Showing posts sorted by relevance for query MABON. Sort by date Show all posts
Showing posts sorted by relevance for query MABON. Sort by date Show all posts

Thursday, September 22, 2022

AUTUMNAL EQUINOX / MERRY MABON

 MABON




 


https://www.bpl.org/blogs/post/the-origins-and-practices-of-mabon

Sep 20, 2019 ... Mabon is a pagan holiday, and one of the eight Wiccan sabbats celebrated during the year. Mabon celebrates the autumnal equinox.

https://www.goddessandgreenman.co.uk/mabon

Mabon/Autumn Equinox September 21st-22nd ... This festival is now named after the the God of Welsh mythology, Mabon. He is the Child of Light and the son of the ...

https://www.mabonhouse.co/mabon

Named after the ancient Welsh hero named Mabon ap Modron, which means Son of Mother, Mabon is the second of three harvest festivals that take place in the Wheel ...

https://www.cosmopolitan.com/lifestyle/a37051456/how-to-celebrate-mabon

Jul 25, 2022 ... Mabon is essentially a harvest festival. Ancient Celts and pagans used this day to give thanks to nature for a good harvest and to pray to ...

https://en.wikipedia.org/wiki/Mabon

Religion and mythologyEdit · Mabon, the Autumnal equinox in some versions of the Pagan Wheel of the Year · Mabon ap Modron, a figure in Welsh Arthurian legend .....

https://people.howstuffworks.com/mabon.htm

3 days ago ... Mabon, also known as "Pagan Thanksgiving," is a harvest celebration that falls around the autumnal equinox on Sept. 22-23, 2022.

https://www.outdoorapothecary.com/celebrating-mabon

Sep 14, 2021 ... Mabon was an excellent hunter, possessing a nimble horse and a magnificent hound. When he was three nights old, he was kidnapped from his mother ...



Monday, September 21, 2020

MABON A WELSH LEGEND

 


Mabon ap Modron is a prominent figure from Welsh literature and mythology, the son of Modron and a member of Arthur's war band. Both he and his mother were likely deities in origin, descending from a divine mother–son pair.

Web results

Mabon may refer to: Religion and mythology[edit]. Mabon, the Autumnal equinox in some versions of the Pagan Wheel of the Year; Mabon ap Modron, a figure in Welsh Arthurian legend; Maponos, ...


Thursday, September 21, 2023

Why the first day of autumn is later than usual this year

An illustration of the March (spring) and September (fall or autumn) equinoxes. During the equinoxes, both hemispheres receive equal amounts of daylight. - NASA/JPL-Caltech
An illustration of the March (spring) and September (fall or autumn) equinoxes. During the equinoxes, both hemispheres receive equal amounts of daylight. - NASA/JPL-Caltech

You might be wondering why the autumnal equinox is on Sept. 23 this year – it officially starts at 3:50 a.m. ADT (4:20 a.m. NDT) – and not on the usual date, Sept. 21 or 22.

The date of the autumnal equinox – like the vernal equinox, summer and winter solstices – can vary yearly.

Its date is not determined by the calendar but is an astronomical moment in time when the sun crosses the celestial equator (the plane of the Earth's equator extended out into space), moving from north to south.

While equinoxes and solstices occur at the same moment in time across the globe, due to varying time zones, the actual date of the equinox or solstice may vary, depending on geographical location.

Autumnal equinoxes can occur between Sept. 21-24; in 2024, it's on Sept. 22

Equal day and night

On the date of the autumnal equinox, the sun is directly overhead at local solar time (as seen from Earth's equator).

The word "equinox" comes from the Latin words aequs (meaning "equal") and nox (meaning "night"), referring to equal daylight and nighttime.

There are two equinoxes each year: autumnal and spring here in the Northern Hemisphere. In the Southern Hemisphere, Sept. 23 marks the southern vernal equinox or the beginning of their spring.

On the vernal and autumnal equinoxes, the Earth's axis is neither tilted towards or away from the sun (as it is during the summer and winter solstices in the Northern Hemisphere). The amount of sunlight striking both hemispheres of the Earth's surface is pretty much the same: every latitude across the planet receives approximately the same amount of daylight as it does darkness as the sun is directly over the equator.

