American Meteor Society
Visit the Meteor Shower Calendar
The 2025 Meteor Shower List is presented in four separate parts. The showers are broken down by intensity with major, minor, variable, and weak showers being separated into their own groups. The general public is encouraged to use the list of major showers as they are the most well known and provide the most activity on a year to year basis. The other showers rarely surpass ten meteors per hour at maximum and are difficult to observe by the general public.
2025 Major Meteor Showers (Class I)
| Shower | Activity Period | Maximum | Radiant | Velocity | r | Max. | Time | Moon | ||
|---|---|---|---|---|---|---|---|---|---|---|
| Date | S. L. | R.A. | Dec. | km/s | ZHR | |||||
| Quadrantids (QUA) | Dec 26-Jan 16 | Jan 03 | 283.25° | 15:20 | +49.7° | 40.4 | 2.1 | 120 | 0500 | 05 |
| Lyrids (LYR) | Apr 17-Apr 26 | Apr 22 | 032.3° | 18:08 | +33.3° | 46.6 | 2.1 | 18 | 0400 | 24 |
| eta Aquarids (ETA) | Apr 15-May 27 | May 04 | 044.3° | 22:28 | -01.4° | 65.4 | 2.4 | 60 | 0400 | 07 |
| Southern delta Aquarids (SDA) | Jul 19-Aug 13 | Jul 30 | 126.9° | 22:40 | -16.4° | 40.4 | 3.2 | 25 | 0300 | 06 |
| Perseids (PER) | Jul 17-Aug 29 | Aug 13 | 140.5° | 03:17 | +58.1° | 58.8 | 2.6 | 100 | 0400 | 19 |
| Orionids (ORI) | Oct 02-Nov 12 | Oct 23 | 209.5° | 06:25 | +15.8° | 65.5 | 2.5 | 20 | 0500 | 02 |
| Leonids (LEO) | Oct 28-Dec 07 | Nov 17 | 235.4° | 10:16 | +21.8° | 69.7 | 2.5 | 15 | 0500 | 27 |
| Geminids (GEM) | Dec 01-Dec 21 | Dec 13 | 261.85° | 07:33 | +32.4° | 33.8 | 2.6 | 120 | 0100 | 24 |
| Ursids (URS) | Dec 13-Dec 24 | Dec 22 | 270°65 | 14:38 | +75.3° | 33.1 | 3.0 | 10 | 0500 | 02 |
Information and Table Template Courtesy the International Meteor Organization and Masahiro Koseki.
The meteor showers listed above are the easiest to observe and provide the most activity. Particular attention should be noted to the time and moonlight conditions. All these showers are best seen after midnight. Some are not even visible until after midnight. Showers that peak with the moon’s age between 12 and 22 days will be affected by moonlight and difficult to observe this year. While the time each shower is best seen remains much the same year after year, the moonlight conditions change considerably from one year to the next. The time listed is not necessarily the peak time, but the time in which the radiant is best positioned in the sky. We will post upcoming details of each major shower that is free from moonlight well in advance of their peak activity.
