Month


A month is a unit of time, used with calendars, that is approximately as long as a natural phase cycle of the Moon; the words month and Moon are cognates. The traditional concept of months arose with the cycle of Moon phases; such lunar months are synodic months and last approximately 29.53 days, making for roughly 12.37 such months in one Earth year. From excavated tally sticks, researchers have deduced that people counted days in relation to the Moon's phases as early as the Paleolithic age. Synodic months, based on the Moon's orbital period with respect to the Earth–Sun line, are still the basis of many calendars today and are used to divide the year.
Calendars that developed from the Roman calendar system, such as the internationally used Gregorian calendar, divide the year into 12 months, each of which lasts between 28 and 31 days. The names of the months were Anglicized from various Latin names and events important to Rome, except for the months 9–12, which are named after the Latin numerals 7–10 because they were originally the seventh through tenth months in the Roman calendar. In the modern Gregorian calendar, the only month with a variable number of days is the second month, February, which has 29 days during a leap year and 28 days otherwise.

Types of months in astronomy

The following types of months are mainly of significance in astronomy. Most of them were first recognized in [Lunar theory#Babylon|Babylonian lunar astronomy].
  1. The sidereal month is defined as the Moon's orbital period in a non-rotating frame of reference. It is about 27.32166 days. It is closely equal to the time it takes the Moon to twice pass a "fixed" star.
  2. A synodic month is the most familiar lunar cycle, defined as the time interval between two consecutive occurrences of a particular phase as seen by an observer on Earth. The mean length of the synodic month is 29.53059 days. Due to the eccentricity of the lunar orbit around Earth, the length of a synodic month can vary by up to seven hours.
  3. The tropical month is the average time for the Moon to pass twice through the same equinox point of the sky. It is 27.32158 days, very slightly shorter than the sidereal month days, because of precession of the equinoxes.
  4. An anomalistic month is the average time the Moon takes to go from perigee to perigee—the point in the Moon's orbit when it is closest to Earth. An anomalistic month is about 27.55455 days on average.
  5. The draconic month, draconitic month, or nodal month is the period in which the Moon returns to the same node of its orbit; the nodes are the two points where the Moon's orbit crosses the plane of the Earth's orbit. Its duration is about 27.21222 days on average.
A synodic month is longer than a sidereal month because the Earth-Moon system is orbiting the Sun in the same direction as the Moon is orbiting the Earth. The Sun moves eastward with respect to the stars and it takes about 2.2 days longer for the Moon to return to the same apparent position with respect to the Sun.
An anomalistic month is longer than a sidereal month because the perigee moves in the same direction as the Moon is orbiting the Earth, one revolution in nine years. Therefore, the Moon takes a little longer to return to perigee than to return to the same star.
A draconic month is shorter than a sidereal month because the nodes move in the opposite direction as the Moon is orbiting the Earth, one revolution in 18.6 years. Therefore, the Moon returns to the same node slightly earlier than it returns to the same star.

Calendrical consequences

At the simplest level, most well-known lunar calendars are based on the initial approximation that 2 lunations last 59 solar days: a 30-day full month followed by a 29-day hollow month — but this is only roughly accurate and regularly needs intercalation by a leap day.
Additionally, the synodic month does not fit easily into the solar (or 'tropical') year, which makes accurate, rule-based lunisolar calendars that combine the two cycles complicated. The most common solution to this problem is the Metonic cycle, which takes advantage of the fact that 235 lunations are approximately 19 tropical years : 12 years have 12 lunar months, and 7 years are 13 lunar months long. However, a Metonic calendar based year will drift against the seasons by about one day every 2 centuries. Metonic calendars include the calendar used in the Antikythera Mechanism about 21 centuries ago, and the Hebrew calendar.
Alternatively in a pure lunar calendar, years are defined as having always 12 lunations, so a year is 354 or 355 days long: the Islamic calendar is the prime example. Consequently, an Islamic year is about 11 days shorter than a solar year and cycles through the seasons in about 33 solar = 34 lunar years: the Islamic New Year has a different Gregorian calendar date in each year.
Purely solar calendars often have months which no longer relate to the phase of the Moon, but are based only on the motion of the Sun relative to the equinoxes and solstices, or are purely conventional like in the widely used Gregorian calendar.
The complexity required in an accurate lunisolar calendar may explain why solar calendars have generally replaced lunisolar and lunar calendars for civil use in most societies.

