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  • - Today we're shutting off some of our vices. - Boom.

  • - Greg: Wifi. - Mitch: Beer.

  • Greg: Fast fashion.

  • Start the clock.

  • Boys, do what you want with my body.

  • With this!

  • Ah!

  • First, we need to figure out how we're getting wifi.

  • We stealing.

  • These are microbes that we cultured from our feet

  • - to make our off-grid beer. - Oh, look at that.

  • Mitch: Ew!

  • I'm gonna take on the fast fashion industry.

  • Is this a joke?

  • Science is cool.

  • Cheers.

  • Mitch: We're feeling the heat,

  • and it's not just our sexy good looks.

  • - It's climate change. - Oh.

  • Mitch: So we're taking our passion for the environment

  • out of the classroom and into the country.

  • Greg: We are going off the grid.

  • Mitch: One by one, we'll shut off our basic necessities.

  • - Aah! - Oh, my gosh.

  • Greg: And with help from our team, we will use science...

  • Mitch: For a little self-reliance.

  • Yes! It works!

  • Mitch: See ya, city, because...

  • Mitch and Greg: This is "Shut It Off Asap!"

  • These are our last beers for a while

  • because we are officially shutting off our vices, like alcohol.

  • Or wifi! Also known as "wee-fee." I'm addicted to this stuff.

  • It's also linked to my other vice

  • which is shopping online for fast fashion.

  • A gay guy once told me that swim briefs were single use, and I bought three neon ones!

  • We wanna explore the connection of these vices to the climate crisis

  • and also so if we can find some off-grid alternatives to them.

  • Cheers.

  • In order to make our own off-grid beer,

  • I'm gonna culture our own microbes to ultimately make a unique beer.

  • I'm gonna take on the fast fashion industry

  • by sheering a sheep I can actually see out of this window,

  • processing it, and dying it

  • with natural dyes found from plants around this farm.

  • In the end, I'm gonna make something like this.

  • Our devices have no wifi signal down here,

  • which we need to survive and to finish this episode.

  • But I know that the farm which is around 200 meters away

  • does have internet and has a wifi signal,

  • so we're gonna try and steal that.

  • Greg: Sometimes we forget that wifi use

  • is linked to climate change.

  • In fact, watching online video results

  • in 0.4 kg of CO2 released per hour,

  • adding up to 1.3 billion kgs of CO2 per year.

  • This is because the internet relies on data servers

  • that use fossil fuels for energy,

  • and they also need energy to be cooled,

  • as they get really hot.

  • We need to regulate tech companies

  • to use only renewable energy for their servers

  • and encourage them to build servers in colder climates

  • to decrease the need for cooling.

  • Some companies have hopped on this trend

  • and now build their hot, hot servers in Iceland.

  • The farmhouse wifi is connected to the Internet via radio waves.

  • old-time technology that we still use today.

  • Most of our devices, like cell phones, tablets, and laptops,

  • use omnidirectional antennas to pick up wifi signals.

  • This allows them to be anywhere in your home

  • and communicate with your internet,

  • but they aren't optimal for really long distances.

  • So I'm gonna make a cantenna

  • with an added parabolic dish.

  • I'll build a large reflective dish

  • that will hopeful catch more of the radio waves,

  • and the parabolic curvature will focus them towards a can.

  • The can has a copper wire inside

  • which acts like the antenna in your phone.

  • I'll be making something called a Yagi,

  • which is a unidirectional antenna

  • that was invented in 1926.

  • When the wifi signal from the farm reaches my antenna,

  • this signal will be amplified by a series of metal plates.

  • A reflector at the back and five directors

  • all concentrate those waves onto our active element

  • which ultimately sends an electronic signal

  • to the dongle and then to the laptop.

  • While I begin cutting out

  • the different sized copper plates for my Yagi,

  • Greg is building the frame for his parabolic dish.

  • Greg: The first thing I have to do is cut the wood rods

  • that will hold the cantenna in the center of the parabolic dish.

  • The dish is made of mesh and plastic

  • and will collect the radio waves

  • and send them to that little copper wire in the can.

  • The copper wire's electrons

  • will get excited by the farm's focused wifi radio waves

  • and create an electronic signal that travels down the cable

  • and into a dongle.

  • The dongle interprets and translates that signal

  • into digital data which our computer uses as wifi.

