Sunday, 24 November 2013

How to save tomato seed

 


tomato seeds rotting in water
Seeds fermenting in water. Not pretty, but pretty important! The jar got shaken up while walking it outside for its photo op., so it looks a little cloudy and messy. In your jar, you should see a layer of scum on top of the water.
I can’t believe we haven’t posted about this before–it seems like we have, but I can’t find the post if this is so. Perhaps we wrote about it in one of our books…the old brain is getting foggy.
It’s easy to save seed from your favorite tomatoes. Seed saving in general is actually a little tricky. You can’t just save the seed from any old vegetable in your garden and hope that it will yield plants like the parent. Cross-breeding is an issue. Professional seed savers use all sorts of sacks and screens and boxes to ensure that busy bees or flirtatious winds don’t make romance happen where it ought not. Otherwise you get acorn squash crossing with melons and who knows what not. It depends on the type of vegetable you want to save seed from–as well as what else you’re growing around it.
Tomatoes, however, are a pretty safe bet for seed saving. They are self-fertile, and the structure of their flowers makes cross pollination difficult. Our seed saving Bible, Seed to Seed, says that there are only three types of open pollinated tomatoes that you can’t save seed from (without putting them in isolation):
  1. Currant tomatoes (L. pimpinellifolium)
  2. The potato leaved varieties of L. lycopersicum
  3. Any fruit born from double blossoms on Beefsteak-type tomatoes. Double blossoms are prone to cross-pollination.  You can save seeds from fruit that came from a single blossom
Odd, but simple! You can basically save seed from almost any heirloom/open-pollinated variety you’re likely to  be growing. You cannot save seed from hybridized plants. These are the type you are most likely to find in the nursery–plants bred for performance, not seed saving. This would include popular breeds like Early Girl and Better Boy and Sun Golds.  If you’re not sure if your tomatoes are hybrids or not, just Google the name. The Internet is wonderful that way.
The process of saving tomato seed is simple. All you have to do is rot off the protective gel sack which surrounds each seed. This gel inhibits germination, keeping the seeds from germinating while still in the tomato. In nature, the gel rots off while the fallen tomato sits on the ground. Here, you will speed the process along with some water. In addition to removing the gel sack, this fermentation process also kills many seed-borne tomato diseases.

How to Save Tomato Seed

  1. Choose your best, tastiest tomatoes for seed saving.
  2. Scoop out the seed pulp and drop it into a jar. Or just squeeze a whole tomato over the jar.   It’s best to just squeeze cherry tomatoes. (You can use food processor, too, if you’re doing big batches.)
  3. Pour a little water over the pulp. It should cover the pulp by say, 2-3  inches or so.
  4. Cover the container and let it sit for a few days (3 days, roughly–weather makes a difference), until white or grey mold forms on the surface of the water. If you do a big batch, you will smell the rot. Don’t worry about it–just keep the dogs away! Watch for the mold to form and continue on to the next step. The mold may be impressively fuzzy, or it may just be a slight opaque slick on top of the water. Don’t let it sit in this state too long, or the seeds will start germinating in their bath.* If you’re in doubt as to whether it is ready, it’s ready. Far better to stop a little early than to let the seeds accidentally germinate.
  5. Pour off the moldy water, reserve the seeds.
  6. Add clean water back to the seeds and give the water a swirl. Let it settle. Any bad seeds will rise to the top. If they do, pour them off.
  7. Strain the seeds with a fine strainer (a teas strainer is fine for small batches) and spread them out to dry. They need to dry on something which will wick water away, because it is important that they dry quickly–otherwise they might germinate. Coffee filters work well, as do pieces of window screen, or paper plates. Tomato seeds stick to paper towels, so if you use those you may end up having to plant the seeds on their little bits of towel.
  8. Once they are bone dry, transfer to envelopes or glass jars for storage. Be sure to label!
*I just lost a batch to germination. I blame the heat. It didn’t seem like they’d be fermenting that long, but after I drained my seeds I saw the tiny little white nubbins poking out of the seeds. Now I have to begin again. This is one reason why you should not wait ’til your last tomato to think about saving seeds. Also, this is a reminder to keep a close eye on your projects!
ETA: We’ve had some comments from what I’ll call the Paper Towel School of seed saving, and I thought I’d amend this post to point out that another method is to just spread some tomato pulp on a paper towel and let it dry out. The seeds will stick to the towel, so you store the whole towel and when planting time comes next year, you tear the towel into tiny pieces and plant the pieces. This does save steps. The method described above is the Official Method, and the method I’ve always used. I’ve not tried the paper towel thing myself, but it seems sensible. However, as  I understand it, the fermentation process in the water bath method kills diseases, so it is considered good etiquette to put your seeds through this process if you plan to share them with others.
Also check out the comments for more on the mystery of cross-pollinating tomatoes!


