Molasses

Note: `Since prepared molasses is expensive. Use MUSCAVADO sugar

molasses

The combination of water, oil and molasses will have the following order: molasses will be on the bottom, water will settle in the middle and oil will float on the top. Oil has less density than water or molasses.

Different types of molasses exist, with cane molasses and sugar beet molasses as the two most common. Sugar beet molasses contains mostly sucrose, though also contains glucose and fructose.

Figure of speech. Molasses is a thick, slow-running liquid that gets even thicker when it's cold.

The root of the saying dates back to January 15,1919 when an industrial tank of over 2 million gallons of molasses ruptured in Boston sending a wall of molasses rushing through the town at approximately 35 miles per hour, injuring over 150 and killing 21.

So those 21 people were truly slower than molasses in January.

The triangular trade involved the sale of rum molasses and slaves among the ports of New England, Africa, and the West Indies.

No. pumpkin and molasses are two completely different things.

Substitutions for pumpkin can be:

hubbard squash

butternut squash

or sweet potato

Substitutions for molasses can be:

corn syrup

maple syrup

simple (sugar) syrup

brown sugar

depending on the recipe.

It was a pure yellow crystalline form of elemental sulfur known as sublimed sulfur, or "flowers of sulfur." Sublimation, or evaporation without melting, is a common final purification step for sulfur. It is inexpensive and can still be obtained from many pharmacies -- usually by special order.

Robert Stokesbary has a web site featuring his father's sulfur "cure" for coccidioidomycosis, (cocci, or valley fever). This is a fungal infection of the lungs that is endemic to the U.S. Southwest. The experiences of some who have tried sulfur can be found there: http://www.breaman.net/ValleyFeverInfo/

Tracy Hall Jr
Provo Canyon, Utah
hthalljr'gmail'com

calcium oxide react with water it forms calcium hydroxide which is available in molasses . when molasses fermented started it leaves Co2 and alcohol.

this CO2 react with calcium hydroxide it form calcium carbonate. it become hard material

They paid less because of the triangle trade system, which involved slaves, molasses, and rum. The colonists would take the molasses from New England to Africa, where it would be traded for slaves. Then the slaves were taken to the West Indies where they were traded for rum. Finally, the rum was taken to New England and was traded for molasses. Although this method of gaining profit, merchants did it anyway because it was highly profitable.

The Molasses Act of 1733 imposed a tax of 6 pence for every gallon of molasses, 9 pence for every gallon of rum, and 5 shillings for every hundred weight avoirdupois of sugar (avoirdupois is a unit of weight). American colonists ignored this act via smuggling, and so it was repealed

The Sugar Act of 1734 replaced the Molasses Act. The Sugar Act, also known as

The American Revenue Act of 1764, lowered taxes, expanded things to tax, and enforced it better.

the British

Actress and Singer Beatrice Kay.

No, molasses is the waste syrup that results after sugar is extracted from sugar cane, sugar beets, etc. It is purely plant material and some water used in processing.

You can spread it on bread, use it is drinks in place of sugar, and make cookies and

candy using it.

That is the correct spelling of the word "molasses" (a thick sugar syrup).

Made it an hour ago for breakfast. Heated molasses until rolling, added a scant 1/4 tsp. baking soda to make it foam. You can't eat much because the sugar gets to you but it's delicious a couple of times a year, on hot biscuits.

Don't know the chemistry of it. Interested in how others make it and whether this is a "Southern" delicacy or a nationwide thing.

No - it is not really needed. Molasses (unrefined sugar) is a preservative in its own right. If you were to use an extra, it would tend to be sodium metabisulfite which admittedly is a source of Sulfur dioxide.

yes

sdf

Triangular Trade

Molasses! The "Super Plant Carb!".........here we go...............................................

Much the same way a sneaky Sylvester cat is exposed by a little yellow bird saying - "I thought I saw a puddy tat . . . I did I did see a puddy tat . . . and he's standing right there!" - our Tweetie bird had discovered the essence of this product. It was indeed nothing more than Blackstrap Molasses, a quick taste had conformed for our Tweetie bird that she had wasted her time and effort lugging home a very expensive bottle of plant food additive. Molasses is something we already use for gardening at the Bird's Nest. In fact sweeteners like molasses have long been a part of the arsenal of common products used by organic gardeners to bring greater health to their soils and plants.

So please listen to the little yellow bird when she chirps, because our Tweetie bird knows her stuff. The fertilizer companies are like the bumbling Sylvester in many ways, but rather than picturing themselves stuffed with a little bird, they see themselves growing fat with huge profits from the wallets of unsuspecting consumers. Let us assure you it's not the vision of yellow feathers floating in front of their stuffed mouths that led these executives in their attempt to "pounce" on the plant growing public.

And the repackaging of molasses as plant food or plant additive is not just limited to the companies selling their products in hydroponic stores. Folks shopping at places like Wal-Mart are just as likely to be taken in by this tactic. In this particular case the offending party is Schultz® Garden Safe All Purpose Liquid Plant Food 3-1-5. This is a relatively inexpensive product that seems appealing to a variety of organic gardeners. Here's Shultz own description of their product.

"Garden Safe Liquid Plant Foods are made from plants in a patented technology that provides plants with essential nutrients for beautiful flowers and foliage and no offensive smell. Plus they improve soils by enhancing natural microbial activity. Great for all vegetables, herbs, flowers, trees, shrubs and houseplants including roses, tomatoes, fruits, and lawns. Derived from completely natural ingredients, Garden Safe All Purpose Liquid Plant Food feeds plants and invigorates soil microbial activity. Made from sugar beet roots! No offensive manure or fish odors."