Day and night are only relatively equal in length for areas close to the equator; the length of day and night for non-equatorial regions depends on latitude.

For example, on Sept. 23, in Charlottetown, P.E.I., (latitude 46.23824 degrees north), the sun will rise at 7 a.m. and set just after 7:08 p.m., giving a day length of 12 hours, eight minutes, and nine seconds.


On the day of both equinoxes, the sun will rise almost due east and set almost due west, depending on your exact latitude. Charlottetown, on Sept. 23, will see the sunrise at 89 degrees east and set at 271 degrees west.

Decreasing light

Except for tropical regions, most locations in the Northern Hemisphere see a slow but steady decrease in daylight after the summer solstice (the longest day of the year), with the day-to-day differences greatest around the date of the autumnal equinox.

The same is true for the spring equinox, except the daylight period steadily grows longer.

After the autumnal equinox, the daylight period continues to shorten at an ever-decreasing rate until the winter solstice (the shortest period of daylight of the year), when it reaches zero.

Regions closer to the poles experience larger day-to-day differences than those closer to the equator.

Equilux

The moment when daylight and nighttime hours are equal is known as an "equilux," occurring a few days before the spring equinox and after the autumnal equinox in both hemispheres.

For Charlottetown, the equilux is Sept. 25. If you would like to find out when an equilux will occur where you live (you will need to know your approximate latitude), go to timeanddate.com/astronomy/equilux.html.

Astronomy vs. meteorology

The astronomical definition of when seasons begin differs from the meteorological definition.

While astronomical autumn begins Sept. 23, meteorological autumn (which defines the start of the seasons as occurring on the first day of the month that includes the equinox or solstice) occurred Sept. 1.

As the Earth doesn't move at a constant speed in its orbit around the sun, the actual timings of equinoxes and solstices can change each year, meaning the length of astronomical seasons also varies.

On average, the autumnal season in the North Hemisphere lasts about 89.8 days; in the Southern Hemisphere, it's approximately 92.8 days.

Differences

Not all countries use the astronomical definition of when the seasons change.

Australia and New Zealand use the meteorological definition to mark seasons, with spring starting Sept. 1. Some Southeast Asian cultures divide the year into six seasons.

Finland and Sweden base the date of seasons not on a calendar, but on temperature. Seasons within these two countries start and end on different dates, depending on each region's climate.

Global climate change will, no doubt, dramatically alter how these countries determine the start of their seasons.

This week's sky

Mercury (magnitude +2.5, in Leo - the Lion) has emerged from inferior solar conjunction and will reach its highest point in the morning sky 16 degrees above the eastern horizon on Sept. 23, before fading from view as the sun rises.

Venus (magnitude -4.5, in Cancer - the Crab), now at its brightness morning apparition, rises around 3:35 a.m., reaching an altitude of 29 degrees above the eastern horizon, before fading from view around 6:30 a.m.

Saturn (magnitude +0.5, in Aquarius - the Water Bearer) becomes accessible shortly before 8 p.m., 12 degrees above the southeast horizon as darkness falls, reaching a height of 31 degrees above the southern horizon by 11:40 p.m., and remaining visible until about 3:35 a.m. when it drops below 10 degrees above the southwest horizon.

Jupiter (magnitude -2.7, in Aries - the Ram) is visible by about 10 p.m., seven degrees above the eastern horizon, reaching its highest point of 58 degrees in the pre-dawn, southern sky around 4:15 a.m., then becoming lost in the dawn twilight 47 degrees above the southwest horizon by 6:30 a.m.

Mars, two degrees below the western horizon at dusk, is not observable this week.

Comet C/2023 P1 Nishimura reached perihelion (its closest passage of the sun) on Sept. 17 and is too close to the sun to be observed in the western, post-sunset twilight. It will pull away from the sun over the coming weeks, and, although fading in brightness, may still be visible.

Until next week, clear skies.


