Major Faults are Ready to Break as Supermoon King Tides Roll In...
Transcript
Hello and welcome everyone. I'm your
host Stefan Burns, geologist,
geohysicist, space weather guide. Today
we're talking about king tides. We have
huge tides right now on planet Earth.
Normally we get what are called king
tides during the winter. I'll explain
why. Right now it's almost summer.
Summer solstice is less than 10 days
away. Yet we have king tides coming
through. This is because we have what's
known as a super moon. The moon is at
its closest point in its orbit for the
new moon. When you have the moon align
with the sun and the earth and every
full moon, every new moon, you get an
increase in tidal forces. Um, and well,
when you have the moon at its closest,
those are even stronger. Here is this
video I took last night of the uh the
bay actually coming in encroaching over
the sidewalk. And today, according to
the locals, I talked to someone today,
it's actually going to overflow and go
down uh this alleyway. You don't see it
in the video, but there's a little
alleyway there and go down the storm
drain. Uh the sea level rise that much.
We also have this video here of the
Pacific. Um, so this is a nice video to
watch in general, but you'll see some
examples of how high the tide is
currently. Now, we get tides all the
time. We get, you know, two tides every
single day and then there's a
fortnightly rhythm where you have every
14 days a maximum and then a minimum.
You have the minimum during the quarter
moons. So, first quarter, third quarter.
That's with if you look up and you see
the moon, it's exactly half illuminated.
Okay, that's a quarter moon.
You get the strongest tides during the
new moon. When the moon and sun are
aligned, you don't see the moon at all.
It's out during the day. That's why you
have dark sky conditions because the
moon is right there with the sun. And as
a result, all the sunlight being
reflected by a moon is back towards the
sun. So, it's on the far side of the
moon, what people call the dark side.
It's actually the far side of the moon,
reflecting all that light back to the
sun. we don't see anything. That's why
uh it's a new moon or on the full moon
when you have this aligned gravitational
vector. What's been shown quite
conclusively now? Anyone that uh really
debates this
just simply needs to to actually examine
what the heck is happening on this
planet because obviously it makes sense.
is that there is an influence
from the tides upon not only earthquake
activity but also volcanic activity.
Now every fault, every volcano is its
own dynamical system.
Dynamical effectively means that if you
pull out one Django block, you're not
exactly sure how the others are going to
fall. It's dynamic. There's an element
of chaos to it. So
what has been shown is that across many
of the main geologic systems here on
Earth, for example, Japan, site of the
most seismic activity in the globe,
California, Cascadia, a lot of the big
volcanoes
for the Earth like Campify Flee,
uh Iceland, and you have the mid ocean
ridge, which is actually no longer mid
ocean because Iceland is there, but then
you also have the mantel plume hotspot.
All of these show evidence of being
partly controlled slashgoverned
by tidal rhythms. And so this isn't just
driven by the moon because the tides are
primarily driven by the sun and the moon
though the moon is a big big big player
because it's the one that's undergoing
its orbit around the earth very
frequently at every 28 days or so.
Whereas the sun and its influence over
the tides waines and waxes over a
six-month cycle.
So we are having this super new moon
on the 15th coming up and we see that
with faults let's use faults for example
faults that are at critical stress
thresholds they've been building up
building up building up over many years
decades even centuries perhaps even
longer but typically maximum like
centuries
they become more sensitive to tidal
rhythm
and the forces exerted on them through
the motion of the moon. Primarily
this influences not only microractures
at depth, you have not only ocean tides,
right? When people think of tides,
they're thinking of the ocean. They're
thinking of water moving. You have this
free mass. It's able to move pretty
quickly dynamically because of the
position and the gravitational influence
of the sun, the moon, and technically
the other planets as well. We do have
Venus and Jupiter right now close
together in the night sky. Jupiter being
the biggest planet, heaviest planet in
our solar system. Venus being nearly
Earth's mass close to Earth, right?
Second planet uh in from the sun. So
they're also there though the amount of
gravitational influence that they have
is quite low like very low compared to
the moon and the sun which are about
even in general. They're about even. Um
but we see that they can generate
microractures in the solid earth because
you have ocean tides, you have
atmospheric tides. These tides influence
you know the changing gravitational
vectors influence the atmosphere as well
and and air circulation more. You also
have solid earth tides. There's a
vertical displacement of the earth that
occurs as a result of this attractive
force which is gravity. Right? Jump out
of a plane. What's happening? you're
being attracted to the earth and well
hopefully have a parachute or else it'll
go splat. Very few people survive those.