Read More Info 

How to save tomato seed

 


tomato seeds rotting in water
Seeds fermenting in water. Not pretty, but pretty important! The jar got shaken up while walking it outside for its photo op., so it looks a little cloudy and messy. In your jar, you should see a layer of scum on top of the water.
I can’t believe we haven’t posted about this before–it seems like we have, but I can’t find the post if this is so. Perhaps we wrote about it in one of our books…the old brain is getting foggy.
It’s easy to save seed from your favorite tomatoes. Seed saving in general is actually a little tricky. You can’t just save the seed from any old vegetable in your garden and hope that it will yield plants like the parent. Cross-breeding is an issue. Professional seed savers use all sorts of sacks and screens and boxes to ensure that busy bees or flirtatious winds don’t make romance happen where it ought not. Otherwise you get acorn squash crossing with melons and who knows what not. It depends on the type of vegetable you want to save seed from–as well as what else you’re growing around it.
Tomatoes, however, are a pretty safe bet for seed saving. They are self-fertile, and the structure of their flowers makes cross pollination difficult. Our seed saving Bible, Seed to Seed, says that there are only three types of open pollinated tomatoes that you can’t save seed from (without putting them in isolation):
  1. Currant tomatoes (L. pimpinellifolium)
  2. The potato leaved varieties of L. lycopersicum
  3. Any fruit born from double blossoms on Beefsteak-type tomatoes. Double blossoms are prone to cross-pollination.  You can save seeds from fruit that came from a single blossom
Odd, but simple! You can basically save seed from almost any heirloom/open-pollinated variety you’re likely to  be growing. You cannot save seed from hybridized plants. These are the type you are most likely to find in the nursery–plants bred for performance, not seed saving. This would include popular breeds like Early Girl and Better Boy and Sun Golds.  If you’re not sure if your tomatoes are hybrids or not, just Google the name. The Internet is wonderful that way.
The process of saving tomato seed is simple. All you have to do is rot off the protective gel sack which surrounds each seed. This gel inhibits germination, keeping the seeds from germinating while still in the tomato. In nature, the gel rots off while the fallen tomato sits on the ground. Here, you will speed the process along with some water. In addition to removing the gel sack, this fermentation process also kills many seed-borne tomato diseases.

How to Save Tomato Seed

  1. Choose your best, tastiest tomatoes for seed saving.
  2. Scoop out the seed pulp and drop it into a jar. Or just squeeze a whole tomato over the jar.   It’s best to just squeeze cherry tomatoes. (You can use food processor, too, if you’re doing big batches.)
  3. Pour a little water over the pulp. It should cover the pulp by say, 2-3  inches or so.
  4. Cover the container and let it sit for a few days (3 days, roughly–weather makes a difference), until white or grey mold forms on the surface of the water. If you do a big batch, you will smell the rot. Don’t worry about it–just keep the dogs away! Watch for the mold to form and continue on to the next step. The mold may be impressively fuzzy, or it may just be a slight opaque slick on top of the water. Don’t let it sit in this state too long, or the seeds will start germinating in their bath.* If you’re in doubt as to whether it is ready, it’s ready. Far better to stop a little early than to let the seeds accidentally germinate.
  5. Pour off the moldy water, reserve the seeds.
  6. Add clean water back to the seeds and give the water a swirl. Let it settle. Any bad seeds will rise to the top. If they do, pour them off.
  7. Strain the seeds with a fine strainer (a teas strainer is fine for small batches) and spread them out to dry. They need to dry on something which will wick water away, because it is important that they dry quickly–otherwise they might germinate. Coffee filters work well, as do pieces of window screen, or paper plates. Tomato seeds stick to paper towels, so if you use those you may end up having to plant the seeds on their little bits of towel.
  8. Once they are bone dry, transfer to envelopes or glass jars for storage. Be sure to label!
*I just lost a batch to germination. I blame the heat. It didn’t seem like they’d be fermenting that long, but after I drained my seeds I saw the tiny little white nubbins poking out of the seeds. Now I have to begin again. This is one reason why you should not wait ’til your last tomato to think about saving seeds. Also, this is a reminder to keep a close eye on your projects!
ETA: We’ve had some comments from what I’ll call the Paper Towel School of seed saving, and I thought I’d amend this post to point out that another method is to just spread some tomato pulp on a paper towel and let it dry out. The seeds will stick to the towel, so you store the whole towel and when planting time comes next year, you tear the towel into tiny pieces and plant the pieces. This does save steps. The method described above is the Official Method, and the method I’ve always used. I’ve not tried the paper towel thing myself, but it seems sensible. However, as  I understand it, the fermentation process in the water bath method kills diseases, so it is considered good etiquette to put your seeds through this process if you plan to share them with others.
Also check out the comments for more on the mystery of cross-pollinating tomatoes!


Read More Info 

How to save tomato seed

 


tomato seeds rotting in water
Seeds fermenting in water. Not pretty, but pretty important! The jar got shaken up while walking it outside for its photo op., so it looks a little cloudy and messy. In your jar, you should see a layer of scum on top of the water.
I can’t believe we haven’t posted about this before–it seems like we have, but I can’t find the post if this is so. Perhaps we wrote about it in one of our books…the old brain is getting foggy.
It’s easy to save seed from your favorite tomatoes. Seed saving in general is actually a little tricky. You can’t just save the seed from any old vegetable in your garden and hope that it will yield plants like the parent. Cross-breeding is an issue. Professional seed savers use all sorts of sacks and screens and boxes to ensure that busy bees or flirtatious winds don’t make romance happen where it ought not. Otherwise you get acorn squash crossing with melons and who knows what not. It depends on the type of vegetable you want to save seed from–as well as what else you’re growing around it.
Tomatoes, however, are a pretty safe bet for seed saving. They are self-fertile, and the structure of their flowers makes cross pollination difficult. Our seed saving Bible, Seed to Seed, says that there are only three types of open pollinated tomatoes that you can’t save seed from (without putting them in isolation):
  1. Currant tomatoes (L. pimpinellifolium)
  2. The potato leaved varieties of L. lycopersicum
  3. Any fruit born from double blossoms on Beefsteak-type tomatoes. Double blossoms are prone to cross-pollination.  You can save seeds from fruit that came from a single blossom
Odd, but simple! You can basically save seed from almost any heirloom/open-pollinated variety you’re likely to  be growing. You cannot save seed from hybridized plants. These are the type you are most likely to find in the nursery–plants bred for performance, not seed saving. This would include popular breeds like Early Girl and Better Boy and Sun Golds.  If you’re not sure if your tomatoes are hybrids or not, just Google the name. The Internet is wonderful that way.
The process of saving tomato seed is simple. All you have to do is rot off the protective gel sack which surrounds each seed. This gel inhibits germination, keeping the seeds from germinating while still in the tomato. In nature, the gel rots off while the fallen tomato sits on the ground. Here, you will speed the process along with some water. In addition to removing the gel sack, this fermentation process also kills many seed-borne tomato diseases.

