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Tzolk'in (Mayan pronunciation: [t͡sol ˈkʼin], formerly and commonly tzolkin) is the name bestowed by Mayanists on the 260-day Mesoamerican calendar originated by the Maya civilization of pre-Columbian Mesoamerica.
The tzolk'in, the basic cycle of the Maya calendar, is a preeminent component in the society and rituals of the ancient and the modern Maya. The tzolk'in is still in use by several Maya communities in the Guatemalan highlands. Its use is marginal but spreading in this region, although opposition from Evangelical Christian converts continues in some communities.
The word tzolk'in, meaning "division of days", is a western coinage in Yukatek Maya. There are various terms in actual use in the languages of Maya groups who have maintained an unbroken count for over 500 years: The K'iche' use the term Aj Ilabal Qʼij [aχ ilaɓal ʠiχ] or Rajilabal Kʼij [ɾaχ ilaɓal ʠiχ], 'the sense of the day' or 'the round of the days' and the Kaqchikel use the term Chol Qʼij [tʃol ʠiχ], 'the organization of time'. The names of this calendar as used by the pre-Columbian Maya are not widely known. The corresponding Postclassic Aztec calendar, was called tonalpohualli, in the Nahuatl language.
The twenty day names
The tzolk'in calendar combines a cycle of twenty named days with another cycle of thirteen numbers (the trecena), to produce 260 unique days (20 × 13 = 260). Each successive named day is numbered from 1 to 13 and then starting again at 1. There are 20 individual named days:
glyph example 3
glyph example 4
Classic Maya 6
|Associated natural phenomena|
or meaning 7
|01||Imix'||Imix||Imix (?) / Ha' (?)||waterlily, crocodile|
|02||Ik'||Ik||Ik'||wind, breath, life force|
|03||Ak'b'al||Akbal||Ak'b'al (?)||darkness, night, early dawn|
|04||K'an||Kan||K'an (?)||Net, sacrifice|
|08||Lamat||Lamat||Ek' (?)||Venus, star, ripe(ness), maize seeds|
|09||Muluk||Muluc||(unknown)||jade, water, offering|
|13||B'en||Ben||(unknown)||green/young maize, seed|
|20||Ajaw||Ahau||Ajaw||lord, ruler, sun|
The tzolk'in does not have a generally recognized start and end, although there are specific references in the books of Chilam Balam to 1 Imix as the beginning day.
Each of the twenty days has its specific primary association connected to the day name's meaning.
- Imix : 'Crocodile' - the reptilian body of the planet earth, or world
- Ik : 'Wind' - breath, life. Also violence.
- Akbal : 'Night-house' - darkness, the underworld, realm of the nocturnal jaguar-sun.
- Kan : 'Maize' - sign of the young maize lord who brings abundance, ripeness. Also lizard, net.
- Chicchan : 'Snake' - the celestial serpent
- Cimi : 'Death'
- Manik : 'Deer' - sign of the Lord of the Hunt
- Lamat : 'Rabbit' - sign of the planet Venus, sunset. The glyph may depict four grains of maize. Invoked by the feminine name "Ixq'anil" by Xquic.
- Muluc : 'Water' - symbolised by jade, an aspect of the water deities, fish. Invoked by the feminine name "Ixtoj" by Xquic.
- Oc : 'Dog' - who guides the night sun through the underworld.
- Chuen : 'Monkey' - the great craftsman, patron of arts and knowledge. Also thread.
- Eb : 'Grass' or 'Point' - associated with rain and storms.
- Ben : 'Reed' - who fosters the growth of corn, cane, and man.
- Ix : 'Jaguar' - the night sun. Also maize. Associated with the goddess Ixchel.
- Men : 'Eagle' - the wise one, bird, moon
- Cib : 'Owl/Vulture' - death-birds of night and day. Also wax, soul, insect.
- Caban : 'Earthquake' - formidable power. Also season, thought.
- Etz'nab : 'Knife' - the obsidian sacrificial blade.
- Cauac : 'Rain' or 'Storm' - the celestial dragon serpents and the chacs, gods of thunder and lightning.
- Ahau : 'Lord' - the radiant sun god. Also associated with the Mayan hero twins.
The variant names and associations below are common to three post-conquest Guatemalan highland calendars, whose interpretations are based primarily on an 1854 manuscript by Hernandez Spina.
- Imox is a bad day, associated with the insane, on which the priests of the sun pray that harm may come to their enemies through evil spirits.
- Iq is a bad day, symbolic in the same way of the destructive forces of nature; that power is localized in stone idols, who are honored with incense, roses, candles, pine needles, and aguardiente. Tumours and painful swellings are attributed to the influence of this day.