Events:

  • Sept. 18 – Venus at greatest brightness in morning sky; mag, -4.5
  • Sept. 22 – First Quarter Moon
  • Sept. 23 – Autumnal Equinox; start of autumn season in Northern Hemisphere
  • Sept. 23 – Mercury at its highest altitude in the morning sky; 16 degrees above the eastern horizon

Glenn K. Roberts lives in Stratford, P.E.I., and has been an avid amateur astronomer since he was a small child. He welcomes comments from readers at glennkroberts@gmail.com.

IS THE DAY 12 HOURS LONG ON THE EQUINOX? IT'S COMPLICATED

BY: BOB KING SEPTEMBER 20, 2023  

Denser air near the horizon acts like a lens and refracts (bends) the Sun's bottom half upward into the top, compressing the solar disk into a bean. Refraction also "lifts" the Sun into view at the horizon about 2 minutes before the real Sun arrives there. Both effects increase the amount of daylight we experience at the equinoxes.
Bob King

Astronomical cycles acquaint us with the inevitable. That's what I'm thinking right now as we approach the first official day of fall (spring in the southern hemisphere), also known as the autumnal equinox. At 2:49 a.m. EDT, the Sun will cross the celestial equator going south and won't stop its descent until it bumps into the winter solstice on December 21st.

The celestial equator is a projection of Earth's equator on the sky. On that special day, the Sun will pass directly overhead at noon for residents living along the equator, from Nairobi to Quito to Singapore. At local noon, when the Sun passes overhead, residents won't be able to avoid stepping on their shadows. On the same day at the North and South Poles the Sun scrapes completely around the horizon. And no matter where you live except the poles it rises due east and sets due west.

At both the spring and fall equinoxes, the Earth's axis tilts neither toward nor away from the Sun but sidelong. Day and night momentarily strike a balance, each of them 12 hours long on this day, so neither one of them has the upper hand. That's why we call it the equinox, which literally means "equal night." Right?

Don't believe it. There's more to daylight on the equinox than you might think.

THE SUN'S DISK

Venus, pictured here at dawn on September 14, 2023, is essentially a point source compared the Sun's disk.
Bob King

Even on the equinox, daylight still edges out night for two reasons. First, the Sun is a disk, not a point source. If the Sun were simply a more brilliant version of Venus, all of it would rise in one pop. Instead, sunrise is defined as the moment when the Sun's upper edge breaches the horizon. Since the solar disk is about ½° in diameter, its full disk takes between 2.5 and 3 minutes at mid-latitudes to clear the horizon. Similarly, sunset is the moment the trailing limb finally touches the western horizon. That adds another 2.5 to 3 minutes of sunshine at day's end. The result is a total of approximately 5 to 6 minutes of additional daylight. By the way, this is true for every day of the year, not just on the equinox.

As one approaches the Arctic at the time of the fall equinox, the Sun's angle of ascent becomes shallower and shallower. In Alert, Nunavut, the northernmost continuously inhabited place in the world, it takes more than 16 minutes from the moment of sunrise until the Sun clears the eastern horizon! At the equator — the opposite extreme — the Sun rockets straight up from the due-east horizon and extricates itself in just over 2 minutes.

THE EARTH'S AIR

Adding to the complexity is the fact that Earth has air. Consider atmospheric refraction, in which light rays are bent when they pass from a less dense medium (outer space) into a more dense medium (Earth's atmosphere). A familiar example is the "broken" straw sticking out of a glass of water. Light from the top of the straw travels directly to our eyes, while light from the underwater part is refracted (bent) and travels in a slightly different direction, making it look as if it's fractured.

A pencil in a glass of water looks broken because we see the top part through air and the bottom part through the denser medium of water, which bends or refracts the light in a different direction to our eyes. Refraction effects also magnify the submerged half.
Bob King

As the Sun approaches the horizon, air density rapidly increases, making refraction effects much stronger along the bottom edge of the solar disk compared to the top. The difference bends or "lifts" the bottom half of the solar disk into the top half, flattening an otherwise circular Sun into an oval.

You can see the Sun several minutes before it actually rises due to strong refraction at the horizon which bends light rays upward into view.
Sciencia58 / CC BY-SA 4.0

Even before the Sun has physically risen in the morning, refraction elevates its upper edge, causing it to appear nearly 3 minutes (at mid-latitudes) beforehand. Likewise, the actual Sun sets several minutes before its refracted light does. If you were to remove Earth's atmosphere at sunset, sunlight would disappear the moment the entire solar disk sets.