2025 Minor Meteor Showers (Class II)
| Shower | Activity Period | Maximum | Radiant | Velocity | r | Max. | Time | Moon | ||
|---|---|---|---|---|---|---|---|---|---|---|
| Date | S. L. | R.A. | Dec. | km/s | ZHR | |||||
| Anthelion Source (ANT) | Dec 17-Sep 22 | – | – | – | – | 30.0 | 3.0 | 3 | 0100 | – |
| alpha Centaurids (ACE) | Feb 03-Feb 20 | Feb 09 | 319°4 | 14:04 | -58.2° | 59.3 | 2.0 | 6 | 0500 | 11 |
| eta Lyrids (ELY) | May 06-May 15 | May 11 | 050.2° | 19:22 | +43.5° | 43.9 | 3.0 | 3 | 0400 | 14 |
| July Pegasids (JPE) | Jul 04-Jul 28 | Jul 12 | 109.6° | 23:15 | +11.1° | 63.8 | 3.0 | 5 | 0400 | 17 |
| alpha Capricornids (CAP) | Jul 07-Aug 13 | Jul 30 | 126.9° | 20:22 | -09.3° | 22.1 | 2.5 | 4 | 0100 | 06 |
| kappa Cygnids (KCG) | Jul 23-Aug 27 | Aug 14 | 141.5° | 19:06 | +50.2° | 22.4 | 3.0 | 3 | 2300 | 20 |
| Aurigids (AUR) | Aug 29-Sep 02 | Aug 31 | 158°4 | 06:05 | +39.2° | 65.4 | 2.6 | 6 | 0400 | 07 |
| September epsilon Perseids (SPE) | Sep 02-Sep 23 | Sep 09 | 166.9° | 03:10 | +39.6° | 64.0 | 2.9 | 5 | 0500 | 17 |
| October Arietids (STA) | Sep 23-Nov 12 | Oct 14 | 201.5° | 02:26 | +09.8° | 28.8 | 2.3 | 5 | 0000 | 23 |
| epsilon Geminids (EGE) | Oct 01-Nov 04 | Oct 16 | 203.7° | 06:39 | +28.3° | 68.7 | 3.0 | 2 | 0400 | 25 |
| Leonis Minorids (LMI) | Oct 16-Nov 06 | Oct 22 | 209.2° | 10:41 | +36.8° | 61.3 | 2.7 | 2 | 0500 | 01 |
| Southern Taurids (STA) | Oct 13-Nov 27 | Nov 04 | 222.2° | 03:34 | +14.5° | 28.5 | 2.3 | 5 | 0000 | 14 |
| Northern Taurids (NTA) | Oct 13-Dec 02 | Nov 09 | 226.5° | 03:43 | +22.2° | 28.3 | 2.3 | 5 | 0000 | 19 |
| November Orionids (NOO) | Nov 13-Dec 12 | Nov 28 | 246.1° | 06:00 | +15.5° | 42.9 | 2.3 | 3 | 0100 | 08 |
| Puppid/Velids (PUP) | Dec 01-Dec 15 | Dec 06 | 255° | 08:12 | -45.0° | 40.0 | 2.7 | 10 | 0400 | 17 |
| sigma Hydrids (HYD) | Nov 22-Dec 31 | Dec 07 | 255.4° | 08:19 | +02.7° | 58.8 | 2.3 | 3 | 0300 | 18 |
| Monocerotids (MON) | Nov 23-Dec 24 | Dec 10 | 258.1° | 06:42 | +08.3° | 41.4 | 2.3 | 2 | 0100 | 21 |
| Coma Berenicids (COM) | Dec 05-Feb 04 | Dec 19 | 267.5° | 10:44 | +30.9° | 62.8 | 3.0 | 5 | 0500 | 29 |
Information and Table Template Courtesy the International Meteor Organization and Masahiro Koseki.
The meteor showers listed above range from 2 to 10 shower members per hour at maximum activity. These meteors can be detected by experienced observers but novice observers and the general public will have difficultly distinguishing these meteors from the major showers or sporadic (random) meteors.
