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  • Hey everybody, got a special video for you today. I, you may not know this, love

  • trees they're tall and they're skinny just like me and they do so much for us

  • from making oxygen so we can breathe to cooling urban environments with their

  • shade the literally holding the ground together to prevent erosion so when we

  • here at scishow heard that Mr Beast and Mark Rober were assembling a team of

  • tree lovers to help them plant 20 million trees by the end of 2019

  • we were all in everybody on the scishow team agreed we are #TeamTrees

  • and we want you to join us. For every dollar you donate at teamtrees.org the

  • Arbor Day Foundation will plant a tree the goal is to get to 20 million by

  • December 31st and we've put together this compilation of our favorite tree

  • episodes to inspire you to donate. So kick back enjoy the show and be sure to

  • head to teamtrees.org afterwards to help us plant trees.

  • [ ♪INTRO ]

  • First up we're going to talk about what is arguably the most delicious tree out

  • there: avocado trees. Don't eat the tree part, though, but who doesn't love their

  • tasty green fruit mashed and spread on a piece of toast? But it turns out it is a

  • bit of a miracle that avocados are still around we very nearly lived in a world

  • without them. Here's Michael to explain their almost tragic fate.

  • whether it's sliced on top of a salad

  • tucked into California sushi roll or mashes guacamole in a burrito people

  • seem to love avocados in fact people in the United States munched through 4

  • billion of them in 2014 alone they taste great they're good for you but one of

  • the most amazing things about avocados is that they still exist see they had a

  • special relationship with huge beasts that lumbered around Central America

  • tens of thousands of years ago and when these animals went extinct avocados

  • could easily have gone down with them but luckily for us they were saved by

  • some prehistoric farmers the word avocado comes from the Aztecs

  • specifically the Nahuatl word avocado which means testicle I mean you can kind

  • of see where they got the name it probably has something to do with the

  • you know the shape and texture of avocados the way they hang from trees

  • anyway before they became popular in the rest of the world they were cultivated

  • in Mesoamerica for thousands of years avocados are a fruit basically swollen

  • plant ovaries but nutritionally they're very different from other fruits you'd

  • find in the supermarket first like apples and oranges are composed mostly

  • of water and sugar and in general fruit is probably better for you than say a

  • bag of sweets or a sugary drink because it contains fiber which slows down the

  • sugar absorption and makes you feel fuller faster by comparison avocados

  • have much less sugar but more protein in fat that gives them that smooth creamy

  • texture but it also puts them on the calorific side for a fruit anyway they

  • also contain high levels of potassium and folate nutrients as well as vitamins

  • c e and k and technically avocados are berries like grapes and blueberries

  • rather than holding lots of little seeds the avocado goes all-in on one big seed

  • that massive ball at the core of each fruit and avocados with their huge seeds

  • evolved alongside equally huge guts tens of thousands of years ago during the

  • Pleistocene epoch a menagerie of mega fauna or giant animals roamed the

  • Americas while woolly mammoths chilled out in the North ground sloths weighing

  • three tonnes and armadillos the size of cars lived in the warm equatorial forest

  • sneeze giant sloths and armadillos a lot of avocados their digestive systems

  • would break down the tough skin and absorb the high-energy pulp then the

  • indigestible seed which contains bitter toxins that kept the animal from chewing

  • it up passed right out the other end the animals got a tasty meal and the avocado

  • trees got to scatter their offspring throughout the Mesoamerican forests plus

  • the seeds got some nice warm fertilizer to give them a

  • nutritious boost and with these mega fauna around to eat the fruit avocado

  • trees could keep growing berries with increasingly massive seeds a bigger the

  • seed the more nutrients could be stored inside as a starter kit for the baby

  • tree this is especially useful in dense tropical forests where canopies of older

  • trees block out much of the light for the saplings below so instead of

  • depending entirely on sunlight for energy the avocado seedlings could

  • supplement photosynthesis with the nutrients in their seed to survive this

  • happy evolutionary match didn't last though eventually the megafauna suffered

  • a mass extinction around ten to thirteen thousand years ago we don't know exactly

  • why but scientists think the warming climate at the end of the last ice age

  • was partly responsible though it was also suspiciously close to the time

  • humans began spreading across the Americas no doubt enjoying lots of giant

  • mammal meat along the way this meadow vacarro's were in trouble without their

  • large gutted evolutionary partners the trees stopped thriving the fruit fell to