Months in various calendars

Beginning of the lunar month

The Hellenic calendars, the Hebrew Lunisolar calendar and the Islamic Lunar calendar started the month with the first appearance of the thin crescent of the new moon.
However, the motion of the Moon in its orbit is very complicated and its period is not constant. The date and time of this actual observation depends on the exact geographical longitude as well as latitude, atmospheric conditions, the visual acuity of the observers, etc. Therefore, the beginning and lengths of months defined by observation cannot be accurately predicted.
While some like orthodox Islam and the Jewish Karaites still rely on actual moon observations, reliance on astronomical calculations and tabular methods is increasingly common in practice.

Ahom calendar

There are 12 months and an additional leap year month in the Ahom sexagenary calendar known as Lak-ni. The first month is Duin Shing.
No.NameAhom scriptGregorian month
1Duin-Shing????? ????November-December
2Duin-Kam????? ??December-January
3Duin-Tsam????? ??January-February
4Duin-Shi????? ??February-March
5Duin-Ha????? ??March-April
6Duin-Rok????? ????April-May
7Duin-Shit????? ????May-June
8Duin-paet????? ?????June-July
9Duin-kauo????? ???July-August
10Duin-sip????? ????August-September
11Duin-tsip-it????? ???? ????September-October
12Duin-sip-song????? ???? ?October-November

Roman calendar

The Roman calendar was reformed several times, the last three enduring reforms during historical times. The last three reformed Roman calendars are called the Julian, Augustan, and Gregorian; all had the same number of days in their months. Despite other attempts, the names of the months after the Augustan calendar reform have persisted, and the number of days in each month have remained constant since before the Julian reform. The Gregorian calendar, like the Roman calendars before it, has twelve months, whose Anglicized names are:
The famous mnemonic Thirty days hath September is a common way of teaching the lengths of the months in the English-speaking world. The knuckles of the four fingers of one's hand and the spaces between them can be used to remember the lengths of the months. By making a fist, each month will be listed as one proceeds across the hand. All months landing on a knuckle are 31 days long and those landing between them are 30 days long, with variable February being the remembered exception. When the knuckle of the index finger is reached, go over to the first knuckle on the other fist, held next to the first and continue with August. This physical mnemonic has been taught to primary school students for many decades, if not centuries.
This cyclical pattern of month lengths matches the musical keyboard alternation of wide white keys and narrow black keys. The note F corresponds to January, the note F corresponds to February, the exceptional 28–29 day month, and so on.

Numerical relations

The mean month-length in the Gregorian calendar is 30.436875 days.
Any five consecutive months that do not include February contain 153 days.

Calends, nones, and ides

Months in the pre-Julian Roman calendar included:Intercalaris an intercalary month occasionally embedded into February, to realign the calendar.Quintilis, later renamed to Julius in honour of Julius Caesar.Sextilis, later renamed to Augustus in honour of Augustus.
The Romans divided their months into three parts, which they called the calends, the nones, and the ides. Their system is somewhat intricate.
The ides occur on the thirteenth day in eight of the months, but in March, May, July, and October, they occur on the fifteenth. The nones always occur 8 days before the ides, i.e., on the fifth or the seventh. The calends are always the first day of the month, and before Julius Caesar's reform fell sixteen days after the ides.