Crazy if you do. Um there's this
attractive force. So when you have the
planets and the sun in certain
configurations, there's a stronger
attractive force. So the earth literally
will expand outwards to reach these
objects. This can generate micro
fractares. This also influences for
example uh fluids within the faults
because most geological layers they're
porous. There's some degree of porocity.
So little little bubbles within them and
you get water to fill into these. Uh and
so now you have water pressure changes
being exerted by these tidal rhythms. Uh
there's a whole bunch of different ways
that the tides influence a geologic
system. For a volcano, for example, you
have hydrothermal systems. You have
magma and the plumbing system of the
volcano. All these are sensitive to
tidal rhythms. And they become
especially sensitive based on the
research. They become especially
sensitive when they are near a critical
stress or just
like unstable moment for a volcano like
when it's about to go or for an
earthquake when it's about to rupture
that's when these tidal forces are the
most significant and well we are seeing
right now
clear examples of this happening uh
today effectively. So uh key example is
that we had an explosive uh eruption at
Stromboli volcano today in Italy that
launched lava bombs out all over. So
pretty strong explosion reported. We can
look at that uh here. Strong uh let's
close this out. Strong explosion
reported at Strong Bully and a major
explosion occurred uh yesterday morning
512
7:12 local time. The explosion occurred
in the northern crater area. Lava bomb
fell mainly on the upper part and
seismic activity began at 512 UTC.
Uh and they just go on to talk a little
bit more about what happened. But
clearly a uh big change at Strong Bully
volcano. Well, look what happened also
just today uh just hours effectively
after this occurred. Well, here we have
uh Italy, Sicily. That's Stromboli right
there. Okay, look at this. We had a
magnitude 4.6 earthquake strike at depth
220 km down. Uh we also see here a
magnitude 6.2 that struck at 243 km
down. So we've been having deep
earthquakes in Italy. Then we get this
uh this is a small example but we get
strong bully to have this explosion as
we approach this s the super moon the
new moon but a super moon closest to
earth uh and this is creating king tides
and we see that activity for example at
strong bully specifically has been
identified to be much more likely to
occur within a couple days or like two
to three days on either side of there
being the fortnightly tidal maximum,
which is that 14-day cycle. So, new
moon, full moon. It's like 1.9 times
more likely to occur during that title
maximum fortnightly versus the minimum.
Here we here we have it. And there's an
earthquake to boot as well, right next
to it, right afterwards, but super deep,
200 220 km down. And I think that this
is fairly, you know, this is compelling
evidence that these deep earthquakes are
related to these volcanic systems.
Though it's less that the roots of these
volcanoes,
uh, you know, the plumbing system goes
down 220 kilometers, but that there's
changes occurring in the in the upper
mantle, changes in the convection and
more that are then influencing these
volcanoes from the bottom up. Another
clear example of this modulation that
exists is uh at Kiloa.
So Hawaii's most active volcano. We see
it right here. And it is about to have
its 49th eruptive episode.
USGS estimates that was going to be um
anywhere from the 12th to the 14th. They
probably updated it now. It looks like
it's not going to start until at least
tomorrow, but I think probably actually
more the 15th. It may happen right on
the new moon.
Well, when they looked at data for the
uh first part of the 20th century, they
saw that here I have the specific I
think it's like 38 of 54 eruptions is
what they said, but let me find it
specifically for you all. I have a
research paper here which is linked in
the video description. It's titled
chapter 14, tides, earthquakes, and
volcanic eruptions. Really goes in
depth. Fantastic read. Um they showed
that for C uh for Kiloa that there was a
huge influence.
Yeah. So 52 historic eruptions occurred
since the first half of the 19th century
at Kiloa and that the onset of 34 of
them took place within 3 days prior or
after a fortnightly maximum. Again that
that two week rhythm. That's a 89%
confidence level. So uh pretty strong
confidence level not 95% but 85% is
pretty good
and that correlation was not observed
for Monoloa. Not every volcano is uh or
fault system has as much of a connection
to these tidal rhythms as some do but
some of them display this. So, we have
Kiloa about to erupt its 49th uh
fountain episode, which is historic.
It's never done so much as far as we've
known. Um probably on the new moon
itself, exactly on the dot. So, these
are some clear examples, just little
ones, but showing you.