2025 Variable Meteor Showers (Class III)
| Shower | Activity Period | Maximum | Radiant | Velocity | r | Max. | Time | Moon | ||
|---|---|---|---|---|---|---|---|---|---|---|
| Date | S. L. | R.A. | Dec. | km/s | ZHR | |||||
| pi Puppids (PPU) | Apr 16-Apr 30 | Apr 23 | 033°.6 | 07:22 | -45.1° | 15 | 2.0 | var | 1900 | 25 |
| tau Herculids (TAH) | May 19- Jun 14 | Jun 02 | 072°.0 | 15:14 | +39.8° | 15 | 2.2 | var | 2200 | 06 |
| June Bootids (JBO) | Jun 11- Jul 02 | Jun 21 | 090°.3 | 14:44 | +48.5° | 14.0 | 2.2 | var | 2100 | 26 |
| Draconids (GIA) | Oct 08-Oct 09 | Oct 08 | 195°.0 | 17:32 | +55°.7 | 20.7 | 2.6 | var | 1800 | 16 |
| alpha Monocerotids (AMO) | Nov 17-Nov 27 | Nov 21 | 239°6 | 07:49 | -00.8° | 61.7 | 2.4 | var | 0300 | 01 |
| Dec Phoenicids (PHO) | Dec 04-Dec 06 | Dec 05 | 253°0 | 01:02 | -44.7° | 11.7 | 2.8 | var | 2000 | 15 |
Information and Table Template Courtesy the International Meteor Organization.
The meteor showers listed above produce strong activity on rare occasions. Most of the time only a few scattered remnants of these showers are observed with rates of one shower member per NIGHT. Note that most of these showers are best seen during the evening hours, a situation quite opposite most meteor showers.
2025 Weak Meteor Showers (Class IV)
| Shower | Activity Period | Maximum | Radiant | Velocity | Max. | Time | Moon | ||
|---|---|---|---|---|---|---|---|---|---|
| Date | S. L. | R.A. | Dec. | km/s | ZHR | ||||
| January Leonids (JLE) | Dec 28-Jan 07 | Jan 02 | 281.6° | 09:48 | +21.4° | 51.9 | <2 | 0300 | 04 |
| alpha Hydrids (AHY) | Dec 15-Jan 22 | Jan 04 | 283.8° | 08:28 | -08.0° | 43.6 | <2 | 0300 | 06 |
| xi Coronae Borealids (XCB) | Jan 09-Jan 20 | Jan 15 | 294.8° | 16:41 | +29.3° | 45.5 | <2 | 0500 | 17 |
| January xi Ursae Majorids (XUM) | Jan 14-Jan 21 | Jan 18 | 298.6° | 11:18 | +32.8° | 41.0 | <2 | 0300 | 20 |
| gamma Ursae Minorids (GUM) | Jan 15-Jan 25 | Jan 19 | 299.8° | 15:19 | +67.3° | 29.4 | <2 | 0500 | 21 |
| Alpha Coronae Borealids (ACB) | Jan 26-Feb 03 | Jan 27 | 307.5° | 15:25 | +27.9° | 57.2 | <2 | 0500 | 28 |
| alpha Antliids (AAN) | Jan 22-Feb 06 | Feb 01 | 312.5° | 10:32 | -09.6° | 43.9 | <2 | 0100 | 03 |
| February eta Draconids (FED) | Feb 02-Feb 06 | Feb 03 | 314.84° | 15:57 | +61.8° | 35.2 | <2 | 0500 | 05 |
| xi Herculids (XHE) | Mar 06-Mar 20 | Mar 12 | 351.9° | 17:04 | +48.8° | 34.5 | <2 | 0400 | 13 |
| eta Virginids (EVI) | Mar 08-Mar 25 | Mar 18 | 358.0° | 12:27 | +02.8° | 27.2 | <2 | 0200 | 19 |
| April epsilon Delphinids (AED) | Mar 31-Apr 19 | Apr 09 | 020.0° | 20:29 | +12.0° | 60.6 | <2 | 0400 | 11 |