  • the ground and the seeds mostly just became food for mold but more hungry

  • creatures were nearby the new human arrivals love the avocados flesh as much

  • as the ground sloths did they also had the tools to eat them and the brains to

  • figure out how to grow them avocados were all set for domestication the

  • avocados we eat today are probably a little different than the ones that grew

  • tens of thousands of years ago for example thanks to artificial

  • selection they probably have more pulp than their ancestors but they've kept

  • their huge seeds ready and waiting for the guts of long-dead beasts

  • so we're lucky that thousands of years ago some farmers decided to plant a

  • bunch of avocado trees and hey I bet that thousands of years from now our

  • descendants will be pretty happy if we plant a whole bunch of trees too so

  • don't forget to go to team trees org after this episode to help us plant 20

  • million trees and speaking of planting trees avocados aren't the only tree

  • whose fate is in our hands the American chestnut is also struggling to survive

  • our modern world though that's because of a deadly fungus not the lack of seed

  • spreaders time for Olivia to explain

  • picture a forest full of gigantic trees soaring 30 meters into the sky with 5

  • meter wide trunks you probably envisioned something like the giant

  • sequoias and redwoods that grow on the western coast of the United States but a

  • little over a century ago the east coast of America was also home to giant trees

  • so somewhat smaller than their Western counterparts American chestnuts were

  • huge and they were all over the eastern US at the dawn of the 20th century then

  • within a few decades they were almost extinct the culprit a

  • fungus that strangled the trees from within brought by accident from Asia

  • since their demise scientists have been trying to figure out if there's a way to

  • bring the American chestnut back and thanks to technological advances they

  • may finally have a solution if they can convince the government to let them

  • plant genetically modified trees to understand what happened to the American

  • chestnut we have to go back in time to the end of the 19th century back then

  • American chestnut trees were known as the Sequoias of the east because they

  • had huge trunks and were tall like the West Coast Giants and they were all over

  • in 1900 around 1/4 of the hardwood trees east of the Mississippi were American

  • chestnuts in some places they made up as much as 40% of the forests but by the

  • 1940s they were all but gone the first signs of trouble were seen in the Bronx

  • Zoo in 1904 when Soares called cankers were discovered on a stand of dying

  • trees scientists soon realized that the disease was widespread and by 1912

  • botanists had managed to identify both the fungus responsible and it's point of

  • origin the chestnut blight fungus gets under the trees bark by hitching a ride

  • on insects the fungus then attacks and feeds off of the trees water

  • transmitting cambium tissues essentially choking the tree the blight fungus

  • probably arrived in New England in the 1870s when Japanese chestnut trees

  • became popular ornamental plants the imports are resistant to the blade so

  • it's likely they carried it to America where the chestnut trees were totally

  • susceptible and by the 1940s it's estimated that nearly 4 billion trees

  • had died but they didn't go extinct entirely a few scattered populations

  • still exist mostly trees that people planted outside of their original range

  • there are also smaller specimens along the east coast that were isolated enough

  • from their kin to avoid infection and it turns out that like the Dread Pirate

  • Roberts even the dead trees are only most we did while the blade destroyed

  • their trunks their root systems remained and even decades later these living

  • stumps occasionally eke out a chute of new growth but it's usually in vain

  • because the blight is still around although it isn't doing much damage to

  • them it's still lurking in oaks that took over after the chestnuts were wiped

  • out so before any chestnut shoots can reach a reproductive maturity they catch

  • the blight but where there's growth there's hope so scientists have been

  • trying to figure out a way to bring American chestnuts back to their former

  • glory since the 1980s forestry specialists and geneticists have tried

  • all sorts of things to make blight resistant trees they attempted a

  • technique called back crossing for example we're surviving specimens and

  • their offspring were carefully bred together to select for natural

  • resistance genes but while this method seems to work for European chestnuts it

  • hasn't worked as well with the American ones probably because the European ones

  • were more resistant to begin with researchers have also tried hybridizing

  • American chestnuts with blight resistant Chinese chestnuts but so far they

  • haven't been able to get the resistance traits to reliably pass down from

  • generation to generation but one method that does seem to work is genetically

  • modifying the trees it turns out that we trust a fungal disease of wheat has a

  • similar mechanism of infection to chestnut blight both use a compound

  • called oxalic acid to soften up important structural tissues while also

  • attacking their host cambium by stimulating the growth of calcium

  • oxalate crystals blocking the flow of nutrients resistant forms of wheat

  • produce an enzyme called oxalate oxidase which breaks down the acid thereby

  • blocking the dispersal of the disease and preventing the growth of those

  • crystals scientists have introduced this wheat gene into American chestnuts and

  • in 2014 they revealed that they produced a 100% resistant tree that passed that

  • trait onto its offspring success but the trees haven't been planted yet the

  • researchers have conducted some preliminary studies to show the trees

  • don't cause any unexpected harm to the organisms that live in the environments

  • that they once inhabited and then they requested permission from the US

  • Department of Agriculture to release the transgenic trees into the wild but

  • they're still waiting for the green light and that could take a while if

  • it's ever granted at all aside from the general anxiety that accompanies the

  • development of any GM some ecologists worry that a return of

  • the American chestnut would disrupt a century-old

  • ecosystem that's developed without it on the other hand if successfully put in

  • action this method could also work for restoring other wild tree populations

  • beleaguered by fungal invasives like elm trees I guess only time will tell if the