How to Save Tomato Seed

  1. Choose your best, tastiest tomatoes for seed saving.
  2. Scoop out the seed pulp and drop it into a jar. Or just squeeze a whole tomato over the jar.   It’s best to just squeeze cherry tomatoes. (You can use food processor, too, if you’re doing big batches.)
  3. Pour a little water over the pulp. It should cover the pulp by say, 2-3  inches or so.
  4. Cover the container and let it sit for a few days (3 days, roughly–weather makes a difference), until white or grey mold forms on the surface of the water. If you do a big batch, you will smell the rot. Don’t worry about it–just keep the dogs away! Watch for the mold to form and continue on to the next step. The mold may be impressively fuzzy, or it may just be a slight opaque slick on top of the water. Don’t let it sit in this state too long, or the seeds will start germinating in their bath.* If you’re in doubt as to whether it is ready, it’s ready. Far better to stop a little early than to let the seeds accidentally germinate.
  5. Pour off the moldy water, reserve the seeds.
  6. Add clean water back to the seeds and give the water a swirl. Let it settle. Any bad seeds will rise to the top. If they do, pour them off.
  7. Strain the seeds with a fine strainer (a teas strainer is fine for small batches) and spread them out to dry. They need to dry on something which will wick water away, because it is important that they dry quickly–otherwise they might germinate. Coffee filters work well, as do pieces of window screen, or paper plates. Tomato seeds stick to paper towels, so if you use those you may end up having to plant the seeds on their little bits of towel.
  8. Once they are bone dry, transfer to envelopes or glass jars for storage. Be sure to label!
*I just lost a batch to germination. I blame the heat. It didn’t seem like they’d be fermenting that long, but after I drained my seeds I saw the tiny little white nubbins poking out of the seeds. Now I have to begin again. This is one reason why you should not wait ’til your last tomato to think about saving seeds. Also, this is a reminder to keep a close eye on your projects!
ETA: We’ve had some comments from what I’ll call the Paper Towel School of seed saving, and I thought I’d amend this post to point out that another method is to just spread some tomato pulp on a paper towel and let it dry out. The seeds will stick to the towel, so you store the whole towel and when planting time comes next year, you tear the towel into tiny pieces and plant the pieces. This does save steps. The method described above is the Official Method, and the method I’ve always used. I’ve not tried the paper towel thing myself, but it seems sensible. However, as  I understand it, the fermentation process in the water bath method kills diseases, so it is considered good etiquette to put your seeds through this process if you plan to share them with others.
Also check out the comments for more on the mystery of cross-pollinating tomatoes!