| pi Serpentids (PSR) | Apr 13-Apr 17 | Apr 14 | 024.7° | 16:07 | +14.6° | 45.1 | <2 | 0400 | 16 |
| alpha Virginids (AVB) | Apr 06-May 01 | Apr 15 | 025.0° | 13:19 | +04.4° | 19.7 | <2 | 0000 | 17 |
| h-Virginids (HVI) | Apr 24-May 04 | Apr 29 | 039.0° | 13:32 | -11.0° | 18.4 | <2 | 0100 | 02 |
| Daytime Arietids (ARI) | May 29-Jun 17 | Jun 04 | 073.8° | 02:46 | +23.7° | 40.5 | <2 | 0400 | 27 |
| Daytime Arietids (ARI) | May 29-Jun 17 | Jun 04 | 073.8° | 02:46 | +23.7° | 40.5 | <2 | 0400 | 27 |
| June Iota Pegasids (JIP) | Jun 25-Jun 27 | Jun 25 | 093.8° | 22:06 | +29.3° | 58.6 | <2 | 0400 | 19 |
| phi Piscids (PPS) | Jun 13-Jul 05 | Jun 25 | 094.0° | 00:40 | +21.4° | 66.5 | <2 | 0400 | 19 |
| Microscopiids (MIC) | Jun 25-Jul 16 | Jul 05 | 104.0° | 21:13 | -27.0° | 39.7 | <2 | 0400 | 00 |
| July chi Arietids (JXA) | Jun 26-Jul 22 | Jul 07 | 105.5° | 02:11 | +07.8° | 68.4 | <2 | 0400 | 02 |
| phi Piscids (PPS) | Jul 02-Jul 22 | Jul 11 | 108.0° | 01:23 | +27.9° | 66.5 | <2 | 0400 | 06 |
| c-Andromedids (CAN) | Jun 21-Jul 28 | Jul 12 | 110.0° | 02:10 | +48.3° | 56.9 | <2 | 0400 | 07 |
| Northern June Aquilids (NZC) | Jun 26-Jul 22 | Jul 15 | 113.0° | 21:18 | -02.4° | 37.7 | <2 | 0200 | 10 |
| zeta Cassiopeiids (ZCS) | Jul 07-Jul 22 | Jul 15 | 113.5° | 00:30 | +50.9° | 57.2 | <2 | 0400 | 10 |
| July gamma Draconids (GDR) | Jul 23-Aug 03 | Jul 28 | 125.3° | 18:42 | +50.6° | 27.3 | <2 | 2200 | 23 |
| Eta Eridanids (ERI) | Jul 10-Sep 10 | Aug 06 | 134.0° | 02:44 | -13.0° | 63.9 | <2 | 0400 | 02 |
| Piscis Austrinids (PAU) | Aug 01-Aug 10 | Aug 07 | 135.0° | 23:53 | -20.2° | 43.0 | <2 | 0300 | 03 |
| Northern delta Aquariids (NDA) | Aug 02-Aug 17 | Aug 12 | 139.5° | 23:02 | +00.9 | 39.1 | <2 | 0300 | 07 |
| August xi Draconids (AXD) | Aug 04-Aug 28 | Aug 14 | 142.0° | 18:26 | +53.6° | 20.3 | <2 | 2100 | 09 |
| beta Hydusids (BHY) | Aug 15-Aug 19 | Aug 16 | 143.8° | 02:25 | -74.5° | 22.8 | <2 | 2100 | 11 |
| August beta Piscids (BPI) | Aug 17-Sep 08 | Aug 20 | 148.0° | 23:30 | +04.4° | 38.2 | <2 | 2100 | 15 |
| zeta Draconids (AUD) | Aug 12-Sep 05 | Aug 26 | 153.0° | 17:16 | +62.8° | 21.3 | <2 | 2100 | 22 |
| August Gamma Cepheids (AGC) | Aug 17-Sep 06 | Aug 28 | 155.6° | 23:57 | +76.9° | 43.8 | <2 | 0200 | 24 |
| Nu Eridanids (NUE) | Aug 31-Sep 21 | Sep 10 | 168.0° | 04:33 | +00.7° | 65.7 | <2 | 0500 | 07 |
| September Lyncids (SLY) | Aug 30-Sep 20 | Sep 10 | 168.0° | 07:15 | +55.8° | 59.3 | <2 | 0500 | 07 |
| chi Cygnids (CCY) | Sep 08-Sep 17 | Sep 13 | 170.8° | 20:00 | +31.0° | 19.0 | <2 | 2100 | 10 |