  • Mitch: The Yagi antenna I'm building also uses copper

  • because copper will react effectively

  • with the wifi's electromagnetic waves.

  • The great thing about the Yagi is that it has the potential

  • to get a much stronger signal based on its dimensions,

  • which are specifically calculated

  • for our wifi wavelength and setup,

  • but its downfall is that it has to be pointed perfectly

  • in the right direction to work well

  • because its focused beam is so narrow.

  • I'm a little worried,

  • but if we get the Yagi wrong,

  • it just won't work at all.

  • I think this is one of the coolest builds that we've done.

  • My parabolic dish is ready.

  • Now I have to figure out

  • the perfect place to put this monster.

  • ( gasps ) Ay!

  • The vice that I'm most addicted to sadly is wifi.

  • Who needs it more? Greg, 100%.

  • Hands up. You got me, Mitch.

  • But we both need it in our cabin

  • to do the work that's necessary for this show.

  • You sometimes forget how much internet is integrated into your life

  • until you don't have it.

  • Greg: Mitch and I have been having one to two beers a night to relax.

  • So those are being taken away,

  • which is gonna be harder than usual.

  • Since this is my first time brewing beer

  • or brewing anything really,

  • I've been doing a bunch of research

  • and realized the first thing we need is something called wort.

  • Now not the warts that you get on your body.

  • W-O-R-T.

  • And it's basically a mix

  • of boiled barley, hops, and malt extract.

  • But the most important ingredient we need is yeast.

  • Humanity's existence is profoundly intertwined with yeast.

  • It lives on our skin, in our lungs and guts,

  • and it floats in the air that we breathe.

  • And regulating yeast through brewing and baking

  • has made it a key building block

  • in humanity's transformation from nomadic hunters

  • to a domesticated agricultural society.

  • To break down that malt extract into ethanol

  • we're looking for something called brewer's yeast,

  • and to find it, we're gonna use our bodies and our environment.

  • If we find yeast samples,

  • we can take them and culture them.

  • ( alarm blaring )

  • We're about to swab our toes, butt cracks, and skin

  • to hopefully have yeast on them.

  • - Just doing some science. - Wa-pah!

  • Aw, gross. What a freak.

  • So which do you think will actually have the best growth?

  • Greg: I think it's gonna be one of my skins.

  • I think the butt crack will show the most growth,

  • but it may not be what we actually want.

  • If we can make beer out of the butt crack, we're gonna be rich.

  • - It's gonna fly off the shelves. - I don't know.

  • ( cash register dings )

  • Mitch: Greg and I's job has been to find that yeast somehow,

  • but we also have some wort samples

  • like this one that we've placed around the farm.

  • We have this bit of cheese cloth on top so the yeast can get through,

  • but other insects or animals can't get in.

  • And the hope is that near fruit and near flowers,

  • near oak trees, might find some wild yeast

  • and be able to cultivate that and use it for our beer.

  • It'll take nine to ten hours,

  • so we'll leave the wort out overnight to capture the yeast.

  • - Look what I got. - Ooh. Thank you.

  • Mitch: Lastly, we streaked a plum

  • then added it directly into a wort bottle

  • in order to take advantage of the natural yeast on its skin.

  • Now we just have to wait two to three days

  • to see if we have enough yeast growth

  • to use for brewing our beer.

  • Greg: To make my swim briefs,

  • first I'm going to need the wool.

  • So I'm here with Rachel who's gonna teach me how to shear a sheep with this!

  • Okay, I'm so sorry. I'm freaking out.

  • - I trust you absolutely. - Okay.

  • I trust myself as a teacher.

  • We are gonna be taking the fleece off of a sheep with a razor.

  • Rachel: They have to be sheared, because once they're done,

  • you'll see how much wool comes off,

  • and that's one year's worth.

  • They want this fleece off of them,

  • so that's what I keep thinking.

  • I'm like, "I'm gonna help cool down the sheep.

  • I'm gonna help cool down the sheep."

  • I think we should just get started

  • 'cause I still have to process the wool, dye the wool,

  • and then, you know, knit it into a swim brief.

  • You're gonna become a gorgeous swim brief

  • that a gay guy's gonna wear on the beach.

  • - ( bleats ) - She just said, "I can't wait."

  • - Ready? - I love you.

  • It's like you've done this before.

  • - Once or twice. - Oh, my God, it's, like,

  • the most satisfying thing I've ever seen in my life.

  • - Ready? - I'm ready.