- Aqabal is a bad day on which the priests of the sun go to shrines to pray against their enemies. The day is symbolic of evil in general and of slanderers in particular.
- Kat is a bad day in the same sense as Aqabal, symbolic of evil in general.
- Kan is a bad day. It brings sickness and is symbolic of the arbitrary cruelty of nature.
- Kame is recorded as a bad day by one 19th century source and as a good day by one 20th century source, Ruth Leah Bunzel. It is symbolic of the ultimate dissolution of everything good and everything evil by death. It is a good day to confess one's evil deeds, and ask for pardon.
- Keej is a good day on which wishes are made. It is a good day to ask favors and to commemorate ancestors.
- Qanil is a good day, sacred to fertility gods, associated with human nourishment, the growth of crops, the cycle of death and rebirth, and of the milpa. After the harvest is completed, thanksgiving is made on Qanil.
- Toj is a bad day, symbolized by sickness, and anyone born on it will be perverse. It is a good day to wish sickness upon an enemy.
- Tzi is a bad day, symbolized by sexual depravity. No ceremonies must ever be held on this day.
- Batz is a bad day, symbolized by paralysis. According to some, it is a good day, symbolic of the ancestors.
- E is a good day, symbolized by destiny, fortune, and the essential characteristics of one's personality. It is a day on which marriages may be held, and sacrifices to benign deities may be made.
- Aj is a good day, consecrated to fertility gods, herdsmen, and domesticated animals. The day is symbolic of one's destiny as embodied in one's nagual.
- Ix is a good day, sacred to the mountain and forest spirits. On this day, protection may be sought from wolves and wild predators, in favor of flocks and animals. The day is symbolic of the creative force in general, and of the earth itself.
- Tzikin is the most excellent day of all. Double offerings are made at shrines, in forests, and in caves. It is a day on which wishes may be made, forgiveness may be sought, and important matters may be finalized.
- Ajmaq is also a very good day, on sacred to the spirits that preside over good health.
- Noj is an auspicious day, on which good judgement may be prayed for. The day is symbolic both of humanity's amoral and moral qualities.
- Tijax is a good day. It is a day of verbal arguments, and a good day to confess sins.
- Kawoq is recognized as an indifferent day or a bad day. It is symbolic of the malice of the dead.
- Junapu or Ajpu is an indifferent day, neither a bad or good portent, on which the power of the ancestors is embodied by the house itself.
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The tzolk'in was extensively used in Mayan inscriptions and codices. Symbolism related to the tzolk'in is also observed in the Popol Vuh (which, though written in the early post-conquest period, is probably based on older texts). For instance, when Ixbalanque has set an impossible task for Ix Quic of collecting a netful of corn from one stalk and Ix Quic successfully completes it, she leaves the imprint of her net in the ground, and the day "net" is the opening of the Venus cycle which follows "ahau" ("ajpu" in K'iche'), just as her child is the heir of Hun Hunajpu.
The uses to which the ancient Maya applied the calendar are unknown, nonetheless modern Maya communities employ the calendar as follows:
- For Maize cultivation.(The zenith transit days may have been significant for agriculture along the south coast of Guatemala because April 30 occurs just before the rainy season. Modern Maya plant their corn at the end of April or early in May. In the August 13 zenith transit the Maya initiate its current era in this day', approximating the harvest of the dried corn.
- For modern Guatemalan highlanders, the 260 days are employed in training the Aj K'ij, or 'calendar diviner'. Nine months after commencing training in divination, the novice is "reborn" and initiated into office. The tzolk'in is explainable, in principle, as a calendar of midwives, since it counts 260 days from the 20-day period of the conception, from when the heart of the fetus starts to beat, until birth.
- For rituals performed every 260 days. Most famous of these is the "Initiation" celebration of 8 Chuwen, Waxakib' B'atz, in the K'iche town of Santa Cruz del Quiche.
- For days which are suitable for certain actions. For instance, a low-numbered Ak'ab'al or B'en would be a good day for a wedding, whereas K'an would be a good day for building or maintaining a house.
- For divination based on casting lots and counting forward through the calendar from the current 'year bearer' to arrive at a day which is then interpreted. This is not pure cleromancy because somatic twitches of "blood lightning" can either be specifically consulted or arise spontaneously during the process.
- For traditional Mayan names, which are based on calendar days, often birthdays. As in other systems of astrology, personal characteristics are associated with birthdays.