  • Sequoia of the east will once again stand tall

  • it's really sad that billions of chestnuts just died so suddenly even

  • today we're losing trees at an alarming rate which is why it's more important

  • than ever to plant more and you can help us do that if you go to team trees org

  • after this episode it would be a shame if we didn't have all the wonderful

  • weird trees we have today like for example the ones in Europe's dancing

  • forests oh look it's a younger version of me here with the deets on those

  • the dancing forest of Kaliningrad is exactly the kind of place where you'd

  • expect to find a werewolf creeping through the mist located in a place

  • called the caronian spit off the Baltic Sea on the border of Russia and

  • Lithuania the strange forest is known to locals by a jollier name the drunken

  • forest because well the stand of pine trees looks more than a little

  • schnockered as they twist and curves stretching upward and contorted loops to

  • find their way to the sky and here's the thing no one knows why these trees look

  • like they're grinding to Marvin Gaye of course theories abound some suggesting

  • unstable soils the cause or beetle damage or even nuclear radiation local

  • legends say that crawling through one of these tree loops in the right direction

  • will earn you an extra year of life a more popular non-magical theory suggests

  • spousal winds were the original shaping force and there is a precedent for that

  • if you've ever hiked into an Alpine zone forests you've probably seen patches of

  • stunted twisted supercooled mini trees called Krumholtz they get so thoroughly

  • clobbered by a harsh cold winds that they end up growing more horizontal than

  • vertical but some people think that the trees in the dancing forest have been

  • trained to grow that way humans have long been manipulating trees for

  • commercial or aesthetic purposes in mr. Miyagi and his bonsais he was all about

  • tree shaping humans can train a young tree to grow in unconventional ways by

  • laying a heavy object on its skinny trunk sometimes for years the tree just

  • like the house plant in your windowsill wants to grow toward the Sun really bad

  • and no weight is going to stop it from reaching the light a process called

  • phototropism and whether plants are made to bend intentionally or not the effects

  • of phototropism can change the character of its tissues in trees the wood that

  • forms under the pressure of weight is called reaction wood or in conifers

  • compression wood it's created when the layer of tissue beneath the bark called

  • the cambium thickens below the source of the pressure to support the horizontal

  • weight of the tree in time the funny shape of the bend becomes permanent and

  • it leaves behind a record of oval or oblong instead of more circular rings in

  • the case of the dancing of forests local historians have no recollection of any

  • human manipulation to create this effect but there is another forest in Northwest

  • Poland called the crooked forest made of about 400 pine trees that all have

  • uniform 90-degree bends at base of their trunks the trees are all

  • the same age and they all bend north because of this uniformity many people

  • believe that this forest was manipulated by humans perhaps to grow uniquely

  • shaped wood for oxen yokes ship hulls or for furniture making that particular

  • theory maintains that the trees were shaped before 1930 but were abandoned

  • before they could be harvested with the outbreak of World War two but ultimately

  • even the cause of the crooked forests odd tree shapes remains a mystery and

  • they could also be attributed to some powerful force like strong winds heavy

  • snow and ice pack or even the result of one of my favourite theories being run

  • over by Nazi tanks as young trees during the war you know all this reminds us

  • that while scientific explanations of natural phenomena are usually pretty

  • cool and often necessary sometimes it's maybe a little bit cooler for it just to

  • be a mystery oh those twisty trees are very cool you

  • know what else would be cool if team trees successfully plants 20 million

  • trees in the next two months you know you want to be a part of that and you

  • can be if you go to team trees org to donate and speaking of cool things it's

  • fall here in the northern hemisphere which means the temperature is falling

  • and leafy trees are painting the landscape with beautiful yellows oranges

  • and reds if you've ever wondered why that happens we'll wonder no more

  • Michaels got the skinny on autumn leaves the changing leaves of autumn are really

  • awesome to look at but they're also a really striking example of nature taking

  • extreme measures to protect itself you're probably familiar with

  • photosynthesis it's the process plants use to turn carbon dioxide water and

  • light energy into sugars and oxygen and you probably also know that

  • photosynthesis depends on a pigment a colored compound called chlorophyll but

  • you may not realize that plants contain lots of other pigments as well some of

  • the most important are the carotenoids yellow orange and brown pigments they

  • give color to things like corn carrots pumpkins and sweet potatoes and the

  • anthocyanins which give red and purple color to cherries berries pomegranates

  • and red apples to name a few all of these pigments play an important role in

  • the plant's functions but there's usually far more chlorophyll in a plant

  • than anything else because photosynthesis is a plant's number-one

  • job however many trees are less active in the winter because they grow at

  • northern and southern latitudes that get less sunlight during those months these