Now, the real story here uh is that
California has some locked and loaded
faults. California is really due for a
big one. And just because we have king
tides does not mean that California is
going to rupture, but it presents an
opportunity to discuss the geology and
geohysics at play. Because when it does
rupture, when we do get a big one in
California, it probably will be
synchronized to this fortnightly maximum
either with a new moon or full moon.
It's more likely to. So, uh, let's go
through some of our, um, news articles.
But before that, let me just show you
this graphic here just so you kind of
get a sense of these tides. You have the
sun, you have the moon. This is what we
have coming up on the 15th of June right
here. Uh, this is our orbit around the
sun. So, when you get this alignment
between the moon, and our moon, by the
way, in our solar system is anomalously
large. Like, we have a weird moon. We
have one moon and it's huge. Uh, no
other planet has a moon system like we
do. It's very odd. So, of it just
intuitively makes sense. Like if you
were just focused just on geology,
right? You may be like, ah, the moon
whatever, right? The moment you start to
dip your toe into astronomy and into
astrophysics, you're like, okay, this is
weird. Obviously has an influence over
our geology. Um so you kind of have to
go dis like multidisciplinary to really
see this though there are many
geologists who are doing this work and
and you know finding these connections.
So this is what we have coming up on the
15th and we have a full moon just you
know two weeks later at the very end of
June beginning of July
and uh the the tides are strongest. Now
we have the quarter moon that's called a
neep tide. And so the tidal the
fortnightly tidal rhythm will be at its
minimum. And what we do see there is
that with quarter moons or these neat
tides we we often get an onset of
submarine volcanic activity which is
interesting. But in general for a
volcanic activity and for earthquakes
uh with continents we're looking at
there being a triggering more often
statistically significant during new
moons full moons. Okay. So just a few uh
news articles here. Now just recently we
had these huge swells hit New Zealand.
Okay. 10.5 meters. Uh this is a few days
ago as you can see. This is right after
the mega quake in the Philippines, by
the way. They're attributing these
swells to a large storm system that was
to the south. Um, and you know, that's
going to have an influence, of course,
generating these long lived uh ocean
swells that travel across the ocean.
But it is interesting that these huge
10-meter waves were bashing into New
Zealand just a few days ago. huge waves
crash into Hawaii. Also, you see there
now, this is just before the mega quake.
And they're also attributing this to
that large storm system that was uh off
the coast of New Zealand, a little bit
to the south. And so, I'm showing you
these just to show you that a we've been
having some strong surf recently
effectively in the Pacific. Now, we have
these king tides coming in, which will
affect the entire world. Um, and think
of just how much energy and power these
waves have.
Right.
We have um
here for the for for Hawaii,
king tides uh this weekend are coming
in. So they're expecting king tides just
as kind of we all are. And if we look at
uh SFGate Bay Area can see record tides
this weekend.
So unusually high tides and flooding
this weekend. possibly even setting a
record for this time of year. Now,
that's because uh you typically don't
have king tides during the summer. Now,
it's not summer yet. You know, it's
technically still spring, but basically
it feels like summer for a lot of
people. That's because during uh summer,
Earth is at its ahelon, which is its
furthest away from the sun. You see that
we have some eentricity in our orbit. So
the closest that earth gets is 0.985
astronomical units or so and then as
furthest at this moment in time it's
0.015
astronomical units approximately. So
during uh winter perihelion January 3rd
approximately earth is as closest as
sun. So the the gravitational influence
of the sun is greater and therefore the
tidal influence is going to be at
strongest overall maximum will be during
winter. During the summer earth will be
at furthest away and so the overall
maximum amplitude will be diminished.
But then if you get a super moon to come
in because the moon also has an orbital
eentricity to it
that will then influence the tides. So
this is where we are right now.