  • I just don't wanna cut them. I don't wanna cut them.

  • - So like this? - Yep.

  • Oh, my God.

  • Shearing sheep means we're working with natural fiber,

  • but a lot of our clothes are made with synthetic fibers like polyester,

  • and that polyester contributes to plastic waste.

  • For example, one 6 kg load of laundry

  • releases more than 700,000 microplastic fibers into waste water,

  • which means washing clothes

  • produces the equivalent of 50 billion plastic bottles

  • of waste per year.

  • All the way out with that leg again.

  • There! Beautiful!

  • My hands feel amazing. I haven't washed them because lanolin is an oil

  • that comes off the sheep when you're actually touching them

  • and shearing them, and it's good for your hands.

  • So I'm just basking in these sheep shearing hands.

  • Baby, do you feel naked and like a newborn?

  • Rachel: She says, "Oh, I feel wonderful."

  • Thank you so much. I never thought I'd do something like this.

  • Rachel: For the average Canadian sheep farmer,

  • selling that wool doesn't even pay for me to come shear the sheep.

  • So it's just something you have to do for the health of the sheep.

  • Wouldn't that be a good thing, Canadian wool? I don't know.

  • Yes, you could find it if you looked for it.

  • There are smaller producers that do have wool sheep,

  • and the majority of their sales would be private, directly to the buyer.

  • - Greg: Like making clothing? - Rachel: Exactly.

  • Greg: Now that we've sheared the sheep,

  • we need to get it into yarn that I contextualize knitting into a swim brief.

  • It's really hard to have a strong opinion about responsible production

  • when you don't understand how things are made.

  • 85% of textiles end up in landfills each year,

  • which is the equivalent of one garbage truck of clothes

  • being dumped in a landfill every second.

  • Fast fashion companies and influencer culture

  • are constantly trying to make us buy new things,

  • but if you do need to consume things,

  • honestly, second-hand shopping is incredible,

  • and you kinda carve out a little style for yourself.

  • We both have our antennas finished.

  • I am keen to try my Yagi first.

  • Our cabin's right there, but we need line of sight

  • to the farm for both of these to work,

  • so that's why we brought them up here.

  • Greg: The wifi comes to us in the form of radio waves,

  • a type of electromagnetic radiation.

  • And hopefully we'll capture those waves

  • and they'll induce an electric current in our copper antennas,

  • which is hardwired to the computer.

  • Let's see, as I slowly lift it up towards the farm.

  • Go on the internet. See if it works.

  • Oh, my God. Oh, my God.

  • - I'm loading a video. - Okay, wow.

  • Greg: Oh, my gosh.

  • - Mitch: Okay, full HD video. - Greg: Oh, wow.

  • - It works! Wow. - We have full internet

  • from hundreds of meters away right now.

  • - Oh, that's crazy! - That's really cool.

  • It's literally a laser beam to the wifi signal!

  • I mean, It's not literally a laser beam.

  • It is an antenna.

  • Because I don't want to be out here holding this all the time,

  • I'm gonna attach this to a tree, find the perfect angle,

  • - and then we can leave it. - Okay, okay, now we do mine. Now we do mine.

  • - All right. - Greg: Unlike Mitch's antenna,

  • my parabolic dish has a huge surface area

  • to catch the radio waves,

  • so it's a bit more forgiving when it comes to the placement.

  • Three, two, one.

  • Okay, it's starting. Give me a sec. We need five seconds.

  • Okay, YouTube's loading.

  • Oh, my God.

  • We got video! This is so cool.

  • - This is crazy. - Okay, we literally have streaming video.

  • We have two sources of internet now.

  • We can just run these wires into our cabin,

  • and we can actually use it inside now.

  • We just have to make sure that the farm

  • continues to pay their internet bill.

  • - We stealing. - True.

  • Are yeast sample are growing.

  • Now it's time to get an expert opinion.

  • Your wort looks great.

  • It's got sediment in the bottom, which looks like yeast.

  • There's nothing scary floating on the top.

  • I think you'd be good to go there.

  • Woohoo!

  • Let's talk about our Petri dishes.

  • Well, I don't know whose toe you swabbed,

  • but someone needs to wash their feet.

  • Your best tool is your nose.

  • The sorts of bacteria that you don't want are very obvious.

  • If it smells bad or it's turned a funny color,

  • that's a sign you don't want to use it.