Relations between dates, weekdays, and months in the Gregorian calendar

Within a month, the following dates fall on the same day of the week:01, 08, 15, 22, and 29 02, 09, 16, 23, and 30 03, 10, 17, 24, and 31 04, 11, 18, and 25 05, 12, 19, and 26 06, 13, 20, and 27 07, 14, 21, and 28
Some months have the same date/weekday structure.
In a non-leap year:January/October February/March/November April/July September/December 1 January and 31 December fall on the same weekday
In a leap year:February/August March/November January/April/July September/December 29 February falls on the same weekday like 1, 8, 15, 22 February and 1 August

Hebrew calendar

The Hebrew calendar has 12 or 13 months.
  1. Nisan, 30 days ניסן
  2. Iyar, 30 days אייר
  3. Sivan, 30 days סיון
  4. Tammuz, 29 days תמוז
  5. Av, 30 days אב
  6. Elul, 29 days אלול
  7. Tishri, 30 days תשרי
  8. Marcheshvan, 29/30 days מַרְחֶשְׁוָן
  9. Kislev, 30/29 days כסלו
  10. Tevet, 29 days טבת
  11. Shevat, 30 days שבט
  12. Adar 1, 30 days, intercalary month אדר א
  13. Adar 2, 29 days אדר ב
Adar 1 is only added 7 times in 19 years. In ordinary years, Adar 2 is simply called Adar.

Islamic calendar

There are also twelve months in the Islamic calendar. They are named as follows:
  1. Muharram محرّم
  2. Safar صفر
  3. Rabī' al-Awwal/Rabi' I ربيع الأول
  4. Rabī' ath-Thānī/Rabi' al-Aakhir/Rabi' II ربيع الآخر أو ربيع الثاني
  5. Jumada al-Awwal/Jumaada I جمادى الأول
  6. Jumada ath-Thānī or Jumādā al-Thānī/Jumādā II جمادى الآخر أو جمادى الثاني
  7. Rajab رجب
  8. Sha'bān شعبان
  9. Ramadān رمضان
  10. Shawwāl شوّال
  11. Dhu al-Qi'dah ذو القعدة
  12. Dhu al-Hijjah ذو الحجة
See Islamic calendar for more information on the Islamic calendar.

Hindu calendar

The Hindu calendar has various systems of naming the months. The months in the lunar calendar are:
No.Sanskrit nameTamil nameTelugu nameNepali nameAssamese name
1Vaiśākha Vaikasi Vaisaakhamu Baisakh Bahāg
2Jyeṣṭha Aani Jyeshttamu Jeth Jeth
3Ashadha Aadi Aashaadhamu Asaar Āsār/Āhār
4Śrāvaṇa Aavani Sraavanamu Saaoon Sāoon
5Bhadrapada Purratasi Bhaadhrapadamu Bhādo
6Āśvina Aiypasi Aasveeyujamu Asoj Āhin
7Kārtika Kaarthigai Kaarthikamu KaattickKāti
8Mārgaśīrṣa Maargazhi Maargaseershamu Mangsir Āghun
9Pauṣa Thai Pushyamu Push Puh
10Māgha Maasi Maaghamu Magh Māgh
11Phālguna Panguni Phaalgunamu Faagoon Fāgoon
12Chaitra Chitirai Chaithramu Chait Chot

These are also the names used in the Indian national calendar for the newly redefined months. Purushottam Maas or Adhik Maas is an extra month in the Hindu calendar that is inserted to keep the lunar and solar calendars aligned. "Purushottam" is an epithet of Vishnu, to whom the month is dedicated.
The names in the solar calendar are just the names of the zodiac sign in which the sun travels. They are
  1. Mesha
  2. Vrishabha
  3. Mithuna
  4. Kataka
  5. Simha
  6. Kanyaa
  7. Tulaa
  8. Vrishcika
  9. Dhanus
  10. Makara
  11. Kumbha
  12. Miina

Baháʼí calendar

The Baháʼí calendar is the calendar used by the Baháʼí Faith. It is a solar calendar with regular years of 365 days, and leap years of 366 days. Years are composed of 19 months of 19 days each, plus an extra period of "Intercalary Days". The months are named after the attributes of God. Days of the year begin and end at sundown.