| Daytime Sextantids (DSX) | Sep 22-Oct 13 | Oct 02 | 190.0° | 10:27 | -03.3° | 32.1 | <2 | 0500 | 00 |
| October Camelopardalids (OCT) | Oct 05-Oct 07 | Oct 05 | 192.7° | 11:09 | +78.6° | 45.4 | <2 | 0500 | 03 |
| A Carinids (CRN) | Oct 13-Oct 14 | Oct 13 | 200.883° | 06:27 | -54.3° | 32.4 | <2 | 0500 | 10 |
| October Ursae Majorids (OCU) | Oct 10-Oct 20 | Oct 15 | 202.5° | 09:41 | +64.2° | 55.3 | <2 | 0500 | 12 |
| tau Cancrids (TCA) | Sep 23-Nov 12 | Oct 20 | 208.0° | 09:13 | +29.6° | 67.1 | <2 | 0500 | 17 |
| October zeta Perseids (OZP) | Oct 25-Oct 25 | Oct 24 | 211.36° | 03:53 | +33.7° | 48.1 | <2 | 0500 | 21 |
| lambda Ursae Majorids (LUM) | Oct 18-Nov 07 | Oct 28 | 214.8° | 10:32 | +49.4° | 60.8 | <2 | 0500 | 26 |
| Southern lambda Draconids (SLD) | Oct 29-Nov 08 | Nov 03 | 221.5° | 10:46 | +68.2° | 48.5 | <2 | 1900 | 02 |
| chi Taurids (CTA) | Oct 24-Nov 13 | Nov 04 | 222.0° | 04:16 | +27.2° | 40.1 | <2 | 0300 | 03 |
| kappa Ursae Majorids (KUM) | Oct 28-Nov 17 | Nov 05 | 223.0° | 09:37 | +45.6° | 64.7 | <2 | 0500 | 04 |
| Andromedids (AND) | Oct 24-Dec 02 | Nov 06 | 224.0° | 01:23 | +28.0° | 18.1 | <2 | 2200 | 05 |
| Omicron Eridanids (OER) | Oct 23-Dec 02 | Nov 13 | 231.0° | 03:54 | -01.0° | 27.7 | <2 | 0100 | 12 |
| Nov. sigma Ursae Majorids (NSU) | Nov 17-Dec 02 | Nov 24 | 242.0° | 09:56 | +59.0° | 54.5 | <2 | 2000 | 24 |
| theta Pyxidids (TPY) | Nov 28-Dec 06 | Dec 01 | 249.4° | 09:15 | -25.6° | 59.7 | <2 | 2000 | 01 |
| Southern chi Orionids (ORS) | Nov 14-Dec 16 | Dec 02 | 250.0° | 05:20 | +18.1° | 26.5 | <2 | 2000 | 02 |
| December Kappa Draconids (DKD) | Nov 29-Dec 13 | Dec 02 | 250.9° | 12:24 | +70.7° | 43.4 | <2 | 0500 | 02 |
| psi Ursa Majorids (PSU) | Nov 29-Dec 11 | Dec 04 | 252.0° | 12:15 | +43.9° | 60.8 | <2 | 0500 | 04 |
| December phi Cassiopeiids (DPC) | Nov 28-Dec 10 | Dec 04 | 252.0° | 01:18 | +57.7° | 16.5 | <2 | 2000 | 04 |
| December rho Virginids (DRV) | Nov 29-Dec 22 | Dec 05 | 253.4° | 12:22 | +12.9° | 68.2 | <2 | 2000 | 05 |
| December chi Virginids (XVI) | Nov 26-Dec 30 | Dec 11 | 260.0° | 12:38 | -09.3° | 68.2 | <2 | 0500 | 10 |
| eta Hydrids (EHY) | Nov 26-Jan 01 | Dec 11 | 260.0° | 09:02 | +01.8° | 61.8 | <2 | 0500 | 10 |
| theta Pyxidids (TPY) | Dec 08-Jan 08 | Dec 18 | 266.6° | 10:17 | -24.4° | 62.5 | <2 | 2000 | 18 |
| December sigma Virginids (DSV) | Nov 26-Jan 24 | Dec 21 | 270.0° | 13:49 | +04.6° | 66.1 | <2 | 0500 | 21 |
| c Velids (CVE) | Dec 26-Dec 31 | Dec 28 | 277.0° | 09:20 | -54.0° | 39.0 | <2 | 0200 | 28 |
Information and Table Template Courtesy the International Meteor Organization and Masahiro Koseki.