The 260-day calendar spread throughout the Mesoamerican cultural region and is regarded as the oldest and most important of the calendar systems, with an origin predating its first appearances in Maya inscriptions. The earliest evidence of this calendar comes from a possible day sign with a dot numeral coefficient in an Olmec-like inscription in Oxtotitlán cave dated to 800-500 BCE. Some of the next oldest calendric inscriptions are from early strata of Zapotec in the Oaxacan highlands at sites such as Monte Albán, dating from mid-1st millennium BCE. A few earlier-dated inscriptions and artifacts have what appear to be calendric glyphs, such as at San José Mogote and in the Olmec Gulf Coast region. However, either the dating method or the calendric nature of the glyphs are disputed by scholars.
The original purpose of such a calendar, with no obvious relation to any astronomical or geophysical cycle, is not securely known, but there are several theories. One theory is that the calendar came from mathematical operations based on the numbers thirteen and twenty, which were important numbers to the Maya, (Thompson 1950: Maya Hieroglyphic Writing:Introduction). The number twenty was the basis of the Maya counting system, taken from the total number of human digits. (See Maya numerals). Thirteen symbolized the number of levels in the Upperworld where the gods lived, and is also cited by modern daykeepers as the number of "joints" in the human body (ankles, knees, hips, shoulders, elbows, wrists, and neck). The numbers multiplied together equal 260.
Barbara Tedlock, studied this system in the contemporary K'iche Maya community of the municipality of Momostenango in highland Guatemala. She underwent a formal apprenticeship in calendar divination with a local adept, and was initiated as a diviner in 1976. She says: "The Momostecan calendar embraces both the 260-day cycle and the 365-day solar year, with the four Classic Maya Year-bearers, or Mam, systematically linking the two. The 260-day cycle is conceived as linked firmly to worldly or earthly affairs, mirroring no astronomical period but rather the period of human gestation. Past ethnographic accounts of this cycle contain various conflicting opinions as to what its first day is, but a comparison of the present results and those of previous studies indicates that there is no fixed first day."
Anthony Aveni asserts, "Once a Maya genius may have recognized that somewhere deep within the calendar system lay the miraculous union, the magical crossing point of a host of time cycles: 9 moons, 13 times 20, a birth cycle, a planting cycle, a Venus cycle, a sun cycle, an eclipse cycle. The number 260 was tailor made for the Maya". Others have observed that the "Venus Table" in the Dresden Codex, is an accurate ephemeris for predicting Venus positions. Others have also observed a basis for the 260-day cycle in the agricultural cycle of highland Guatemala, which is also about 260 days. Aveni notes that "the average duration between successive halves of the eclipse season, at 173 ½ days, fits into the tzolkin in the ratio of 3 to 2." This may seem contrived, but the Maya did employ the tzolkin to predict positions of Venus and eclipses.
Another theory is that the 260-day period is the length of human pregnancy. This is close to the average number of days between the first missed menstrual period and birth, unlike Naegele's rule which is 40 weeks (280 days) between the last menstrual period and birth. It is postulated that midwives originally developed the calendar to predict babies' expected birth dates.
Vincent Malmström identifies a correlation between the 260-day cycle and the 260-day gap between zenithal passages of the sun. According to this hypothesis, the 260-day cycle originated in the narrow latitudinal band (14°42′N to 15°N) in which the sun is vertically overhead about 12–13 August and again 260 days later about 30 April – 1 May (Malmström identifies the proto-Classic Izapan culture as one suitable candidate at this latitude). This period may have been used for the planting schedule of maize. However, others object to this conception, noting that while the 260-day calendar runs continuously the interval between autumn-spring and spring-autumn positions alternates between 260 and 105 days, and that the earliest-known calendric inscriptions are from considerably further north of this zone. Consequently, this theory is not widely supported.
It is also possible that the number 260 has multiple sources.
The tzolk'in and the New Age movement
The tzolk'in is the basis for the modern, New Age invention of the "Dreamspell" calendar, developed by the esoteric author José Argüelles. The Dreamspell calendar is sometimes mistakenly identified as an authentic interpretation or extension of the original Maya calendar, although Argüelles himself acknowledges the Dreamspell calendar is a new and syncretic creation, inspired by elements from Mesoamerican and non-Mesoamerican sources.
In 1987, before the Harmonic Convergence, inspired by a single paragraph of Argüelles's book "The Mayan Factor" (wherein he refers to each day as a "tone"), singer/songwriter and sound healer, Alyras (aka Mirai), translated the tzolk'in's harmonic values into sound, with the tutelage of Barbara Hero. Eschewing extensions of the tzolk'in, Alyras opted for strict mathematical adherence to the tzolk'in's fundamental structure and sequences, in order to present a truly authentic sonic expression of its inner workings.
