Primitive Technology- Making poisonous Black bean safe to eat (Moreton Bay Chestnut)
Cooking and leaching Black bean to remove the poison making it safe to eat. A basket was made to leach the poison out in a stream. Also shown are Atherton Oak nuts. The Aboriginal artifacts found near by were probably made by the Yidinji people (if you're reading this leave a comment below). It seems like a lot of effort to prepare black bean to eat but consider the effort that goes into making bread from scratch (plowing, sowing, winnowing, storing, milling, baking etc.). With Black bean it is collected when needed, storage is unnecessary as nothing eats it raw and it can be left in the stream till needed. It contains more energy than potatoes(but less than grain) and contains lots of starch and protein. This was a staple food of the rain forest people once.
IMPORTANT EDIT: Always do an edibility test before consuming new bush foods. I left the Moreton bay chestnuts to soak in the running stream for a week (because I was busy) but it only takes 3 days to leach out the poison making it safe to eat.
I estimate that 200 Moretonbay chestnut seeds alone would meet the energy requirements of an adult for 3 days. If you prepared this food on a continuous 3 day cycle it would be as follows: Collect fire wood, get the grated meal soaking in the stream from 3 days earlier, bake it into bread, collect 200 new seeds, bake them in a pit till soft, grate or slice them finely into the basket and put it back into the stream for 3 days. The bread made from this easily stores for 3 days. So you spend one day (probably only the morning) making the food and the other 2 days free for other activities.
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Primitive Technology- Tiled Roof Hut
I built this tiled roof hut in the bush using only primitive tools and materials. The tools I used have been made in my previous videos. It should be pointed out that I do not live in the wild and that this is just a hobby. It should be obvious to most that this is not a survival shelter but an experiment in primitive building technology.
To cut and carve wood I used the celt stone axe and stone chisel made in this video. To carry water and make fire I used pots and fire sticks made in this video. Finally, to store fire wood and dry, unfired tiles, I used the wood shed built in this video.
The wooden frame was built with a 2X2m floor plan and a 2m tall ridge line with 1m tall side walls. 6 posts were put into the ground 0.25 m deep. The 3 horizontal roof beams were attached to these using mortise and tenon joints carved with a stone chisel. The rest of the frame was lashed together with lawyer cane strips. The frame swayed a little when pushed so later triangular bracing was added to stop this. Also when the mud wall was built, it enveloped the posts and stopped them moving altogether.
A small kiln was built of mud from the ground and a perforated floor of clay from the creek bank. It was only 25 cm internal diameter and 50 cm tall. Clay was dug, broken tiles (from previous batches) were crushed and added to it as grog and it was mixed thoroughly.This clay was pressed into rectangular moulds made from strips of lawyer cane to form tiles. Wood ash prevented the clay sticking to the stone. 20 tiles were fired at a time. 450 flat tiles and 15 curved ridge tiles were made with only a few breakages. 26 firings were done in all and the average firing took about 4 hours. The fired tiles were then hooked over the horizontal roof battens.
An underfloor heating system was built into one side of the hut to act as a sitting/sleeping platform in cold weather. This was inspired by the Korean Ondol or “hot stone”. A trench was dug and covered with flat stones with a firebox at one end and a chimney at the other for draft. The flames travelled beneath the floor heating it. After firing it for a while the stones stay warm all night with heat conducted directly to the sleeping occupant and radiating into the room.
The wall was made of clayey mud and stone. A stone footing was laid down and over this a wall of mud was built. To save on mud, stones were included into later wall courses. The mud was dug from a pit in front of the hut and left a large hole with a volume of about 2.5 cubic metres.
The finished hut has a swinging door made of sticks. The inside is dark so I made a torch from tree resin. A broken tile with resin on it acts as a small lamp producing a lot of light and little smoke. The end product was a solid little hut, that should be fire and rot resistant. The whole project took 102 days but would have taken 66 days were it not for unseasonal rain. For a more in depth description see my blog
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Primitive Technology- Stone Adze
The video shows the construction and use of a stone adze.To put this video in context, the dome hut you see in the video is in the same spot as the wattle and Daub hut is today- only 2 years earlier (first started filming these builds). I shaped the head from basalt using a hammer stone to roughly shape it (pecking) and a grind stone to polish it (grinding). I used an L shaped piece of wood to form the handle, carving a backrest to absorb the shock of each strike and lashed the stone to the handle using lawyer cane. I then cut down two trees and a sapling to demonstrate the time taken to use it (note-this land is an abandoned cane farm and not virgin forest). I would say that a stone adze is easier to make than a celt ax and is also quite effective at felling trees. The stone adze was the all purpose wood working tool in Papua New Guinea and favored over axes by most canoe building cultures. Later I discarded the adze, demolished the dome and built the wattle and daub hut without any previous technology I made- just to see if I could.