  • Of all the things you caught on your plates,

  • the only one I think I would wanna try

  • is on your plum plate.

  • You have a nice round brownish colored colony.

  • That might be yeast.

  • Mitch: Based on Bryan's advice,

  • I'm taking the yeast culture from the plum plate

  • and re-streaking it onto a new agar plate

  • so that it can grow free from any other contaminants.

  • Our wild yeast wort is finally ready.

  • Now I'm gonna choose which one I'll actually use to make beer.

  • And the way we're gonna choose which wort is by my nose.

  • ( drum roll )

  • And the winner is the garden path.

  • We know that fruit often attract yeast towards them,

  • so that's actually interesting

  • that we have might have true brewer's yeast in here.

  • Greg: We have sent the sheep's wool to Rampart House,

  • the site of a local wool processing mill

  • where it is cleaned and left out to dry for 24 hours.

  • The dry wool is put through the picker,

  • a machine that separates the wool,

  • opening it up to prepare it to be carded.

  • The carder machine straightens the wool

  • so it can be spun into yarn.

  • It's put through a spinning wheel,

  • which changes the shape of the wool fiber

  • into a braid-like form.

  • The surface of wool fiber

  • has overlapping scales of protein.

  • These lock the fibers together in the yarn,

  • which is what makes wool so strong.

  • Finally, the wool is wrapped into a bundle called a skein,

  • and voilà.

  • It's now yarn ready to be knit into my swim brief.

  • Believe it or not, this is the wool that I sheared

  • off of that poor sheep to make swim brief.

  • But of course, I need to dye it.

  • So I am here with Jamie and Christopher of Cabin Boy Knits,

  • who are gonna help me dye this au natural.

  • Maybe a yellow or a red

  • depending on what literal foliage

  • we can get from around here.

  • In the first pot,

  • we have leaves that were picked from a lilac tree.

  • And it makes a fantastic color. It is yellow.

  • Well, that looks like something that comes out of my nether region.

  • We call it urine.

  • We used to always dye our clothes with plants.

  • For example, all denim was dyed with the indigo plant.

  • But now 99.99% of our denim

  • is dyed with synthetic indigo

  • which made of cyanide, petroleum,

  • and other chemicals like formaldehyde,

  • benzene, and aniline.

  • The chemical aniline is a carcinogen

  • that the CDC has declared very toxic.

  • And the industries using this dye

  • release 2/3 of it into our waste water, lakes, rivers,

  • and the other 1/3 is absorbed into our jeans.

  • We're walking cyanide vessels.

  • And in one, we've got a container of bugs.

  • Bugs?

  • We have cochineal and lac.

  • Dye from cochineal bugs

  • is still commonly used in cosmetics and food coloring,

  • while dye from lac insects dates back hundreds of years

  • to ancient India, where it used to color wool and silk.

  • While not ideal for vegans,

  • humans have been eating insects and using them for dye

  • for thousands of years.

  • I feel like I'm a witch brewing,

  • and I've always loved and wanted to be a witch.

  • - Ooh, I love that. - That's nice.

  • I love that rich bloody purple.

  • I'm so happy to make a connection

  • between the dyeing of clothes and some natural alternatives.

  • The process of dyeing our clothes uses the equivalent

  • of two million Olympic-sized swimming pools of water each year,

  • with the fashion industry being responsible for 20% of all water pollution.

  • Clothing companies use these chemical dyes because they're cheaper.

  • They get to increase profits while the true cost

  • is endangering our health and destroying our planet.

  • You've done something to this wool.

  • I put it in rhubarb leaves.

  • Greg: Soaking the wool in rhubarb leaves

  • is done because rhubarb acts as a mordant,

  • or binding agent, that will allow the dye

  • to adhere to the wool and not wash off.

  • - So should we put this in water now? - Yeah, sure.

  • Gonna increase the surface area to volume ratio

  • by dropping it into this water,

  • let the fibers breathe, per say, in thine wa-wa.

  • Oh, I'm so excited.

  • This is not the quickest experiment that we've chosen.

  • Not only is the beginning a huge amount of work,

  • there's a lot more to do

  • when it comes to even just brewing it

  • once we have our yeast.

  • The most common species of brewer's yeast

  • is saccharomyces cerevisiae,

  • which has been also been used in wine making

  • and baking since ancient times, and is sometimes considered

  • the oldest domesticated organism.