Read More Info 

HOMEMADE STEAM ENGINE


FROM TWO DOOR CLOSERS

   A door closer is extremely robust and has a precison cylinder and piston
which can make a steam engine.  They have a long piston with a rack down the
side that engages the pinion which operates the door-closing arm.  In normal
use, a spring closes the door that was pushed open, compressing the spring.
Basic parts of a door closer.
  The spring was removed using a 1 & 1/4" hole saw to cut into the back.  The
closer is full of oil which will run out, so be ready for that. (For steam
use, the cylinder is lubed externally.) Wash it well with dish soap, hot
water, a bottle brush and an old toothbrush. Turn adjustment screws in tight.
Modifications.
  The U-shaped pin wrench was made in order to remove the end cap above the
piston.  A 1 & 1/4" hole saw was used to cut into the pinion bosses on the
sides.  Stop when you see a ring turning with the hole saw.  A pipe wrench
unscrews the pinion bearings.  Remove the pinion.  Wash the cylinder again.
  The piston has a diameter of 1 & 7/16" (1.62 sq. in.) and a stroke of 2".
The closer can take very high pressure, so our test boiler was a 5-lb CO2 tank
heated using a weed-burner torch.
  Remove the piston and cut the housing 1 & 3/4" from the back vertically
down. Stop at a point 1" from the bottom.  Now cut horizontally from the back
to the vertical cut.
  Drill down to the ball valve in the piston and then push the ball out from
the back with a coat hanger.  Now drill all the way through 1/4" for the
central rod.  A 1/4" rod is welded to the piston flush with the boss on the
top of the piston.
  The end disk is cut out of 1/8" steel using a 1 & 1/2" hole saw, which also
drills a 1/4" hole.
One piston with end disk and pushrod.
  The end disk with the pushrod ears is tack-welded to the other end of the
1/4" central rod.  The wrist pin is 3/8" stainless round rod.
Air gun used for valves.
  Pneumatic air guns are used for the poppet valves.  The springs are removed
and the O-rings replaced with silicone ones which can take the higher heat.
They are lubed with silicone grease.  The end of the valve plunger is drilled
3/32" for securing to the valve rod.  The removeable part of two air gun
nozzles is drilled 1/4" for 1/4" copper line which is silver-brazed to it.
The nozzle piece with the copper line is then threaded back on with pipe
joint compound.  The inlet end of the gun takes a standard 1/2" pipe fitting.
Two inches of 1/4" copper line is JB-Welded (epoxy) into each cylinder cap.
The valve rod.
  Springs hold the valve rod against the connecting rods so that the pushrod
ears bump the valve rod to the other position.
The valve plungers are held in place by wire.
  There should be very little free play.  When a valve closes (out), the
pressure holds the plunger closed.  But a plunger that is pushed in (open)
does not have to be fully in to work properly.
The door closer steam engine.
Operation of the door closer steam engine.(3.5MB)
The modified pressure cooker boiler.
  We did not know what pressure the steam engine would require, but it turns
slowly at 15 PSI and spins almost too fast at 30 PSI.  So we modified this
thrift shop 4 quart pressure cooker.  The steam comes out the central fitting
that had the pressure-regulating weight.   Corks were placed in one hole that
is under the lid handle and the other hole that was where the missing pressure
gauge would have been.  They are pushed into the holes from the inside.  We
stop the pressure at 30 PSI, the usual canning pressure.
The pressure cooker boiler assembled.
  Put silcone grease on the gasket where it contacts the pot rim for ease of
opening. The mark on the gauge is at 30 PSI.  WARNING: At some point above
that the corks would be BLOWN OUT and the water inside would FLASH-BOIL!
  As it is this steam engine is just a school shop demo unit. If the steam
engine was to be used for serious work, two things need to be changed. The
pressure can be as high as the air gun valves are rated, 150 PSI.  And the
steam should be allowed to expand in order to extract the most work from it on
each stroke.  As it is the valves are fully opened (or fully closed) at the
ends of the stroke.  The inlet valve should be opened for about a fifth of the
stroke while the exhausting valve is open for the entire stroke.
PARTS:
  The door closers are Medium Duty Commercial units from Home Depot.
  The air guns are from Harbor Freight.
  The 5/8" shaft bearings are from a pneumatic wheel hub from Harbor Freight.
  The 1/2" flanged crank bearings are Grainger 1ZGE8.
-----------------------------------------------------------------------------
SILVER-BRAZING:
Alpha-Fry 45%-silver-braze & flux.  (Ace Hardware)
  This is 45% silver and so is expensive, but the bond it forms is nearly as
strong as a weld at half the temperature. Clean the joint to bare metal, flux
ONLY where you want the braze (important).  Heat with a torch ONLY enough for
the braze to flow (dull red) and then remove the torch immediately.
Copper line brazed into the air gun muzzles.


Source

Tuesday, 19 November 2013

How To Make Your Own Home Drink Carbonation System




Sodastream machines are nice, but for the true seltzer addict, a do-it-yourself carbonation system can be cheaper, more flexible, and more fun



Building Your Small Cabin Frame Structure




 

Small Cabin Wooden Frame Picture 















For the small cabin wall frame, use regular 2"x4" spruce timber.
Again, follow the same 24" (or 16") o.c. stud spacing - from the cabin floor frame to the wall and roof studs, with proper openings for door and windows.

1). The easiest way to construct a wall frame is by using the cabin floor as a building area.
Construct a frame for each wall, with openings for windows and door as per your design layout.
Small Cabin wall frame construction - considerations to keep in mind:
  • When constructing the cabin frame around door and windows, make sure there is about ½" spacing between the door/window and wall frame.
  • Small Cabin Frame Header Image When using fairly wide windows (>2 ft), use reinforcing headers at the top (see picture to the right).
  • Ensure that your cabin has sufficient ventilation openings. Use two ~4"x4" or ~6"x6" openings on opposite walls to ensure the flow of fresh air and to allow moisture to escape.
    Tip:
    Make sure your ventilation openings are covered with 1) mosquito net, and 2) stronger metal wire bar/mesh (a dollar store item). I had an incident when squirrels ripped the mosquito net and went inside the cabin and made quite a mess.
  • If you plan to do some interior finishing of your small cabin, you should add an additional stud in each corner to act as a support for nailing of interior panels.
2). Once you have built a frame for each cabin wall, raise them one by one (a task made much easier with the help of another person), level well vertically (very important), then nail together and to the floor frame. 3). Construct a roof frame, by first nailing roof joists to the wall studs. Follow the same stud spacing (16") used throughout the cabin, placing roof studs at the juncture of wall studs.
Tip:
Make sure your roof hangs over the walls at least 12". This will help divert rain water away from the cabin.
Small Cabin Frame Roof - Covering Boards Image At this time you may also place facia boards to cover openings between roof joists. You don't have to use facia boards if you're planning to cover outer parts for the cabin roof joists later (as per picture to the right).
4). Nail sheets of 3/8" OSB or plywood onto the roof frame, overhanging it ½"-1" over each side of the roof frame. Small Cabin Wooden Frame covered with Typar5). Once the small cabin frame is erected, cover it with moisture repellant fabric (Typar, Tyvek or similar) or tar paper. Just staple it to the frame studs and use tape to seal all ends. Small Cabin Wooden Frame Completed with Panels Image6). Nail the wall sheeting panels to the frame studs.
I used
SmartSide Panels.
Since panels will be exposed to the outside, use 6d spiral galvanized nails. Use 6" max perimeter nail spacing and 12" max field (on inner stud) nail spacing.
7). On the cabin roof, cover OSB/ plywood sheets with plastic film, tar paper or tarp.
Tip:
Some building suppliers offer free used sheets of tarp.
Small Cabin Roof Shingles Image8). Install asphalt roof shingles.
You can find installation instructions on the shingles packaging.
You can also choose to use corrugated galvanized steel or plastic materials for the cabin roof. However, I've been told that metals sheets are quite noisy when it rains. Asphalt shingle was also cheaper.