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Primitive Technology- Chimney and pots
I installed a fireplace and chimney in the tiled roof hut. This is for for lighting and cooking. Heating is already taken care of by the underfloor heating system. I knocked a hole in the back wall and made it from the same mud used to build the hut. Some left over roof tiles were used as a chimney cap.
I made same pottery too. Clay was dug from the creek bank, mixed with broken crushed tiles as grog and formed into a cooking pot and 4 large water pots. I burnished them (rubbed till smooth) with a snail shell and a seed pod making them stronger and more water proof. Then I fired them in the tile kiln. The kiln fired pottery was larger and stronger than my previous pit fired pots and also had a lower breakage rate with only one of the five pots breaking.
I used the water pots to carry water from the creek to irrigate a sweet potato patch behind the wattle and daub hut (over the creek from the tile hut). The cooking pot was used to boil creek water. I used two different methods to show how to boil water: 1) in the kiln using it like a stove and 2) using pot boiling stones from the fire place. Boiling the water with rocks was faster than boiling a pot over a fire. Wooden tongs were made and rocks were put in the fireplace till they glowed red hot. The rocks were then put in the cold water in the pot. It only took 4 rocks to boil the water violently. This is probably the best method for sterilizing suspect water for drinking and could be done even without a pot (even a puddle next to a creek could be boiled this way).
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Primitive Technology- Stone Axe (celt)
The manufacture of a stone ax including the handle from using only primitive tools and materials. It is a celt (pronounced "selt") a type of ax with a polished stone head wedged into a hole or mortise at the end of a wooden handle (not to be confused with a "Kelt" referring to a Celtic person). The head took about a week and a day to make as I chose to make it from a particularly large piece of basalt. The hammer stone used to shape the basalt was of quartz. This involved hammering, pecking, grinding and polishing the head into the final shape. The handle took a day and a morning to make. A chisel was made from stone and a mallet made from a log. These were used to cut the tree for the handle and shape it once down. Fire was used to harden the wood and also to help shape the mortise. The ax was then used to cut down a tree the day after the handle was a tree itself. It is a more efficient tool for felling trees than the hand ax I made and at the time of uploading this video has cut down 4 trees which I will use later. Because this stone axe is blunter than a steel one, the blade needs to hit the tree at angles greater than 45 degrees- otherwise the blade would glance off. So celts were used more like wedges than modern axes.
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Primitive Technology- Baskets and stone hatchet
I made 2 types of basket and a celt hatchet. The first type of basket made was a coil basket. Bunches of palm leaves where wrapped in thin strips of lawyer cane to for a coil. This was then coiled into a spiral with each coil being tied to the last to keep it in place. This was done by sewing a new section of coil to the previous one. The basket was given a flat base so it could stand up but could be made any shape.
The second basket was made of lawyer cane. It started with thick strips of cane placed on the ground crossing in the centers to form an asterix shape. Importantly another half a lawyer strip was added so that the number of spokes the basket had was odd- even numbers don't work with this type of basket. The canes were tied together in the center with a strip of bark and a piece of cane was woven in a spiral around the spokes like a spider web. When the base was wide enough the spokes were bent up to form the vertical sides of the basket. The weaving continued up the walls to the top and the ends of the spokes folded down back into the basket.
The coil method was very time consuming (about a week on and off) and made a heavy basket but used simple materials and had few gaps in it. Long grass could be used instead of palm leaves and any type of ties could be used to bind the coils. This type of basket can look very neat if done carefully (the one I made was rough). Also I would add that circular or rectangular mats might be made using this method and these materials. This might provide thick padding against the ground for sitting and sleeping and when finished could be rolled up and stored out of the way.