The meteor showers listed above rarely produce an average of more than two shower members per hour. In some cases these showers have been recently discovered by video means, being too weak for visual observers to pick out from the sporadic background. This list is being provided for the experienced observer in order to follow the activity of these weak showers. Good luck with your observations in 2024!
Explanation of the 2024 Meteor Shower Calendar
Shower: named for the constellation or closest star within a constellation where the radiant is located at maximum activity.
Activity Period: the dates when the shower is active and the observer can expect activity from this source.
Maximum: the date on which the maximum activity is expected to occur.
S.L.: the equivalent solar longitude of the date of maximum activity. Solar longitude is measured in degrees (0-359) with 0 occurring at the exact moment of the spring equinox, 90 at the summer solstice, 180 at the autumnal equinox, and 270 at the winter solstice. Scientists use this time measurement as it is independent of the calendar and its leap years.
Radiant: the area in the sky where shower meteors seem to appear from. This position is given in right ascension (celestial longitude) and declination (celestial latitude). The radiant must be near or above the horizon in order to witness activity from a particular shower.
Velocity: the velocity at which shower meteors strike the Earth’s atmosphere. The velocity depends on the angle meteoroids (meteors in space) intersect the Earth. Meteoroids orbiting in the opposite direction of the Earth and striking the atmosphere head-on are much faster than those orbiting in the same direction as the Earth. This velocity is measured in kilometers per second.
r: The Population Index, An estimate of the ratio of the number of meteors in subsequent magnitude classes. Simply stated: the lower the “r” value, the resulting overall mean magnitude of each shower will be brighter. “r” usually ranges from 2.0 (bright) to 3.5 (faint).
ZHR: Zenith Hourly Rate, the average maximum number of shower meteors visible per hour if the radiant is located exactly overhead and the limiting magnitude equals +6.5 (a very dark sky). Actual counts rarely reach this figure as the zenith angle of the radiant is usually less and the limiting magnitude is usually lower than +6.5. ZHR is a useful tool when comparing the actual observed rates between individual observers as it sets observing conditions for all to the same standards.
Time: this is the time of night when meteors from each shower are best seen. Quite often the radiant will culminate after sunrise therefore the last dark hour before dawn will be listed. Daylight Saving Time (Summer Time) is used from March through October. These figures are also highly dependent on the latitude of the observer. The time listed is most precise for mid-northern latitudes.
Moon: the age of the moon in days where 0 is new, 7 is first quarter, 15 is full, and 22 is last quarter. Meteor activity is best seen in the absence of moonlight so showers reaching maximum activity when the moon is less than 10 days old or more than 25 are much more favorably observed than those situated closer to the full moon.
Class: A scale developed by Robert Lunsford to group meteor showers by their intensity:
- Class I: the strongest annual showers with ZHR’s normally ten or better.
- Class II: reliable minor showers with ZHR’s normally two to ten.
- Class III: showers that do not provide annual activity. These showers are rarely active yet have the potential to produce a major display on occasion.
- Class IV: weak minor showers with ZHR’s rarely exceeding two. The study of these showers is best left to experienced observers who use plotting and angular velocity estimates to determine shower association. These showers are also good targets for video and photographic work. Observers with less experience are urged to limit their shower associations to showers with a rating of I to III.