Even with that in consideration,
uh we see that we could be getting
record tides for uh this time of year in
2026. Potentially going to be the
highest summer tides on record. A
meteorologist told SFGate the high tide
could reach 1.9 ft above normal on
Saturday evening, 2 feet above normal on
Sunday night, and 1.9 ft above normal on
Tuesday morning. So the previous record
was set in July 2022 at 1.7 feet and
these records I read in a different
article uh same same like theme though
these records for SF go back to the
1800s like late 1800s so it is
significant you also have to consider
how because the planet is warming up
there's a thermal expansion of water so
not only uh are we getting strong tides
just because of the the lunar uh lunar
solar rhythms as they're called you also
just have water expanding more and you
has also have glaciers like in Greenland
melting at unprecedented rates a whole
bunch of things. So SF could get some
really big tides. Carolina beach braces
for king tides as the super moon
approaches. Um I someone commented in
the chat before we got we went live that
uh I guess someone got swept out at
Carolina Beach. So, you know, you have
to be really careful when you're out
there, uh, and these king tides are
coming in because they can really be
strong. So, uh, they may close roads due
to flooding. And these king tides begin
Friday the 12th and last through the
17th. You notice that in between is the
15th, which is when we have the uh, new
super moon.
So, we got that going on. Uh, and then
what is a super moon? I've kind of
already explained it, but let's just
look at this article here from Earth
Sky. They're fantastic website. A new
moon happens when the moon is uh between
the sun and the earth. Full moon happens
when the moon is on the opposite side of
the earth from the sun. That's why it's
reflecting light to us. And peri means
near the earth. Geo means earth. So,
we're talking about near the earth. It's
the moon's closest point to the earth in
a month. So when you get a super moon uh
that means that the earth the moon is at
its perigee is at its closest and if
it's a new moon then it's in between the
sun and the earth
and so if you look here for our super
moons we see we have three full super
moons here January and then also
November December and then we also have
some new super moons. Most people when
they think of super moons, they're just
thinking of full moons because they see
it and it's big and it's bright. But we
also get super moons with the new moon
and we don't see it at all. Uh the tidal
influence will be just as strong as if
it was a new uh full moon. So here we
see our new super moon June 15th and our
distance there is 357,221
kilometers which is the closest of all
of these. quite a bit closer than um
than for example April or August there.
So we're right approaching that perigee
during the new moon which is why the
tide the king tides are coming and why
they're quite strong. Um now how does
this relate to California? I touched on
this a little bit already but there's
been research lots of research not just
this but a lot of research showing that
the faults in California are locked and
loaded. San Andreas fault reaches high
stress level in a thousand years. Okay.
Tectonic stress along the San Andreas
and San uh Wasinto fault systems in
Southern California have now reached in
some places exceeded the highest levels
seen in the last 1,000 years. According
to research led by earth scientists at
the University of Hawaii, the study
published in journal geohysical
research, solid earth has direct
implications for seismic hazard
assessments in one of the most densely
populated infrastructure critical
corridors in the United States. So uh
basically what they did is they they
took historic ruptures and put they fed
this into a model and they added in the
stress accumulation rate as a result of
plate tectonic movement and then they
let this model run. Again these uh these
ruptures aren't just random generated by
computer. They are the historic ruptures
and magnitudes for them based off of all
the best geological evidence and
observations and more. Um, but they did
estimate that these uh faults are at
their high stress levels in thousand
years because they use a model to kind
of to see where it's been over the past
thousand years based off of this data.
So that's effectively how they got that.
Um, right now with stress at
historically high levels across the
region and more than 160 years elapse
since the last major rupture, the system
is in a critically loaded state. Uh, and
that's not just for one location, but
for many locations in California.
So that's um that's all of California
basically. It's not just Southern
California, it's also Northern
California and goes up of course into
Cascadia. You actually see the Wand Fuka
plate here. Okay.
Uh, and we haven't had a big subduction
earthquake there since 1700, 929.
We we can go here to see that just
recently we've been having some notable
activity uh in the one the fucus system.
So here's a 5.7
uh and then we also had a 5.1 I believe
it was we had some aftershocks as you
see as well 5.1 uh on the triple
junction. So these sort of earthquakes
here they they influence earthquake
tremor and the low frequency
uh slip in the subduction zone even
though they aren't in the subduction
zone itself. That research has come out
very clearly. Uh it is statistically
significant and there's a a fairly good
correlation there. Uh not as strong as
it is for Japan but there is a
correlation there for the Cascadia
subduction zone. So when you get these
intraplate quakes or even if they're
further field but they're larger that
can desynchronize activity along the
fault zone and what's been shown with
the tidal forces is that they are able
to uh effectively to some degree control
what's happening at the deep plate
margins and that's really been shown for
Japan. That's where a lot of our leading
research comes from. There's a lot of
similarities between Cascadia and Japan.
