less precise method was to give the day and its number ending the current katun.
Several Maya dates were commonly linked to Initial Series or Period Endings by series of additions or subtractions—a glyph signifying count indicated forward or backward by secondary attachments.
Dates were normally reckoned from the 4 Ahau 8 Cumku base, nearly 4,000 years before most inscriptions, but some calculations ranged far into the past and a few into the distant future. One reaches backward nearly 1,250,000 years, but the deepest probings of eternity are embodied in texts that seemingly record positions respectively 90,000,000 and 400,000,000 years ago. Although the interpretation of these last computations is disputable, the Maya certainly thought in millions of years a millennium before Europe discarded the view that the world was only some 6,000 years old.
The Maya conceived of time as a journey through eternity in which each deified number—all time periods and their numbers were gods—carried his period on his back supported by a tump line. Each evening the procession rested. Next morning, carriers whose period was completed were replaced. For instance, if the uinal and kin numbers were 15 and 19 respectively, the new carriers would be the deified 16 and 0 (the latter because kin numbers go no higher than 19). Other period numbers would journey on until it came time to change the tun carrier. Much ritual and imagery grew out of this concept of the march of time; sculpture illustrates bearers lowering their burdens at journey’s end.
Correlation of the Maya calendar with ours depends on several factors. First, the 260-day almanac still functions in some Maya villages in the Guatemalan highlands. As there is excellent evidence it has neither gained nor lost a day since the Spanish conquest, despite strong Spanish efforts to suppress it, one may reasonably assume no break under the more favourable pre-Columbian conditions. Lunar and other data support such a view. Second, month positions in Yucatán and southern Petén at the Spanish conquest also are reliably correlated to the day with the present Western calendar. Third, the combined day and month parts of the Maya calendar are in day-for-day agreement with the present Western calendar within a 52-year span (after that given day and month positions repeat). The katun (specifically, 13 Ahau) current at the Spanish conquest is, however, known, thereby fixing any day and month position in a longer range of 260 years because a named katun repeats only after 260 tuns. Those conditions produce a correlation of the two calendars that is either correct to the day or is 260 or even 520 years wrong, since historical evidence does not specify which particular katun 13 Ahau coincided with the Spaniards’ arrival. Fourth, such factors as astronomy (Maya records of heliacal risings of Venus and of many dates with moon age stated), pottery sequences, architectural changes (less reliable), and data from neighbouring areas govern choice of the applicable katun 13 Ahau. Weight of evidence led to wide acceptance of the Goodman–Martínez–Thompson correlation that equates 13.0.0.0.0 4 Ahau 8 Cumku, start of the Maya era, with August 10, 3114 bc, and the Classic period with ad 300 to 900. Fifth, when the carbon-14 dating technique was first applied to the problem, various difficulties attendant on the use of new techniques and failure to take into account that a tree dies year by year from its centre outward (so that a sample from the core might give a date well over a century before felling) distorted readings, producing results favourable to the correlation making Maya dates 260 years earlier. Now, with better technique and averaging of many “runs” of samples of latest growth from beams at Tikal with secure Maya dates, carbon-14 readings overwhelmingly support the Goodman–Martínez–Thompson correlation.
The only other Middle American calendar with a known era is that of the Cakchiquel of highland Guatemala. The system was vigesimal: kih, day; uinak, 20 days; a, 400 days; and may, 8,000 days. The 400-day “year” ran concurrently with the 260-day almanac, which, in turn, synchronized with all other Maya almanacs. Like the 360-day tun of the lowlands, the 400-day a was the counting unit, for reckoning was always in multiples of the a, never by days, as in our Julian calendar. May signifies twenty, and is so named because it comprised 20 a. At the arrival of the Spaniards, reckoning was from a revolt in ad 1493. Earlier eras may be postulated, but inscribed calendrical texts are lacking in Cakchiquel territory.