The woven cane baskets were much faster to make (2 or 3 hours each including harvesting materials). They used fewer materials and were lighter too. I could have easily made them bigger but wanted them to fit through the narrow door of the tiled hut.
The baskets will be used mainly for storing charcoal inside huts out of the rain but are also useful for carrying leaf mulch for the garden. They have flat bases meaning they can stand upright and even be stacked on top of each other.
I also made a small celt hatchet for lighter work. The big celt I made is useful for chopping bigger trees but is overkill for saplings and smaller trees. The method used was basically the same for the big celt though this time I used no fire hardening. The handle came from a branch cleared from the the sweetpotato patch and had sat for a few months seasoning on the ground. It was much harder to shape than green wood but was hard enough to not need fire hardening. So far I've used it without the handle splitting though the basalt head chipped when trying to chop dry eucalyptus branches (an especially hard wood)- I re sharpened it and it works on other woods ok.
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Primitive Technology: Sling
A sling is a weapon used to fire rocks farther and harder than could be thrown by hand alone. I made this sling from bark fiber that I made into cord. The cord was then tied in such a way to produce an area in the middle with three cords. A strip of the same bark fiber was woven between these to form a pouch. A loop was tied at one end of the sling and a knot tied in the other.
To use it, the loop is slipped over the finger and the knot is held down with the thumb. A stone is placed in the pouch and the sling swung over head. At the appropriate time the sling is swung forward in a throwing action and the knot held in the hand is let go. This causes the pouch to open and the stone to fly (hopefully) towards the target.
I hadn't used a sling for eight years but the first target I set up and filmed, a potsherd on a stick at 10 m, was hit first go! Next I set up a log at 20 m and required more practice. Targets of potsherds and tiles at 10 m were set up in a clearing. Tiles on sticks at 15 m were set up in a stretch of creek. The last shots are back in the clearing at 10 m.
Learning to use the sling is difficult and practice is necessary. When aiming line up the swinging plane of the sling with the target to determine Y-axis aspect and use release timing to determine x-axis aspect. With timing (right handed) too early and the stone will got to the right, too late and it will go left. Practice to make it go at the right time. Use larger stones as they swing slower and are easier to time. Use smooth stones so they fly straight and don't cling to the pouch when released.
The advantage of the sling is that it's easy to make, portable and the ammunition (stones) are every where. The disadvantages are it's difficult to learn to use accurately, noise and movement give it away when used, it can't penetrate a target like an arrow (unless using some kind of weighted dart) and it can't be fired in thick forest. Interestingly, the sling has a range comparable to a bow. From my research, the record for the longest sling shot was 505 m and that of the bow just under 500 m. For some great information on slings and slinging look at: http://www.slinging.org/.
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Primitive Technology- Cord drill and Pump drill
I made a cord drill and then upgraded it to a pump drill. A cord drill is basically a spindle with a fly wheel attached so it looks like a spinning top. the middle of a piece of cord is then put into a notch at the top of the spindle. The ends of the cord are then wrapped around the spindle and then pulled quickly outwards causing the drill to spin. The momentum of the fly wheel causes the cord to wrap back around the spindle in the other direction. When it stops the cords are pulled outwards again and the drill spins in the other direction.
I made the first one with a stone flywheel then made fire with it in the same way I make fire with fire sticks. Then I made and fired some clay fly wheels, made another drill with one of the fly wheels and fitted a stone drill bit to the end. This one I use for drilling holes in wood.
I used the new drill to make a hole in a piece of wood. I then put the spindle of the original cord drill through the hole in the wood, tied the ends of the cord onto the piece of wood and it became a pump drill. The cords were wrapped round the spindle as normal but now a pumping action of the wooden cross bar created the same action.
This was an interesting project. For fire making I'd stick to fire sticks because the equipment is easier to make. But for people with soft hands they could use the cord drill as it won't give them blisters. It should be added that the pump drill actually took longer than the cord drill (cord: 32 seconds, pump 1 min 30 seconds -the pump drill scene was edited down to make it watchable). The pump drill had more moving parts and was constantly having problems. As a fire making method I'd choose the cord drill over the pump drill unless all the parts were well made.
The main purpose I'd use these tool for is drilling holes rather than fire making. It was reasonably good but the stone bits I made could be improved and their attachment to the shaft also needs some thought. If the bit loosens and gets off axis slightly the whole thing wobbles.