So there's some level of influence of of
the moon and also the sun, but really
the moon because it's the critical
dynamic variable here
in being able to uh over time over
geological time exert some sort of
influence over plate boundaries, over
earthquake ruptures, over
microracturing, over hydrothermal
systems and volcanoes
um and more.
We also just had, oddly, this magnitude
6.1 that struck here uh just to the
north west of Cuba felt all across
Florida down into the Yucatan, Cuba
itself, but huge amounts of people felt
it in Florida. Uh that's a bizarre
quake. You know, a ton of meteorologists
came on either online or news reports
and everything said there's no fault
there. Um, there's no faults there, but
we had the magnitude 6.1. It's like,
well, maybe you should get a geologist
on air because if you have a magnitude
6.1 earthquake, there has to be a fault.
Okay, doesn't mean it's an active fault
until it happened. It could have been a
really old fault that doesn't rupture
that often, but hey, there's a fault.
There are faults. The point is that
there are faults all across the world
that aren't that active. And a lot of
people for North America think that it's
really uh like no earthquake risk at all
for North America unless you're in
California. Well, it's also of course
Hawaii. It's also of course Alaska,
Oregon Washington Nevada Arizona New
Mexico. Uh we've had big magnitude 7
quakes just off the coast uh here and
then also there historically these are
magnitude 7 plus quakes. So, and then
you also have New Madrid where you had a
burst of activity in 1812.
You had multiple magnitude 7s, tons of
magnitude sixes and five. So, basically
six months straight uh straight new rib
was going crazy. Here you have a lot of
sedimentary rocks. So, it can really
start to shake.
That's also likely governed to some
degree by these tidal variations. So,
here you're just going to get earth
tides. you're not going to get any
influence from the ocean because it's
pretty far away from that. But there's
so few earthquakes that occur here in
general that that's not something I can
definitively say because we don't have
the data to support it. But if we see
these uh tidal forces influencing
earthquake activity and volcanic
activity all across the globe, well, it
tells you that this is just kind of a
foundational first principle thing here
that we're dealing with. and that the
giant anomalously large moon that we
have that's orbiting around us stealing
angular momentum from us, yeah, has an
influence over earthquake activity and
what's happening in the near surface,
right? Um I think that that much is
pretty obvious. You know, we're actually
orbiting around the berry center of the
moon earth system. So it's not like the
the moon just orbits around us. We also
orbit around the shared center of
gravity which exists within the earth.
So think of that the shared center of
gravity for the for the moon and for the
earth actually is moving through
effectively the mantle of the earth.
That could be one reason why we have
geology in the first place that we have
this mantle convection because you have
this uh gravity force node moving
through and churning things up. So you
won't find much research on that. This
is a kind of a theoretical idea but it's
based and grounded in in in physics
effectively and just requires we have so
such a limited way to uh explore this
experimentally effectively like we get
like earthquake signals from the biggest
earthquakes that propagate through the
earth. if you can measure that but it's
so rudimentary that you know a lot of
these things a lot of these ideas are
going to stay rudimentary for quite some
time or um uh not rudimentary they're
going to stay uh theoretical for quite
some time
so we have uh a lot happening right now
and
we're looking at California and not only
did we have this recent activity there
I want to expand out this search here
we're going to do not only the past
uh 30 days, but we'll do the past
like 60 60 days or so. We want to see
this activity in um Nevada
because in California, and I've been
covering this as well,
but in California, we've had activity
here with the swarm in Broly. Okay, keep
that in mind. Hundreds of earthquakes
popped off as a result of that. The
strongest being a 4.6 7, but then you
also had a 4.5, 4.4. That's quieted
down. Now, you had this 4.1 on the
Garlock fault.
Here's this earthquake swarm, Silver
Springs. Now, this is including any
earthquakes under magnitude 4, but look
at all the earthquakes that we do have.
5.7, 5.2, 4.8, 4.7. So, tons of
earthquakes in Silver Springs. This is
in the uh Walker Lane which is
interesting to to note that effectively
travels this this seismic zone called
the Walker Lane shear zone which
accommodates quite a bit of plate motion
in between the Pacific and North
American plates like 15% a little bit
more maybe it perfectly goes in between
these lakes here. So if you ever wanted
to just quickly get a visual on where
Walker Lane is without looking at a map
just basically draw lines in between
these lakes. That's where it is. And
again, the the moon in these tides
influence water to a great degree,
especially water at depth in the
fractures in the pores of these fault
zones, changing the fluid pressure and
more. Now, these uh these fluids also
often are salty. So, they're briney.