Iranian calendar (Persian calendar)

The Iranian / Persian calendar, currently used in Iran, also has 12 months. The Persian names are included in the parentheses. It begins on the northern Spring equinox.
  1. Farvardin
  2. Ordibehesht
  3. Khordad
  4. Tir
  5. Mordad
  6. Shahrivar
  7. Mehr
  8. Aban
  9. Azar
  10. Dey
  11. Bahman
  12. Esfand

Reformed Bengali calendar

The Bengali calendar, used in Bangladesh, follows solar months and it has six seasons. The months and seasons in the calendar are:
No.Name Name Name SeasonDaysRoman months
1Boishakh (বৈশাখ)Boishakh (বৈশাখ)Boicák (বৈশাখ)Grishmo (গ্রীষ্ম)3114 April – May
2Joishtho (জ্যৈষ্ঠ)Zoith (জৈঠ)Zeth (জেঠ)Grishmo (গ্রীষ্ম)31May – June
3Asharh (আষাঢ়)A(sha)ŗ (আ(ষা)ঢ়)Acár (আষাঢ়)Borsha (বর্ষা)31June – July
4Shrabon (শ্রাবণ)(S)haon (শাওণ)Cón (শণ)Borsha (বর্ষা)31July – August
5Bhadro (ভাদ্র)Bhado (ভাদ)Bádo (ভাদ)Shorot (শরৎ)31August – September
6Aashin (আশ্বিন)Ashin (আশিন)Acín (আশিন)Shorot (শরৎ)30September – October
7Kartik (কার্তিক)Kati (কাতি)Hati (হাতি)Hemonto(হেমন্ত)30October – November
8Ogrohayon (অগ্রহায়ণ)Aghon (আঘণ)Óon (অণ)Hemonto(হেমন্ত)30November – December
9Poush (পৌষ)Push (পুষ)Fuc (পুষ)Sheet (শীত)30December – January
10Magh (মাঘ)Magh (মাঘ)Mak (মাক)Sheet (শীত)30January – February
11Phalgun (ফাল্গুন)Fagun (ফাগুন)Fóon (ফঅন)Boshonto (বসন্ত)30 February – March
12Choitro (চৈত্র)Soit (চৈত)Soit (চৈত)Boshonto (বসন্ত)30March – April

Nanakshahi calendar

The months in the Nanakshahi calendar are:
No.NamePunjabiDaysJulian months
1Chetਚੇਤ3114 March – 13 April
2Vaisakhਵੈਸਾਖ3114 April – 14 May
3Jethਜੇਠ3115 May – 14 June
4Harhਹਾੜ3115 June – 15 July
5Sawanਸਾਵਣ3116 July – 15 August
6Bhadonਭਾਦੋਂ3016 August – 14 September
7Assuਅੱਸੂ3015 September – 14 October
8Katakਕੱਤਕ3015 October – 13 November
9Magharਮੱਘਰ3014 November – 13 December
10Pohਪੋਹ3014 December – 12 January
11Maghਮਾਘ3013 January – 11 February
12Phagunਫੱਗਣ30/3112 February – 13 March

Khmer calendar

Different from the Hindu calendar, the Khmer calendar consists of both a lunar calendar and a solar calendar. The solar is used more commonly than the lunar calendar.
The Khmer lunar calendar most often contains 12 months; however, the eighth month is repeated every two or three years, making 13 months instead of 12. Each lunar month has 29 or 30 days. The year normally has then 354 or 384 days, but the calendar follows the rules of the Gregorian calendar to determine leap years and add a leap day to one month, so the Khmer lunar year may have a total of 354, 355, 384 or 385 days.