Painting

Painting of the cabin is important - not only for its appearance - but to protect your small cabin from rot and decay.
  • Use exterior acrylic latex paint for painting SmartSide panels
  • Use oil (alkyd) exterior paint for painting outside parts of the unprotected timber.

Read More Info

How to make a Hydra ROV

How to make a Hydra ROV by Interspec

 
 
 
 
IMG_0933.JPG
 
 
 
IMG_0946.JPG
 
 
The ocean is indeed a mysterious and fascinating area of research and until recently the ocean depths have
remained largely unexplored. Extreme levels of pressure, negligible light levels and frigid temperatures are
conditions that make unaided exploration impossible. With the onset of the industrial age and the
development of specialized robotics, the ocean depths are now finally being researched. The study of the
ocean presents opportunities for biologists, oceanographers, and engineers. Robotics is playing an advancing
role in exploration, construction, and monitoring in subsea environments. In particular, underwater remotely
operated vehicles (ROV) play a critical role of underwater operations.

ROV is a tethered underwater robot, common in deepwater industries. ROVs are unoccupied, highly
maneuverable and operated by a person aboard a vessel. They are linked to the deck by a tether, a group of
cables that carry electrical power, video and data signals back and forth between the operator and the vehicle
Industrial underwater ROVs have enormous production costs due mainly in part to expensive specialized
underwater components. The cost of such an ROV is typically much too high for students, school or hobbyists
to incur. In order to increase student interest in oceanography and engineering, Interspec R&D has indentified
a market opportunity to develop underwater vehicles that can be deployed in educational environments with
goal of increasing student exposure to this technology.

Interspec R&D is a local company that is involved in the design & development of mini ROV systems,
underwater cameras including concepts in diver equipment housings and sub-sea Lighting systems. Interspec
has offered the students at the University of Victoria an opportunity to develop the electronics and software
for a modular control system that for a new ROV prototype. Collaboration between Interspec and the
University of Victoria is a powerful partnership and both groups offer unique expertise in different areas of
engineering.

Well will be publishing our project in steps so stay tuned

our web www.interspec.org and blog.interspec.org and you can post your own projects at
http://www.facebook.com/groups/133693978008/
 
 

4 Best Methods for Off-the-Grid Food Production

   
 


A great way to help with your gardening, along with helping reduce unwanted water use, is to use a flow meter.
 


For most of us, producing all of our own food is just a fantasy.
It evokes visions of multiple acres of fertile land, long work days, and expensive machinery. However, none of these are necessary to achieve self-sufficient food production.

There are many gardening techniques that can produce an abundance of food for you and your family without requiring a lot of space, money or equipment. What each of these methods will require is your time, but not the dawn-to-dusk work hours associated with farming.
Rather, you will need time to study and practice these methods and other food preparation skills such as learning to mill your own wheat or corn flour to make breads, tortillas, pastas from scratch, or learning to can, pickle, or preserve food in all its forms.
Your diet should also be considered when planning for the best self-sufficient food production method.  Do you need meat and dairy products? How much grains do you require? Yes, in order fully produce all of your food off-the-grid, you may have to make changes to your current diet if your resources are limited.  Some may view these as dietary sacrifices, yet the folks that can claim a high level of food self-reliance will all claim their diet is far healthier than the average American.
With dedication and proper planning, everyone has the ability to survive the looming food crisis by producing their own food.  None of the following methods should necessarily be considered by itself.  Each offers unique techniques that can be mixed and matched for the best results.  Their optimal application depends on calculations of your property size, climate zone, or your budget and time constraints.
Here are the 4 best food production methods for self-reliance:
1. Permaculture Gardening: Permaculture is where you design an entire edible habitat based on the natural capital of your setting. Then, place plants to methodically balance the soil, water, and pests. For instance, a nitrogen fixing plant may be planted next to a nitrogen hungry plant, which may sit next to an ornamental that deters predators, and so on. Permaculture gardening re-creates nature by using a large variety of plants while incorporating as many different animals as feasible like chickens, goats, ducks, and bees.  You may also see features like vertical gardening and aquaculture ponds in permaculture designs depending on the space available. Utilizing this method is not expensive, but requires a lot of know-how and trial and error. Permaculture gardening can produce massive abundance.  See the amazing video below for a real-world example of going off-the-grid in suburbia:
2. Aquaponics: Aquaponics is a interdependent hybrid system of aquaculture and hydroponic gardening. Vegetables and herbs grow in soil-less containers that are fed with waste water from the aquaculture pools.  The plants feast on the bacteria from fish waste and return the water to the fish in a purified state. These systems can be as big or as small as you wish and can potentially produce large amounts of fish and vegetables.  When done properly, very little if any additional fertilizer or chemicals are needed, just fish food.  Aquaponics can also be applied indoors, either in a greenhouse setting or with grow lights. The video below is a good description of the benefits of Aquaponics.
3. Greenhouses: If you live in a region of the world with harsh winters, then a greenhouse will be essential for food self-sufficiency.  Obviously, a greenhouse alone is not a strategy for full food production unless it is a large facility.  Typically it can be viewed as a compliment to other gardening methods.  In fact, the Dervaes family in the first video above uses a greenhouse to clone and start seedlings even though they live in Southern California. There are great designs and greenhouse starter kits available online.  Below is a brief video on the benefits of greenhouse gardening:
4. Indoor Grow Rooms: Indoor growing is typically done with grow lights and hydroponics.  Some people have sun-rooms in their homes which can basically act as a fancier greenhouse.  However, for this section we’ll focus on indoor hydroponics.  This method of growing is certainly not the cheapest way to produce food, yet it is a steadfast method especially where weather and other elements can hinder food self-sufficiency.  Indoor hydroponics requires grow lights such as LEDs, CFLs or HPSs, along with tubing, drainage, fertilizer and ventilation. However, even a small space can produce fantastic yields for leafy vegetables, herbs, tomatoes, sprouts, and much more.  To make this method fully off the grid find the most energy efficient grow lights possible and think about getting a solar generator to offset the electric costs.  Below is a video about indoor plant lighting:

This Humane Trap Can Guard Your Vegetable Patch!