They they have dissolved ions with them
like sodium for example, which means
they're conductive. So now you have
electric currents that are oscillating
with the the the lunar cycles. Um both
the the the daily one, the you know
twice a day and then the fortnightly
there's a whole bunch of them.
So you see how it's not just gravity,
it's also electromagnetic that you
actually have to currents being
influenced by uh tidal modulation. But
if we zoom out again, and this right
here is a magnitude 4.4 that struck the
geysers. This is an area of active
hydrothermal activity due to a magma
chamber that's cooling at depth. You
know, California has uh not only does it
have active volcanoes, it has a rich
volcanic past, but you see that a lot of
activity on all sides of California,
right? You get down here at Broly with
the swarm unlocking the southern part of
the San Andreas. You get it all across
Nevada here in the Nevada seismic zone.
You get a 4.1 on the Garlock fault. Uh
this Silver Springs area being very key
because that's kind of a critical
juncture point with the Sierra Nevada
and in Walker Lane. And then you get
these quakes up there in the uh Wafuka
plate and at the triple junction.
So there's a lot happening. Um and
California hasn't ruptured for quite
some time. We have the World Cup. That's
that could be an interesting phenomena.
You know, the last big earthquake
occurred with the um the Giants in the
A's game 89 for at least Northern
California 1989. Giants and A's uh that
happened when there was a Saturn Neptune
conjunction. We're in that right now as
well. It's exactly one synox cycle for
Saturn and Neptune later, 37 years
later. There's a lot of resonance
between the moment right now and the
last big earthquake to strike the the
Bay Area, Northern California, which is
a magnitude 6.9, right? LMA Pria that
stuck in the the Santa Cruz Mountains.
Um, we're seeing California be locked
and loaded. And we have these king tides
which are just going to be battering and
smashing effectively the United States
with tons and tons of energy. We're
seeing anomalous earthquake activity
here in the Gulf, right? magnitude 6.1.
That's bizarre. Reverse thrust coming up
basically from depth. Like what caused
that? I have some ideas. Uh and we have
certain fault systems like New Madrid
which are super overdue. And if we go
back here, New Madrid ruptured at the
very end of 1811 and through the middle
of 1812.
Well, we had a historic double burst
that hit Los Angeles in 1812 and that
was in December.
two magnitude 7 plus earthquakes. First
one being in the basin, second one being
uh two weeks later off here in the
channel. So we see this connection too
in time at least with our recent record
between seismic activity here in New
Madrid and seismic activity in
California. And we know that the the
energy propagating out from faults
influences and loads other faults with
stress. So the the average like stress
accumulation rate on a fault due to
plate tectonics and some of these
geological forces is about 0.1
kilopascals per year. And the the the
tidal loading and the tidal forces the
variation from the tides can be like 1
kilopascal 2 35 or so. But the overall
amount of um pressure on faults can
build up to like a thousand kilopascal.
So the tidal forces are like two, three,
four orders of magnitude less than the
overall forces on a fault, but they're
much higher than the yearly accumulation
rate.
So when that fault finally gets that
critical stress, right, it's grinding up
because tectonics is slowly adding on
one kilopascal every decade or so,
right? Well, that that lunar rhythm can
come in and finally trigger it to go
off. And not only for earthquakes and
faults, but also for volcanoes. We're
probably going to see Hawaii go off.
Kiloa episode 49 on the new super moon.
is probably what's going to happen.
So, really more an educational lesson
for you today as to what are king tides,
the different types of tides, why they
exist, the different rhythms, all the
things. Also, some of the uh history
of um the connection well some of the
science, the connection between tides,
earthquakes, and volcanoes and some of
the earthquake history for North
America.
So, I just wanted to share that all with
you today. Uh, we'll see what happens,
but
anything can happen. Basically,
something crazy happens. I'll keep you
up to date. I've been your host, Stefan
Burns. Thank you all so much for
watching. Please smash that thumbs up
button. Help the channel grow. Subscribe
to stay up to date on everything that is
occurring. I will see you all in the
next video. Have a great weekend.
Wishing you all well. And, uh, well,
yeah, enjoy your big king tides. Uh,
they're coming in. They're coming in
strong. Um, make sure you're careful if
you're at the beach. Make sure you're
careful if you go swimming. Okay, thanks
so much and have a great day.