  • trees are called deciduous from the Latin word that means

  • to fall off since deciduous trees don't do much photosynthesis in the winter it

  • doesn't really make sense to spend of energy maintaining big green leaves

  • so when the days get shorter and the temperature gets cooler they send less

  • of their limited resources to the leaves and start using what water and nutrients

  • they have to keep the rest of the tree alive the chlorophyll in the leaves

  • breaks down and the green color gradually goes away and when that

  • happens the other pigments which were there all the time are better able to

  • show off their colors before the leaves die entirely and fall off the tree so

  • the leaves aren't actually changing pigments they're just losing their

  • strong green pigment to reveal the other colors in the tissue after the tree

  • stops supply of food and water to the leaves all that's left is for the tree

  • to cut them off the tree forms a special layer of weakly bound cells near the

  • base of the Leafs stock then another layer of cells at the very bottom of the

  • stalk expands to push the leaf away eventually the leaf can be knocked off

  • easily even by a light wind and then it's your job to rake them up it's

  • pretty weird when you think about it that deciduous trees just discard huge

  • chunks of themselves every year to make it through to spring it's just like oh I

  • don't need these hands anymore I'll grow new ones in a few months so here's a

  • really young me to talk about the oldest trees in the world well when you started

  • talking about the oldest or biggest or almost any other superlative in nature

  • you're unlikely to find a cut and dry answer there are in fact two contenders

  • for oldest tree and it depends on how you define the term the oldest known

  • individual tree was discovered in 2012 in the white mountains of east central

  • California a great northern Bristlecone pine that's 5060 three years old that's

  • older than the pyramids here's a photo of a similar Bristlecone pine now it

  • doesn't look exactly alive and that may be part of its secret to success the

  • high cold arid climate of the White Mountains turns out to be the perfect

  • environment for fostering these ancient trees strangely the higher you go in

  • those mountains the older the trees get and several studies have suggested that

  • the longevity of pines there is directly related to how bad the growing

  • conditions are not only is the average rainfall in the White Mountains less

  • than 30 centimeters per year but most of the trees are growing on dolomite a type

  • of limestone in highly alkaline soil with very few nutrients but over time

  • bristlecones have adapted to this alkalinity unlike other trees which has

  • left them to grow without much if any competition

  • whistle guns also don't expend a lot of energy on their growth in a good year

  • the trees girth will increase by about 0.25 millimeters so instead they can

  • make the most of their meager resources as a result bristlecones tend to have a

  • pretty high proportion of dead to live wood but this has its advantages to

  • reducing respiration and water loss and it also helps that there aren't many

  • other trees around which makes it less likely that they'll fall victim to a

  • forest fire over the millennia researchers are able to determine these

  • trees precise age thanks to a process called cross dating which involves

  • taking core samples from both living and dead trees and then matching up the

  • patterns of their rings to come back with a timeline that goes back thousands

  • of years for our second contender we're going to Fish Lake National Forest in

  • south-central Utah here it lives a clonal colony of quaking aspen that may

  • very well be the oldest living thing on earth it's been named Pando and every

  • tree or stem as they're called in the half square kilometer colony is

  • genetically identical although no individual tree in the colony is older

  • than 200 years they're all connected by a single root system that's at least 80

  • thousand years old and possibly much older at over 6,000 metric tonnes it

  • also holds the distinction of being the heaviest known living organism on earth

  • so how did bando get so old clonal colonies like panda can reproduce either

  • by flowering and producing seeds or by producing a clone of themselves in this

  • case cloning just means extending the enormous network of roots enforcing a

  • new stem up through the ground because the heart of Pando is so far beneath the

  • ground it can't be killed by a forest fire recent studies have found that

  • Pando hasn't reproduced sexually in more than 10,000 years that's quite a dry

  • spell and not that surprising given its age that just means that it's up to the

  • root system to continue producing clones and letting the forest fires burn to

  • keep invading conifers at bay so thanks for the evolutionary tips world's oldest

  • trees I'll be sure to keep them in mind when I turned 5000 years old and want to

  • go for another five thousand 80,000 years just imagine what Pando has

  • witnessed in its lifetime it must feel like every new clone tree grows into a

  • totally different world and it's not just Pando of course lots of trees can

  • live for centuries if not millennia trees planted today could last long

  • after you and I are gone they'll be witness to the future we're creating

  • with the choices we make so let's make good choices for them and for us by

  • planting trees we can make the world a better place in all sorts of ways so I

  • hope you'll join us you can be part of team trees by donating at team trees org

  • every dollar donated plants a tree thanks to the Arbor Day Foundation

  • you

Hey everybody, got a special video for you today. I, you may not know this, love

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