Thai calendar

English nameThai nameAbbr.TranscriptionSanskrit wordZodiac sign
Januaryมกราคมม.ค.mokarakhommakara "sea-monster"Capricorn
Februaryกุมภาพันธ์ก.พ.kumphaphankumbha "pitcher, water-pot"Aquarius
Marchมีนาคมมี.ค.minakhommīna " fish"Pisces
Aprilเมษายนเม.ย.mesayonmeṣa "ram"Aries
Mayพฤษภาคมพ.ค.phruetsaphakhomvṛṣabha "bull"Taurus
Juneมิถุนายนมิ.ย.mithunayonmithuna "a pair"Gemini
Julyกรกฎาคมก.ค.karakadakhomkarkaṭa "crab"Cancer
Augustสิงหาคมส.ค.singhakhomsiṃha "lion"Leo
Septemberกันยายนก.ย.kanyayonkanyā "girl"Virgo
Octoberตุลาคมต.ค.tulakhomtulā "balance"Libra
Novemberพฤศจิกายนพ.ย.phruetsachikayonvṛścika "scorpion"Scorpio
Decemberธันวาคมธ.ค.thanwakhomdhanu "bow, arc"Sagittarius

Tongan calendar

The Tongan calendar is based on the cycles of the Moon around the Earth in one year. The months are:
  1. Liha Mu'a
  2. Liha Mui
  3. Vai Mu'a
  4. Vai Mui
  5. Faka'afu Mo'ui
  6. Faka'afu Mate
  7. Hilinga Kelekele
  8. Hilinga Mea'a
  9. 'Ao'ao
  10. Fu'ufu'unekinanga
  11. 'Uluenga
  12. Tanumanga
  13. 'O'oamofanongo

Pingelapese

Pingelapese, a language from Micronesia, also uses a lunar calendar. There are 12 months associated with their calendar. The Moon first appears in March, they name this month Kahlek. This system has been used for hundreds of years and throughout many generations. This calendar is cyclical and relies on the position and shape of the Moon.

Kollam era ([Malayalam]) calendar

Malayalam nameTransliterationConcurrent Gregorian monthsSanskrit word and meaningZodiac sign
ചിങ്ങംchi-ngnga-mAugust–Septembersimha "lion"Leo
കന്നിka-nniSeptember–Octoberkanyā "girl"Virgo
തുലാംthu-lā-mOctober–Novembertulā "balance"Libra
വൃശ്ചികംvRSh-chi-ka-mNovember–Decembervṛścika "scorpion"Scorpio
ധനുdha-nuDecember–Januarydhanu "bow, arc"Sagittarius
മകരംma-ka-ra-mJanuary–Februarymokara "sea-monster"Capricorn
കുംഭംkum-bha-mFebruary–Marchkumbha "pitcher, water-pot"Aquarius
മീനംmee-na-mMarch–Aprilmīna " fish"Pisces
മേടംmE-Da-mApril–Maymeṣa "ram"Aries
ഇടവംi-Ta-va-mMay – Junevṛṣabha "bull"Taurus
മിഥുനംmi-thu-na-mJune–Julymithuna "a pair"Gemini
കർക്കടകംkar-kka-Ta-ka-mJuly–Augustkarkaṭa "crab"Cancer

Sinhalese calendar

The Sinhalese calendar is the Buddhist calendar in Sri Lanka with Sinhala names. Each full moon Poya day marks the start of a Buddhist lunar month. The first month is Bak.
  1. Duruthu
  2. Navam
  3. Mædin
  4. Bak
  5. Vesak
  6. Poson
  7. Æsala
  8. Nikini
  9. Binara
  10. Vap
  11. Il
  12. Unduvap

Germanic calendar

The old Icelandic calendar is not in official use anymore, but some Icelandic holidays and annual feasts are still calculated from it. It has 12 months, broken down into two groups of six often termed "winter months" and "summer months". The calendar is peculiar in that the months always start on the same weekday rather than on the same date. Hence Þorri always starts on a Friday sometime between January 22 and January 28 ', Góa always starts on a Sunday between February 21 and February 27 '.
  • Skammdegi
  1. Gormánuður
  2. Ýlir
  3. Mörsugur
  4. Þorri
  5. Góa
  6. Einmánuður
  • Náttleysi
  1. Harpa
  2. Skerpla
  3. Sólmánuður
  4. Heyannir
  5. Tvímánuður
  6. Haustmánuður