  • Once the yeast is inside of the wort,

  • it will start to break down the sugars for its own energy,

  • and in the process release carbon dioxide

  • and ethanol, otherwise known as drinking alcohol.

  • After the all the sugar in the wort is consumed,

  • the first fermentation is done, and the yeast will either

  • die off or go dormant

  • and can be filtered out if desired.

  • I'm here with Cam

  • who's gonna teach me how to brew our beer.

  • Well, the first thing we're gonna do,

  • we're gonna try to make a big pot of sugar water

  • that we can feed to the yeast.

  • We're gonna use dry malt extract and specialty malts.

  • We actually could've harvested these natural ingredients on the farm,

  • but decided to bring them in to save time.

  • - Ooh, we got a good boil here. - Gently place.

  • The brewing process would seem kind of simple.

  • This is actually pretty complex.

  • Let's see how we're doing. A lot of aroma coming out of there.

  • Now we're gonna pour in the extract, gonna bring this guy up to a boil.

  • - Wow. - Go ahead and throw the bittering hops in.

  • Okay.

  • It just smells like beer. That's so cool.

  • We let the brew boil for an hour before adding more hops.

  • Next step is add aroma hops to the beer.

  • Mitch: Now the mixture has to cool down

  • so that it's ready for us to add the brewer's yeast.

  • The thing that's really sticking out to me is the smells.

  • I walk by breweries all the time,

  • and I never really understood what that smell was,

  • but now I actually can see

  • what ingredients are bringing out those aromas,

  • and it's making me like brewing and beer a lot more.

  • Here we go, daddy!

  • Greg has given us full creative control to run with this thing.

  • Boys, do what you want with my body.

  • So we're gonna need to take some measurements.

  • Don't mind my hand. Are you runner by any chance?

  • I do happen to run. Thanks for asking.

  • Oh, well, there you go.

  • 23 1/2 inches.

  • Christopher: The waist?

  • 34 3/4.

  • Okay, the next one is the in-seam.

  • How do we do that?

  • 8 inches.

  • - Is this a joke? - No.

  • I am sweating.

  • Guys, buy me a drink next time.

  • It was wild, it was fun.

  • We're all on the same team, so I felt very comfortable.

  • Yeah, that's all I'll say about that.

  • Our wort has cooled down,

  • and we put it into these three jugs,

  • which is where our final fermentation's gonna take place.

  • Absolutely.

  • Mitch: The starch that was once in the malts

  • has been converted by natural enzymes into sugar.

  • And up here we have our cultured yeast...

  • ...which will feed on that sugar.

  • But, yeah, we're gonna dump those in, and hopefully the fermentation will get going.

  • The byproducts will be carbon dioxide--

  • that's the beer's bubbles-- and alcohol.

  • - So this is plum. - Go right ahead.

  • We don't know if it's fermented too much,

  • but we did see some bubbles.

  • And on the bottom we can see a little bit of--

  • Right? That's the yeast there, that physical part?

  • Cam: A little bit of biomass down there. Yep, definitely.

  • Mitch: I've learned that when brewing beer,

  • your nose should lead you every step of the way.

  • If it smells bad, the wort will make bad tasting beer.

  • Does it smell normal?

  • - Yeah, smells like wort. - Okay, great.

  • Each yeast sample, along with turning the sugars into alcohol,

  • will bring different flavors to the beer.

  • Like a pro. This guy's an airlock.

  • Essentially, it's gonna let pressure out of the bottle

  • but not let any air get back in.

  • Otherwise this would maybe, like, explode?

  • - Yeah. Exactly. - Onto garden.

  • This one was actually near some raspberries as well

  • We thought, yeast near fruit, likelihood higher.

  • - No funk, which is generally what you want. - Cool, okay.

  • I'm excited to smell this local yeast.

  • There's already so much foam.

  • That's the first sign of an actual fermentation.

  • - Ooh! Okay, final pour. - Hit it.

  • We have all our wort with all our three samples,

  • plum, garden, and local yeast.

  • Now we wait?

  • Yeah, you wanna keep them kind of cold and dark.

  • Just keep the UV light off of them.

  • Start the clock.

  • Come on, lilacs. Give me the yellow I need for my swim brief.

  • I love lilac shrubs. I kind of was, like, ignorant.

  • I thought, "Oh, the green leaves, that's green."

  • But they really do create this really nice yellow.