In 1995, Maria von Boisse translated the mathematical matrix of the tzolk'in to musical notes and set them into music. The final version of the work was developed in collaboration with Hubert Bognermayr in the Electronic Försterhaus in Linz, Austria.
- from the revised Guatemala Mayan languages Academy orthography, which is preferred by the linguists of the Summer Institute of Linguistics
- The modern orthography and reconstructed Classic Maya names in the table follow the summary provided in Kettunen and Helmke (2005). The associations are based on Miller and Taube (1993), p.49.
- The particular associations given below are based on Wright (1989).
- The full three calendars, and information derived from Spina, are given by Weeks et al. (2009).
- Dennis Tedlock (translator and editor), Popol Vuh: The Definitive Edition Of The Mayan Book Of The Dawn Of Life, 1996
- Miller and Taube (1993), pp.48–50.
- David C. Grove, “The Olmec paintings of Oxtotitlan Cave, Guerrero, Mexico,” (Washington, D.C., Dumbarton Oaks, 1970) 20.
- See Lo's summary at Mesomerican Writing Systems (n.d.).
- Tedlock (1982, pp.174–177).
- Aveni (2000, p.202).
- "O Códice de Dresden". World Digital Library. 1200–1250. Retrieved 2013-08-21.
- Aveni (2000, p.201).
- See e.g. Miller and Taube (1993, pp.46, 48.)
- Malmström (1973), Zelia Nuttall (1928) and Ola Apenes (1936).
- See for example the separate review comments to Malmström's 1973 paper by John Henderson and Arthur Fitchett and their associated citations, appearing in the 9 August 1974 edition of Science (reprinted (PDF).
- See "Ascension: The Tzolk'in Series" and "The Radiant Tzolk'in" for both audio and audiovisual expressions of the tzolk'in, respectively
- "TZOLKIN – the sacred Mayan calendar (Part I. Of Tolteca)"[permanent dead link]
- Aveni, Anthony F. (2000). Empires of Time: Calendars, Clocks, and Cultures (reprint of 1990 original ed.). London: Tauris Parke. ISBN 1-86064-602-6. OCLC 45144264.
- Kettunen, Harri; Christophe Helmke (2005). Introduction to Maya Hieroglyphs (PDF). Wayeb and Leiden University. Retrieved 2006-05-05.
- Lo, Lawrence (n.d.). "Mesoamerican Writing Systems". Ancient Scripts. Ancientscripts.com. Archived from the original on 2006-11-16. Retrieved 2006-11-15.
- Malmström, Vincent H. (1973). "Origin of the Mesoamerican 260-Day Calendar" (PDF Reprinted). Science. 181 (4103): 939–941. Bibcode:1973Sci...181..939M. doi:10.1126/science.181.4103.939. PMID 17835843. Retrieved 2006-11-15.
- Milbrath, Susan (1999). Star Gods of the Maya: Astronomy in Art, Folklore, and Calendars. The Linda Schele series in Maya and pre-Columbian studies. Austin: University of Texas Press. ISBN 0-292-75225-3. OCLC 40848420.
- Miller, Mary; Karl Taube (1993). The Gods and Symbols of Ancient Mexico and the Maya: An Illustrated Dictionary of Mesoamerican Religion. London: Thames & Hudson. ISBN 0-500-05068-6. OCLC 27667317.
- Tedlock, Barbara (1982). Time and the Highland Maya. Albuquerque: University of New Mexico Press. ISBN 0-8263-0577-6. OCLC 7653289.
- Thomas, Cyrus (1897). "Day Symbols of the Maya Year". In J. W. Powell (ed.). Sixteenth Annual Report of the Bureau of American Ethnology to the Secretary of the Smithsonian Institution, 1894–1895 (Project Gutenberg EBook #18973, online reproduction)
|url=(help). Washington DC: Bureau of American Ethnology, Smithsonian Institution; U.S. Government Printing Office. pp. 199–266. OCLC 14963920.[permanent dead link]
- Voss, Alexander W. (2006). "Astronomy and Mathematics". In Nikolai Grube (ed.). Maya: Divine Kings of the Rain Forest. Eva Eggebrecht and Matthias Seidel (assistant eds.). Cologne, Germany: Könemann. pp. 130–143. ISBN 3-8331-1957-8. OCLC 71165439.
- Weeks, John M., Frauke Sachse, Christian M. Prager (2009). Maya Daykeeping. Three Calendars from Highland Guatemala. Boulder: University Press of Colorado.
- Wright, Ronald (1989). Time Among the Maya: Travels in Belize, Guatemala, and Mexico. London: Abacus. ISBN 0-349-10892-7. OCLC 154511110.