    
      

Build this safe, simple trap to keep uninvited critters out of your garden.

By Bob Lawrence
 
Years ago — when my grandfather used to trap possums, coons and rabbits and then serve ‘em up as country dinners — he always caught the varmints in a simple box trap made from little more than a few boards and maybe a handful of nails.
It was only natural then — after rabbits started pulling heavy raids on my garden a few summers back — for me to think once again of Granddad’s straightforward and uncomplicated box trap. I knew that I could whip several  of the bunny catchers together from scrap materials in no time flat, experience had shown me they’d certainly do the job, and the traps would catch the marauding rabbits without harming them — leaving me the choice of putting the animals on the table, or simply releasing them again somewhere so far away they’d never bother my vegetables again.
The trap you see here is essentially a hollow box about 2 feet long.  The four main boards are 1-by-6′s (which run only about 3/4-inch thick and 5 1/2 inches wide these days) nailed together with the top and bottom boards overlapping the two sides. This makes the box’s inside dimensions measure out about 4 inches wide by 5 1/2 inches tall, just right for a rabbit. Use longer and wider boards if you’re going after larger animals, but do try to keep your traps a fairly good fit for whatever you want to catch (so the coons or whatever can’t squeeze past the trigger once they’re inside).
The principle of the triggering mechanism is very simple: The center post is nothing but a pivot for the long rod across the top, which is connected with old binder twine to a raisable door on one end and a trip bar on the other. The bar fits loosely (very loosely — you don’t want it to bind) through a hole in the box’s top and is notched (as shown in diagram) to catch on the underside of that hole. Once set in this manner, the weight of the door (which is heavier than the trip bar) will hold the notched stick in place, until a curious rabbit enters the trap and nudges against the trigger, thereby disengaging it and allowing the door to fall.
Since varmints are much more likely to enter hollow logs, etc., that they can see all the way through, the back end of the box is covered with strong,  open-mesh hardware cloth. Whatever animal you’re trying to catch is further enticed into the trap by baiting the trip bar with a food or scent that the species is known to like. In the case of rabbits, anything from carrots and lettuce to rabbit pellets or good clover hay seems to work.
A few last hints: Make sure your trip bar is positioned with the notch facing forward (so the rabbit will disengage it when he bumps into the stick), and cut the trigger long enough that it clears the bottom of the trap by no more than an inch (you don’t want the rabbit to crawl under the bar and miss it entirely). You’ll also find the trap works best if you put it outside to ”weather” away most of its human smell for a few weeks after you build it and before you set it (while wearing gloves) for the very first time.


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Growing Mushrooms and Mycorrhizae in Your Vegetable Patch