  • We're gonna add a little bit of alum to it,

  • and it's usually 10% of the weight of the yarn.

  • Greg: Alum is a mineral that acts as a mordant

  • binding the dye to the wool

  • while also giving the color added vibrancy.

  • Yes.

  • Come to my nether regions.

  • - Do I squeeze thine yarn? - Gently.

  • Gently. Just plop it in?

  • Yes.

  • Oh, my God. Good luck, hons.

  • Oh. Oh, wow.

  • Oh, it's gorgeous.

  • Okay. Yes.

  • - Good job. - Into my deep violet.

  • Oh, you can already see it dyeing. Oh, that's so satisfying.

  • So we have both of our dyes in our pots.

  • We're gonna let them steep and brew, some might say, for 20 minutes.

  • The fashion industry is incredibly wasteful.

  • So this whole experiment for me is honestly just so exciting,

  • and it's also making me realize how challenging it is

  • just to make one teensy little garment.

  • The wool has now been soaking in the dye for an hour.

  • I can't wait to see how it looks.

  • Let's take a look at the lilac--

  • Oh, my-- it's so nice!

  • I can't believe green lilac made that yellow.

  • That's so cool. I love it, I love it.

  • Ooh, look at that gorgeous deep maroon.

  • I love it, I love it, I love it. Okay.

  • Thank you so much for naturally dying my swim brief.

  • Holy shit. It literally smells like beer.

  • There is some concern, especially from me,

  • whether or not these drinks will be safe.

  • After all, we've been culturing microbes.

  • Like, at the end of this, if we can test not only the pH of the final brew,

  • but also the gravity, which is the amount of sugar that's left in it,

  • and if those metrics are right,

  • we can be very confident it will be safe

  • even if it means it won't necessarily have the best taste,

  • at least we'll have a result at the end.

  • All the beers tested safely,

  • so now we can bottle them up.

  • Ta-da!

  • All right, we have our final brewed beers.

  • I mean, we probably could've waited a little longer

  • to let these brew, but we were thirsty for some brewskis.

  • Yeah, you know I need the beer in my belly.

  • And we're gonna do a little taste test now.

  • So we've got our garden, our plum,

  • and our local yeast.

  • - Yeast from the garden! - You ready to start?

  • - Yes. - Okay. Oh, do you hear that carbonation?

  • - Ooh. - Okay, cheers.

  • - That's good beer. - Wow!

  • It tastes like the beers you spend, like,

  • $11 for at, like, a fancy bar.

  • Next up, we will do our plum.

  • Oh, the fizz!

  • I'm gonna say it. It tastes like a plum.

  • Our last beer is our local yeast.

  • Ooh!

  • That tastes completely different.

  • Tastes completely different.

  • It actually tastes lighter to me.

  • It tastes like a light iced tea.

  • On the count of three, we'll point to our favorite.

  • - One, two, three. - Garden!

  • Garden, girl.

  • It is one of the most delicious beers I've ever had.

  • I'm not even kidding. There's the most flavors in it,

  • and it's the least dank.

  • - Wow. - So garden it is.

  • I'm so proud of you. I'm so happy that we now can drink again.

  • I'm so excited to actually take this practice into my real life.

  • I'm honestly feeling tipsy,

  • but you promise me I'm not slowly dying.

  • I cannot promise you that.

  • Greg: Okay, Mitch, I'm gonna unveil

  • my teensy-weenie wool swim briefs.

  • I'm ready to see it. I'm a little nervous.

  • Oh!

  • That's actually pretty cute.

  • Greg: It's a very, like, European man on the beach vibe.

  • That's very impressive.

  • So you sheared it, you dyed it,

  • you processed it, all that, and now you wear it--

  • Lilac and bugs! Lilac leaves and bugs.

  • - Oh, my gosh. - Who knew?

  • That's incredible, Greg.

  • I think we should've made two, but between you and me,

  • I'm kind of happy I got the one of a kind.

  • Ah! Stop! They really love these boots.

  • They're very cute. Oh, Jesus. oh, my God.

  • Okay, see? This is kind of challenging.

  • Okay, okay.

  • Oh, Lord. Oh, God.

  • ( shrieks )

- Today we're shutting off some of our vices. - Boom.

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足の裏の微生物でビールを作る|早急に中止すべし (Making Beer From Our Foot Microbes | Shut It Off ASAP)

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    Summer に公開 2021 年 10 月 27 日
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