These drills are impressive inventions and show potential for carpentry use later on.
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Primitive Technology: How to Create Charcoal
I made a batch of charcoal using the mound method then stored it in baskets for later use. Charcoal is a fuel that burns hotter than the wood it's made from. This is because the initial energy consuming steps of combustion have taken place while making the charcoal driving off the volatile components of the wood (such as water and sap). The result is a nearly pure carbon fuel that burns hotter than wood without smoke and with less flame. Charcoal was primarily a metallurgical fuel in ancient times but was sometimes used for cooking too.
To make the charcoal the wood was broken up and stacked in to a mound with the largest pieces in the center and smaller sticks and leaves on the out side. The mound was coated in mud and a hole was left in the top while 8 smaller air holes were made around the base of the mound. A fire was kindled in the top of the mound using hot coals from the fire and the burning process began (the hot coals are being poured in the top using a small pot at 2:38).
The fire burned down the inside of the mound against the updraft. I reason that this is a better way to make charcoal as the rising flames have used up the oxygen and prevent the charcoal already made above them from burning while driving out even more volatiles .
I watched the air holes at the base of the mound and when the fire had burned right up to each opening I plugged them with mud. Once all 8 holes had be sealed the hole in the top of the mound was sealed with mud and the mound left to cool. From lighting the mound to closing up the holes the whole process took about 4 hours.
The next day when the mound was cool to the touch (this can take about 2 days sometimes) I opened the mound. The resulting charcoal was good quality. Some wood near the air entries had burned to ash though these were only small twigs and leaves. This is the reason small brush is put on the out side of the mound, to be burned preferentially to the larger wood on the inside thus protecting the large pieces of charcoal.
The charcoal that was made was hard and shiny. When broken open it had the ray structure of the wood preserved. When moving the hand through it the charcoal sounded tinny, like coral on a beach being moved by waves. These are signs of good quality. Bad charcoal is soft, breaks easily and has a muffled sound.
I intend to use the charcoal to produce hotter fires than I'm able to with wood alone. From my research, a natural draft furnace using wood (a kiln) can reach a maximum of 1400 c degrees whereas a natural draft furnace using charcoal can reach 1600 c degrees. Achieving high temperatures is necessary for changing material to obtain better technology (e.g. smelting ore into metal).
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Primitive Technology: Thatched Dome Hut
I built this thatched dome hut on a mountain ridge using completely primitive tools and materials. The frame was 2.5 m in diameter and 2 m tall. It was made from 8 thin saplings 2.75 m long, the thatching material was split palm fronds and vine was used for tying it all together. A stone hand ax was used to chop the saplings and a sharp stone flake was used to cut fronds. The pointed dome profile is half way between a spherical dome and a ti-pi. This shape sheds rain and funnels smoke effectively while still providing a large inner volume. A moat was dug around the hut to drain water away. As an afterthought I planted sweet potatoes and taro around the moat to hopefully provide some food later on.
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Primitive Technology- Firesticks
Making fire sticks primitively from scratch, making a fire using the sticks and making and firing a small pot to test clay from the hut.
The species of wood used for the fire sticks is 'Abroma mollis'. In the hibiscus/cottonwood family (Malvaceae)
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Primitive Technology- Wattle and Daub Hut
Primitive Technology-I built this hut in the bush using naturally occurring materials and primitive tools. The hut is 2m wide and 2m long, the side walls are 1m high and the ridge line (highest point) is 2m high giving a roof angle of 45 degrees. A bed was built inside and it takes up a little less than half the hut. The tools used were a stone hand axe to chop wood, fire sticks to make fire, a digging stick for digging and clay pots to carry water. The materials used in the hut were wood for the frame, vine and lawyer cane for lashings and mud for walls. Broad leaves were initially used as thatch which worked well for about four months before starting to rot. The roof was then covered with sheets of paper bark which proved to be a better roofing material (*peeling the outer layer of bark does not kill this species of tree). An external fireplace and chimney were also built to reduce smoke inside. The hut is a small yet comfortable shelter and provides room to store tools and materials out of the weather. The whole hut took 9 months from start to finish. But it only took 30 days of actual work (I abandoned it for a few months before adding bark roof, chimney and extra daub ). Wattle and Daub Hut
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