So, we'll need to add another 5 to 6 minutes of daylight to the equinox due to Earth's atmosphere. Even if we were to imagine a hypothetical point at the center of the solar disk instead of the full Sun, atmospheric refraction would also lift it into view earlier and hold onto it later just like all celestial sources.

On an airless Earth, we could watch the solar corona precede the sunrise by blocking the glaring white solar disk from view. All would proceed unaffected by refraction.
Stellarium


EQUAL LIGHT ON THE EQUILUX

Are days and nights ever 12 hours apiece? Yes! Well, close. This occurs at the equilux, a delightful word that derives from the Latin equi (equal) and lux (light). While the equinox occurs across the planet at the same moment, the equilux varies according to latitude.

In the Northern Hemisphere, it occurs several days after the autumnal equinox (on September 25th or 26th at mid-northern latitudes) and several days before the vernal equinox; in the Southern Hemisphere, it's the other way around.

At the equator, day and night are never exactly equal — daylight always exceeds night by 6 to 8 minutes due to the Sun's large apparent size. At the same time, though, day and night are nearly equal every day of the year.

City Latitude Approximate date of equilux
Anchorage, Ak. 61° Sept. 25
Calgary, Alberta 51° Sept. 25
Champaign, Ill. 40° Sept. 26
New Orleans, La. 30° Sept. 27
Honolulu, Hawai'i 21° Sept. 28
San José, Costa Rica 10° Oct. 4
Bogotá, Colombia 5° Oct. 19
Quito, Ecuador 0° Never

Traveling south, equilux dates increasingly part from the equinox date.
Data from Stellarium and other sources


While the equilux concept is great in principle, a perfect balance of day and night isn't possible from many locations because daylight is decreasing at the rate of 2 to 3 minutes per day, not minute by minute. For that reason day and night lengths often differ by about a minute. For example, in Detroit the equilux occurs on September 25th, when the time between sunrise and sunset is only about 13 seconds shy of 12 hours. In Phoenix it occurs on the same date, but daylight is a little more than a minute longer than night.

Isn't splitting hairs fun?

Fall leaves frame the waning gibbous Moon in early October 2020.
Bob King

The equinox is a happy time to be a night-sky watcher. Insects retreat, and evening temperatures are cool and pleasant. To stand under a dark sky before 9 o'clock is a joy. During the summer many of us start observing at the very time we should be getting to bed. These chances occur because of Earth's tilted axis. As the Sun hastens south, the curtain of darkness drops incrementally earlier. Before you know it, the insatiable night will make sunshine a prized commodity.

Happy equinox and equilux indeed!

















Bpl.org

https://www.bpl.org/blogs/post/the-origins-and-practices-of-mabon

Sep 20, 2019 ... Mabon is a pagan holiday, and one of the eight Wiccan sabbats celebrated during the year. Mabon celebrates the autumnal equinox.


En.wikipedia.org

https://en.wikipedia.org/wiki/Mabon

Mabon, the Autumnal equinox in some versions of the Pagan Wheel of the Year · Mabon ap Modron, a figure in Welsh Arthurian legend · Maponos, a pre-Christian ...

History.co.uk

https://www.history.co.uk/articles/mabon-the-pagan-festival-that-marks-the-autumn-equinox

However, it is now, though a purely pagan/neo-pagan holiday, and one of the eight Wiccan sabbats celebrated during the year. Mabon occurs between the 21st and ...

Cosmopolitan.com

https://www.cosmopolitan.com/lifestyle/a37051456/how-to-celebrate-mabon

Aug 16, 2023 ... Mabon is essentially a harvest festival. Ancient Celts and pagans used this day to give thanks to nature for a good harvest and to pray to their ...

Diversity.iu.edu

https://diversity.iu.edu/cultural-involvement/holiday-religious-observances/description/autumn-equinox-mabon.html

Autumn Equinox (Mabon) (Mah-bon or May-bon). While Mabon is not one of the four major sabbats in Wicca, it is one of the eight and is thus significant. It ...