Farmers of Fungi
Growing Mushrooms and Mycorrhizae in Your Vegetable Patchby Dustin Eirdosh
In the last 30 years, human understanding of fungi, and their role in farm and garden ecosystems, has grown dramatically.  As a result, there are a wealth of new products on the market that help home gardeners and farmers alike in improving soil fertility while diversifying their harvest. 
I love mushrooms on my dinner plate, but even more so, I love what various fungi, both the edible and the nearly invisible, can do for small farms and homesteaders.  The two major applications of fungi for the vegetable grower are called soil mycorrhizae [mahy-kuh-rahy-zee], and myco-gardening.  Soil mycorrhizae consist of vast networks of underground fungi that help our plants absorb diffuse nutrients while improving overall soil quality.  Myco-gardening goes a step further, and utilizes edible and gourmet mushroom species as symbiotic, or companion plantings among various vegetable species.
The modern veggie grower has a number of commerical options to support the growth of these helpful fungi, as well as some low-tech, cost-saving, management practices that can improve your results.  Before you dive into either mycorrhizae, myco-gardening, or both, take a little time to learn more about these exciting new tools in your gardening 'tool box".
Soil Mycorrhizae
What are mycorrhizae?
In the inches below our garden beds and vegetable fields lies a vast network of of fungi - mobilizing nutrients, and improving soil conditions.  The name for these fungi are mycorrhizae, literally meaning "fungus root".  Acting much like an extension of your vegetable plants' roots, these extensive mycorrhizal networks serve as a critical link in allowing your garden to tap the full potential of your soil.  While some mycorrhizal species will produce non-toxic - but inedible - mushrooms, most will simply remain as a beautiful, nearly invisible, white network of sub-soil mycelium. 
Author, and founder of Fungi Perfecti (see sources), Paul Stamets, has spoken and written about the role of mycorrhizal fungi in vegetable and flower gardens extensively.  Stamets has even conducted his own formal, and informal, research studies photodocumenting very impressive yield and quality differences among veggies and flowers grown with his mycorrhizal fungi innoculants.  These studies do underscore the critical role that soil mycorrhizae play in plant productivity, but further analysis also reveals some important and practical lessons for home gardeners to consider.  
Do I need mycorrhizae?  
Many gardeners simply want to know, "Do I need them?". The short answer is "yes", followed with a "but maybe...".  
Yes, you do need - or at minimum, want - to have a rich network of soil mycohrizae.  Besides the increase in nutrient accessibility, your plants will also benefit from increased disease resistence and improved vigor.  Now, you can go out and purchase packets of mycorrhizal spores to spread into your garden beds, but maybe... maybe you already have them in your soil!  
In the controlled, small-scale experiments performed as testimonials for Fungi Perfecti's Myco-Grow mycorrhizal products, photos sometimes display two- to three-fold crop-yield increases compared with the uninnoculated control.  But what is important for gardeners to remember when looking at these and similar photos, is that these trials are most often conducted using pastuerized soils.  That is, a steam injection into the soil prior to planting eliminates all exisiting micro-flora, including potentially existing mycorrhizae, within the bed.  This is not intended to mis-lead, and is simply a valid scientific control, but it points to an important lesson in when mycorrhizal products should and shouldn't be used.  
If properly managed, a healthy vegetable garden, rich in organic matter, balanced in pH, and bio-diverse in planting, will naturally develop a luxuriously micro-thin web of white, utilizing the native fungal spores already present in your fields.  Author Jeff Gillman writes critically on the subject in his book, The Truth about Garden Remedies: What Works, What Doesn't and Why.  Gillman believes that the basic principles of organic soil management will lead to abundant natural populations of the requisite beneficial fungi within your food plot.  He also suggests that it is questionable whether the "non-native" mycorrhizae supplied by companies will survive for any extended period of time.  
Where experts do seem to agree is the helpful role of these fungi in the greenhouse.  Just as the impressive results from the Stamets trials were achieved in steam-sterilized soils, our greenhouses are often filled with soil-less seedling mixes - or relatively sterile compost blends.  Here it seems that an infusion of purchased mycorrhizae products provides unquestioned benefit.  Seedlings innoculated with mycorrhizae will benefit from the same nutrient absorbation as garden plants, but also gain the advantage of improved vigor to transplanting.  
The bottom line: cultivate native mycorrhizaes through the good gardening practices you already know and that are listed below.  When dealing with very poor soils, or seedlings in a greenhouse, it can be helpful to purchase and supplement non-native mycorrhizal spores from the sources listed in this article, or other reputable, recomended suppliers of mycological and/or plant health innoculants.
How do I cultivate mycorrhizae?  
The good news for many readers, is that you probably already know how to cultivate these important mycorrhizal fungi. Some of the primary, basic principles of "sustainable" or "organic" agriculture are also the primary practices required to cultivate a healthy, balanced population of native mycorrhizal species. A complex as soils are, by focusing on some core management practices, your mycorrhizal population will flourish.  
Briefly, some of the most important practices to focus on are:
  • Improving organic matter through the addition of compost.
  • Elimination of synthetic pesticides and fertilizers.
  • Balanced soil ammendment practices.
  • Minimal tillage/herbicide-free no-till.
  • Rotation of crops within garden beds by season and year.
Adding mycorrhizae to greenhouse seedlings or depleted soils is fairly easy. The preserved spore or mycelial material will come in one of several dried forms - usually a powder or tablet. Follow the directions for dilution and apply evenly and directly at the soil level to the targeted seedlings or plot.
 