Old Georgian calendar

MonthGeorgian month nameTransliterationGeorgian other namesTransliteration
Januaryაპნისი, აპანიApnisi, Apani
FebruaryსურწყუნისიSurtskunisiგანცხადებისთვეGantskhadebistve
MarchმირკანიMirkani
AprilიგრიკაIgrika
MayვარდობისაVardobisaვარდობისთვეVardobistve
JuneმარიალისაMarialisaთიბათვე, ივანობისთვეTibatve, Ivanobistve
JulyთიბისაTibisaმკათათვე, კვირიკობისთვეMkatatve, Kvirikobistve
AugustქველთობისაKveltobisaმარიამობისთვეMariamobistve
SeptemberახალწლისაAkhaltslisaენკენისთვეEnkenistve
OctoberსთვლისაStvlisaღვინობისთვეGvinobistve
NovemberტირისკონიTiriskoniგიორგობისთვე, ჭინკობისთვეGiorgobistve, Chinkobistve
DecemberტირისდენიTirisdeniქრისტეშობისთვეKristeshobistve

*NOTE: ''New Year in ancient Georgia started from September.''

Old Swedish calendar

  1. Torsmånad
  2. Göjemånad
  3. Vårmånad
  4. Gräsmånad
  5. Blomstermånad
  6. Sommarmånad
  7. Hömånad
  8. Skördemånad, Rötmånad
  9. Höstmånad
  10. Slaktmånad
  11. Vintermånad
  12. Julmånad

Old English calendar

Like the Old Norse calendar, the Anglo-Saxons had their own calendar before they were Christianized which reflected native traditions and deities. These months were attested by Bede in his works On Chronology and The Reckoning of Time written in the 8th century. His Old English month names are probably written as pronounced in Bede's native Northumbrian dialect. The months were named after the Moon; the new moon marking the end of an old month and start of a new month; the full moon occurring in the middle of the month, after which the whole month took its name.
When an intercalary month was needed, a third Litha month was inserted in mid-summer.

Old Celtic calendar

The Coligny calendar is an Iron Age Metonic lunisolar calendar, with 12 lunar months of either 29 or 30 days. The lunar month is calculated to a precision of within 24 hours of the lunar phase, achieved by a particular arrangement of months, and the month of EQUOS having a variable length of 29 or 30 days to adjust for any lunar slippage. This setup means the calendar could stay precisely aligned to its lunar phase indefinitely.
The lunar month is divided into two halves, the first of 15 days and the second of 14 or 15 days. The month is calculated to start at the first quarter moon, with the full moon at the centre of the first half-month and the dark moon at the centre of the second half-month. The calendar does not rely on unreliable visual sightings.
An intercalary lunar month is inserted before every 30 lunar months to keep in sync with the solar year. Every 276 years this adds one day to the solar point, so if for example the calendar was 1,000 years old, it would only have slipped by less than 4 days against the solar year.
NameDaysMeaningModern months
-1Unknown30Intercalary One
1Samonios30summer monthMay-June
2Dumannios29June-July
3Rivros30fat monthJuly-August
4Anagantios29August-September
5Ogronios30cold monthSeptember-October
6Cutios30wind monthOctober-November
-2antaran30Intercalary Two
7Giamonios29winter monthNovember-December
8Simivisonnios30December-January
9Equos29 or 30January-February
10Elembivios29February-March
11Edrinios30month of heatMarch-April
12Cantlos29month of songApril-May