Tuesday, June 20, 2023

This continent is the fastest-warming on the planet, according to new report

Yesterday 

ABC News
Thousands forced to evacuate as wildfire rages in France amid heat waves
These fires have been burning since last month    View on WatchDuration 4:11

Climate change is taking a major human, economic and environmental toll in Europe, which has now been dubbed the fastest warming continent of the world, according to a new report.

Europe has been warming twice as much as the global average since the 1980s, the report, released Monday by Copernicus, the European Union's climate change service, and the World Meteorological Organization, states.


The sun sets over the capital's skyline as warm temperatures, wind and emissions combined to trigger a high alert for air pollution, in London, June 13, 2023
.© Dylan Martinez/Reuters, FILE

Summer 2022 in Europe was characterized by rolling heatwaves, record-breaking temperatures and more than 1,100 heat-related deaths in a single event.

In 2022, Europe was approximately 2.3 degrees Celsius above the pre-industrial revolution average -- global temperatures between 1850 and 1900, which are used as a baseline for the Paris climate accord.MORE: Recent heat wave in the Mediterranean caused by climate change: Study

Several countries, including Belgium, France, Germany, Ireland, Italy, Luxembourg, Portugal, Spain, Switzerland and the U.K. had their warmest year on record in 2022, according to the report.

Europe's 2022 annual average temperature was between the second and fourth-highest on record, with an anomaly of about 0.79 degrees Celsius above the average between 1991 and 2020.



A couple ride a Vespa motorcycle past a street thermometer reading 44 degrees Celsius in Seville, April 26, 2023 as Spain is bracing for an early heat wave.
© Cristina Quicler/AFP via Getty Images, FILE

Summers with extreme heat will likely be "frequent and more intense across the region" in the future, Copernicus Director Carlo Buontempo said in a statement.

"The record-breaking heat stress that Europeans experienced in 2022 was one of the main drivers of weather-related excess deaths in Europe," Buontempo said. "Unfortunately, this cannot be considered a one-off occurrence or an oddity of the climate."

:Record-breaking heat waves in US and Europe prove climate change is already here, experts say

The pattern of extreme heat has already continued into 2023. An early season heat wave that plagued countries along the Mediterranean sea such as Spain, Portugal, Morocco and Algeria in April was found to have been prompted by anthropologic, or human-caused, climate change, according to a study published last month.

In addition to extreme heat, the year was also marked by drought, wildfires and sea surface temperature reaching new highs, which were then accompanied by marine heatwaves, the report states.



The sun rises behind the BT Tower, as hot weather continues, in London, June 10, 2023.
© Toby Melville/Reuters

Meteorological, hydrological and climate-related hazards in Europe in 2022 resulted in 16,365 reported fatalities (many of them due to heat stress, the No. 1 weather-related killer in the world.

Glaciers in Europe lost a volume of about 880 cubic kilometers of ice from 1997 to 2022. The Alps were the worst affected, with an average reduction in ice thickness of 34 meters, the report said.MORE: Extreme heat taking its toll on US, European economies

In 2022, glaciers in the European Alps experienced "unprecedented" mass loss in one single year, caused by very low winter snow amounts, a very warm summer and Saharan dust deposition, the researchers said.

The report also noted a "hopeful future" for renewable energy, which generated more electricity on the continent than polluting fossil gas for the first time in 2022.



FILE - Snow from the last winter season is covered with blankets on a slope beside the top station of a cablecar at Diavolezza ski area near the Alpine resort of Pontresina, Switzerland, July 21, 2022.© Arnd Wiegmann/Reuters, FILE

Wind and solar power generated 22.3% of European Union (EU) electricity in 2022, overtaking fossil gas at 20%, the researchers said.

Increasing use of renewables and low-carbon energy sources is crucial to reduce dependence on fossil fuels,” World Meteorological Organization Secretary-General Petteri Taalas said in a statement. "Climate services play a key role in ensuring the resilience of energy systems to climate-related shocks, in planning operations, and in informing measures to increase energy efficiency.