Myco-Gardening: A Gourmet Mushroom Bed in Your Own Backyard!
Growing your own edible, gourmet mushrooms will become another joyous series of events dotting the summer growing season.  As a begining myco-gardener, you will purchase, rather than grow, the initial mushroom mycelium, or substrate, which will be planted.  The techniques below will guide you through the basic options, with some recomended resources for further exploration.  Following the techniques is a brief overview of the major mushrooms appropriate to grow in your vegetable garden. 
Techniques
When it comes to getting started with your myco-garden, you simply need to remember three out of the next five words: "Put IT IN the GROUND".  "IT" is a chunk of mycelium - or pre-grown mushroom roots, ready to be planted in the ground.  "IN" means about 1-1.5 inches deep in the soil, where you'll place and cover the mycelium. And "GROUND" refers to the soil surrounding one or more of the recommended garden species you are probably already growing.
Below, are a few variations and suggestions made to this basic outline.  Here, I include some brief first-hand accounts, where possible, to share the details of how I have approached a situation.  "Mycelium Running: How Mushrooms Can Help Save the World", by Paul Stamets, is the definitive guide to myco-gardening techniques.  However, I have found it is most important for you to get hands-on with the concepts, get some experience, and "put it in the ground" .  
(See my sources at the end of the article to find suppliers of mushroom mycelium and further resources.)
Direct Substrate
I started growing mushrooms the way most people do today: through a mail-order kit from Fungi Perfecti.  I had been growing shitake and reishi using just the plastic-bag kit the mushroom company had supplied, as I had done off-and-on for years.  
My reishi mushrooms were flourishing but my woodchip block of shitake had become contaminated with a bluish-green mold.  I sliced off the half of the block that was contaminated and, being late may in coastal Maine, I buried the contaminated block of fungus roots near the herb garden in our back yard.  
To my surprise, perhaps about three weeks later and following a rainstorm, a small family of perfectly formed shitakes emerged right from where I had put it in the ground. I picked the first handful, and 2 days later the second flush was ready. But a stir-fry and omelette later, the patch went dry and nothing more was ever seen.
Since then, I have repeatedly seen mushroom mycelium that is contaminated from indoor cultivation, become healthy and invigorated by being buried in the shade of garden vegetables.  This is the simpilest way to begin to understand the methods of myco-gardening.  Purchase one or more "production blocks" of mushroom mycelium from the suppliers listed.  Cut off a good sized chunk - and put it in the ground.  
Wood Chips
If you have access to wood chips and sawdust from non-aromatic hardwoods, you can really start producing some fabulous field mushrooms.  By breaking your mycelium into small chunks and "sandwiching" those pieces between two layers of wood chips, you can create an entire bed of production for several species of edibles.  If you begin using wood chips, I recommend reading one or more of Paul Stamet's books, as he highlights several helpful points to consider.
Straw
In 2008/09 I worked with a group of 7th and 8th grade students in coastal Maine to grow elm oyster mushrooms along side their kale crop for their school cafeteria garden, as part of their Farm-to-School Program. 
In April 2008, the 7th grade science class used basic kitchen equipment to pasturize chopped straw from the local feed store.  This cooled, wet straw was placed into medium sized plastic bags with air-holes and allowed to ferment indoors for 3-4 weeks.  By May, the bags of colonized mycelium were brought outside and planted in holes and trenches along side the kale seedlings.
Volunteers watered and tended the garden as usual over the summer.  During an early October garden harvest for the school lunch program, 8th grade students studying world hunger discovered a full bloom of elm oyster mushrooms in the cool misty shade of the now overgrown kale patch.  Enough to create a speciality stir-fried side dish for the hot lunch program, and teach students about alternative sources of protein.
The straw method is simple and appears productive.  Several informative videos are available on YouTube.  Although these resources all direct you to fruit the mushrooms in a greenhouse of specialized grow room, we have had luck by directly burying the colonized straw alongside brassica beds.  
Buried Logs
Some species, specifically Shitake and Reishi mushrooms, particularly prefer to grow off of logs.  These can still benefit from being placed in food and pesticide-free landscaping beds due to the moisture and shade provided by the plant life.  Several mushroom mycelium producers advocate cultivating buried logs of shitake and/or reishi.  Both Fungi Perfecti and Mushroom Harvest, listed below, offer all of the supplies and simple tools required to innoculate hardwood logs such as oak, poplar, beech, birch, willow, and other non-aromatic hardwoods.  What is required is the block of mushroom mycelium, a drill, and preferably a hand-innonculator available from listed mushroom supply companies.
Species overview
Elm Oyster (Hypsizgus ulmanarius)
Second only to the everyday "Agaricus" varieties of button mushroom, the delicate and mild oyster mushroom (Pleurotus ostreatus) ranks top among production for mushrooms considered "gourmet".  Yet the elm oyster mushroom (Hypsizgus ulmanarius), while similar in appearance to it's commonplace namesake, is a completely different species.  Elm oysters have a nutty flavor and more firm texture, but their culinary benefits are just a starting point.  This species also has reported beneficial symbiotic relationships with certain vegetable crops - especially brassica species, and grows exceedingly well among kale and broccoli plants.  Paul Stamets has reported a 2-fold increase in brassica yields and a 3-fold total food production increase when the vegetables were grown in the same bed as elm oyster mushrooms.
Both Fungi Perfecti, and Mushroom Harvest carry elm oyster strains, but be sure that you don't confuse this with the common pleurotus species of oyster - of which there are many varietes as well.  The pleurotus species of oyster mushroom actually appears to have negative impacts on some vegetable species and should not at this time be grown in the garden.  
Natural Growing Method: Direct Substrate, Wood Chips, Straw  
Wine Cap (Stropharia rugosoannulata)
A traditional symbiont of the grain fields for many european peasant farmers, the giant "wine cap" mushroom - so called for it's burgundy aroma at maturity - can be a choice edible at best, or pig food compost at worst.  Thought to be share a mutually beneficial relationship with corn, wine caps can become a perenial crop in your garden rotation for many growing regions in the US.  
Natural Growing Method: Direct Substrate, Wood Chips, Straw
Shitake (Lentinula edodes)
A classic for both superb taste, and well-documented medicinal value.  Shitakes have a long history in chinese medicine and are a delicious addition to many dishes.  
Shitakes will dry well, and store for a a very long time. Shitake genetics vary widely.  The small, pale varieties mostly sold in super markets pale in comparison o the meaty beasts that Fungi Perfecti and Mushroom Harvest are able to offer.  
Natural Growing Method: Direct Substrate, Buried Logs, Wood Chips 
Reishi (Ganoderma lucidum)
 
 
Sources and More Info
An excellent resource on the practical management of fungi and other life forms in your agricultural ecosystem.  
Mycorrhizal Applications inc. has a number of interesting and/or helpful refences on the subject, and a number of products as well.  
Paul Stamets website and e-store - Fungi Perfecti.  Excellent books, and a wide range of mycorrhizal products - under the "Myco-Grow" label.  Paul's extensive in-vivo and in-vitro spore preservation work has led his company to hold absolutely surperb mushroom genetics.  His shitakes are truly unlike anything you will see in stores or even most farmers markets.  Paul is the original gourmet mushroom producer.  He has changed the face of the industry and the ability for home gardeners to work with mushrooms and mycorhizae!  
A wonderful company out of the mid-west.  A small team of dedicated and professional mushroom producers with a complete line of mushroom cultivation supplies.  You can buy a simple mushroom kit and put it in the ground, or you can buy everything you need to start from the mushroom spore it self!  Mushroom Harvest has excellent prices and wonderful service.


Source:  http://homestead.org