Old Hungarian calendar

Nagyszombati kalendárium from 1579.
Historically Hungary used a 12-month calendar that appears to have been zodiacal in nature but eventually came to correspond to the Gregorian months as shown below:
  1. Boldogasszony hava
  2. Böjtelő hava
  3. Böjtmás hava
  4. Szent György hava
  5. Pünkösd hava
  6. Szent Iván hava
  7. Szent Jakab hava
  8. Kisasszony hava
  9. Szent Mihály hava
  10. Mindszent hava
  11. Szent András hava
  12. Karácsony hava

Czech calendar

  1. Leden – derives from 'led'
  2. Únor – derives from 'nořit'
  3. Březen – derives from 'bříza'
  4. Duben – derives from 'dub'
  5. Květen – derives from 'květ'
  6. Červen – derives from 'červená'
  7. Červenec – is the second 'červen'
  8. Srpen – derives from old Czech word 'sirpsti'
  9. Září – means 'to shine'
  10. Říjen – derives from 'jelení říje', which refers to the estrous cycle of female elk
  11. Listopad – falling leaves
  12. Prosinec – derives from old Czech 'prosiněti', which means to shine through

Old Egyptian calendar

The ancient civil Egyptian calendar had a year that was 365 days long and was divided into 12 months of 30 days each, plus 5 extra days at the end of the year. The months were divided into 3 "weeks" of ten days each. Because the ancient Egyptian year was almost a quarter of a day shorter than the solar year and stellar events "wandered" through the calendar, it is referred to as Annus Vagus or "Wandering Year".
  1. Thout
  2. Paopi
  3. Hathor
  4. Koiak
  5. Tooba
  6. Emshir
  7. Paremhat
  8. Paremoude
  9. Pashons
  10. Paoni
  11. Epip
  12. Mesori

Nisga'a calendar

The Nisga'a calendar coincides with the Gregorian calendar with each month referring to the type of harvesting that is done during the month.
  1. K'aliiyee = Going North – referring to the Sun returning to its usual place in the sky
  2. Buxwlaks = Needles Blowing About – February is usually a very windy month in the Nass River Valley
  3. Xsaak = To Eat Oolichans – Oolichans are harvested during this month
  4. Mmaal = Canoes – The river has defrosted, hence canoes are used once more
  5. Yansa'alt = Leaves are Blooming – Warm weather has arrived and leaves on the trees begin to bloom
  6. Miso'o = Sockeye – majority of Sockeye Salmon runs begin this month
  7. Maa'y = Berries – berry picking season
  8. Wii Hoon = Great Salmon – referring to the abundance of Salmon that are now running
  9. Genuugwwikw = Trail of the Marmot – Marmots, Ermines and animals as such are hunted
  10. Xlaaxw = To Eat Trout – trout are mostly eaten this time of year
  11. Gwilatkw = To Blanket – The earth is "blanketed" with snow
  12. Luut'aa = Sit In – the Sun "sits" in one spot for a period of time

French Republican calendar

This calendar was proposed during the French Revolution, and used by the French government for about twelve years from late 1793. There were twelve months of 30 days each, grouped into three ten-day weeks called décades. The five or six extra days needed to approximate the tropical year were placed after the months at the end of each year. A period of four years ending on a leap day was to be called a Franciade. It began at the autumn equinox:
  • Autumn:
  1. Vendémiaire
  2. Brumaire
  3. Frimaire
  • Winter:
  1. Nivôse
  2. Pluviôse
  3. Ventôse
  • Spring:
  1. Germinal
  2. Floréal
  3. Prairial
  • Summer:
  1. Messidor
  2. Thermidor
  3. Fructidor

Eastern Ojibwe calendar

Ojibwe month names are based on the key feature of the month. Consequently, months between various regions have different names based on the key feature of each month in their particular region. In the Eastern Ojibwe, this can be seen in when the sucker makes its run, which allows the Ojibwe to fish for them. Additionally, Rhodes also informs of not only the variability in the month names, but how in Eastern Ojibwe these names were originally applied to the lunar months the Ojibwe originally used, which was a lunisolar calendar, fixed by the date of Akiinaaniwan that marks when sunrise is the latest in the Northern Hemisphere.