Europe is world's fastest warming continent: climate report

Story by AFP • Yesterday 

Temperatures in Europe have risen 1.5C above preindustrial levels over the last 30 years
© JORGE GUERRERO

Europe should brace for more deadly heatwaves driven by climate change, said a sweeping report on Monday, noting the world's fastest-warming continent was some 2.3 degrees Celsius hotter last year than in pre-industrial times.

Crop-withering drought, record sea-surface temperatures and unprecedented glacier melt are among the consequences laid out in a report by the World Meteorological Organization and the European Union's Copernicus Climate Change Service.

The continent, which has been warming at twice the global average since the 1980s, saw its warmest summer on record last year, with countries including France, Germany, Italy, Portugal, Spain and the United Kingdom experiencing their warmest year on record.

The world has warmed an average of nearly 1.2C since the mid-1800s, unleashing a devastating cascade of extreme weather, including more intense heatwaves, more severe droughts in some areas and storms made more ferocious by rising seas.



Chart showing reported meteorological, hydrological and climate-related hazards in Europe in 2022 and breakdown of affected people, deaths and economic damage by type of event
© Sabrina BLANCHARD

Hardest hit are the most vulnerable people and the world's poorest countries, who have done little to contribute to the fossil fuel emissions that drive up temperatures.

But impacts are becoming increasingly severe across the world, with regions in the northern hemisphere and around the poles seeing particularly rapid warming.

In Europe, the high temperatures "exacerbated the severe and widespread drought conditions, fuelled violent wildfires that resulted in the second largest burnt area on record, and led to thousands of heat-associated excess deaths," said WMO Secretary-General Petteri Taalas.


Heat and drought combined to spark wildfires© LOIC VENANCE

Temperatures across the continent rose 1.5C in 30 years, from 1991 to 2021, according to the report, the State of the Climate in Europe 2022.

Severe heat left more than 16,000 people dead last year, the report said, while floods and storms accounted for most of the $2 billion in damages from weather and climate extremes.

"Unfortunately, this cannot be considered a one-off occurrence or an oddity of the climate," said Copernicus Director Carlo Buontempo in the report.

"Our current understanding of the climate system and its evolution informs us that these kinds of events are part of a pattern that will make heat stress extremes more frequent and more intense across the region."

The increasing temperatures have taken a toll on economies and ecosystems, the report said.


- Renewable hopes -

In the Alps, glaciers saw a new record mass loss for a single year in 2022, caused by very low winter levels of snow, a hot summer as well as deposits of wind-blown Saharan dust.

The story was similar in the oceans, with average sea surface temperatures in the North Atlantic the hottest on record, with warming rates in the eastern Mediterranean Sea, the Baltic and Black Seas and the southern Arctic more than three times the global average.

Marine heat waves -- which can displace or even kill species -- also lasted for up to five months in several regions including the western Mediterranean Sea, English Channel and southern Arctic.

Rainfall was below normal across much of the continent, hitting agricultural production and water reserves while creating the conditions for wildfires.

The year saw the second-largest burnt area ion record in Europe, with large fires scorching across parts of France, Spain, Portugal, Slovenia and the Czech Republic.

The Spanish water reserve decreased to less than half of capacity by July as the Iberian Peninsula saw its fourth drier-than-average year in a row in 2022.

Farmers could not irrigate their fields in parts of France, while the dry conditions hit harvests for cereals and grapes in Germany.

The drought also affected energy production, leading to reductions in hydroelectric power as well as output from some nuclear power stations, which rely on water supplies for cooling.

- Renewable hope -


But, in one positive sign for the future, the report noted that wind and solar power generated 22.3 percent of European Union electricity in 2022, overtaking fossil gas (20 percent) for the first time.

The report said this was due to a combination of factors, including a "significant increase" in installed solar power last year.

While there has been no significant trend in wind or rain patterns in Europe over the last 30 years, the report said there was a marked increase in sunlight, with 2022 seeing the highest amount of solar radiation since records began in 1983.

"This report confirms two things that we already know well: that climate change is having severe impacts right now in Europe, but also that we already have the solutions we need to hand in the form of renewable energy technologies," said Leslie Mabon, Lecturer in Environmental Systems at The Open University, in response to the report.

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