That sure sounds good, and the three_little_birds will even go as far as to say we agree 100% with all the claims made in that little blurb of ad copy. But here's the problem, Shultz isn't exactly telling the public that the bottle of "fertilizer" they are buying is nothing more than a waste product derived from the production of sugar. In fact, Schultz® Garden Safe 3-1-5 Liquid Plant Food is really and truly nothing more than a form molasses derived from sugar beet processing that is usually used as an animal feed sweetener. If you don't believe a band of birds, go ahead and look for yourself at the fine print on a Garden Safe bottle where it says - "Contains 3.0% Water Soluble Nitrogen, 1.0% Available Phosphate, 5.0% Soluble Potash - derived from molasses."

The only problem we see, is that animal feed additives shouldn't be retailing for $7.95 a quart, and that's the price Shultz is charging for it's Garden Safe product. While we don't find that quite as offensive as Advanced Nutrients selling their "CarboLoad" product for $14.00 a liter, we still know that it's terribly overpriced for sugar processing wastes. So, just as our band of birds gave the scoop on poop in our Guano Guide, we're now about to give folks the sweet truth about molasses.

Molasses is a syrupy, thick juice created by the processing of either sugar beets or the sugar cane plant. Depending on the definition used, Sweet Sorghum also qualifies as a molasses, although technically it's a thickened syrup more akin to Maple Syrup than to molasses. The grade and type of molasses depends on the maturity of the sugar cane or beet and the method of extraction. The different molasses' have names like: first molasses, second molasses, unsulphured molasses, sulphured molasses, and blackstrap molasses. For gardeners the sweet syrup can work as a carbohydrate source to feed and stimulate microorganisms. And, because molasses (average NPK 1-0-5) contains potash, sulfur, and many trace minerals, it can serve as a nutritious soil amendment. Molasses is also an excellent chelating agent.

Several grades and types of molasses are produced by sugar cane processing. First the plants are harvested and stripped of their leaves, and then the sugar cane is usually crushed or mashed to extract it's sugary juice. Sugar manufacturing begins by boiling cane juice until it reaches the proper consistency, it is then processed to extract sugar. This first boiling and processing produces what is called first molasses, this has the highest sugar content of the molasses because relatively little sugar has been extracted from the juice. Green (unripe) sugar cane that has been treated with sulphur fumes during sugar extraction produces sulphured molasses. The juice of sun-ripened cane which has been clarified and concentrated produces unsulphured molasses. Another boiling and sugar extraction produces second molasses which has a slight bitter tinge to its taste.

Further rounds of processing and boiling yield dark colored blackstrap molasses, which is the most nutritionally valuable of the various types of molasses. It is commonly used as a sweetner in the manufacture of cattle and other animal feeds, and is even sold as a human health supplement. Any kind of molasses will work to provide benefit for soil and growing plants, but blackstrap molasses is the best choice because it contains the greatest concentration of sulfur, iron and micronutrients from the original cane material. Dry molasses is something different still. It's not exactly just dried molasses either, it's molasses sprayed on grain residue which acts as a "carrier".

Molasses production is a bit different when it comes to the sugar beet. You might say "bird's know beets" because one of our flock grew up near Canada's "sugar beet capitol" in Alberta. Their family worked side by side with migrant workers tending the beet fields. The work consisted of weeding and thinning by hand, culling the thinner and weaker plants to leave behind the best beets. After the growing season and several hard frosts - which increase the sugar content - the beets are harvested by machines, piled on trucks and delivered to their destination.

At harvest time, a huge pile of beets will begin to build up outside of the sugar factory that will eventually dwarf the factory itself in size. Gradually throughout the winter the pile will diminish as the whole beets are ground into a mash and then cooked. The cooking serves to reduce and clarify the beet mash, releasing huge columns of stinky (but harmless) beet steam into the air. Sometimes, if the air is cold enough, the steam will fall to the ground around the factory as snow!

As we've already learned, in the of sugar cane the consecutive rounds of sugar manufacturing produce first molasses and second molasses. With the humble sugar beet, the intermediate syrups get names like high green and low green, it's only the syrup left after the final stage of sugar extraction that is called molasses. After final processing, the leftover sugar beet mash is dried then combined with the thick black colored molasses to serve as fodder for cattle. Sugar beet molasses is also used to sweeten feed for horses, sheep, chickens, etc.

Sugar beet molasses is only considered useful as an animal feed additive because it has fairly high concentrations of many salts including calcium, potassium, oxalate, and chloride. Despite the fact that it's not suitable for human consumption and some consider it to be an industrial waste or industrial by-product, molasses produced from sugar beets makes a wonderful plant fertilizer. While humans may reject beet molasses due to the various "extras" the sugar beet brings to the table, to our plant's it's a different story. Sugar beet molasses is usually fairly chemical free as well, at least in our experience. Although farmers generally fertilize their fields in the spring using the various arrays of available fertilizers, weed chemicals (herbicides) are not used for this crop due to the beet plant's relatively delicate nature.

There is at least one other type of "molasses" we are aware of, and that would be sorghum molasses. It's made from a plant known as sweet sorghum or sorghum cane in treatments somewhat similar to sugar beets and/or sugar cane processing. If our understanding is correct, sorghum molasses is more correctly called a thickened syrup rather than a by-product of sugar production. So in our eyes sorghum molasses is probably more like Maple Syrup than a true molasses.

In the distant past sorghum syrup was a common locally produced sweetener in many areas, but today it is fairly rare speciality product that could get fairly pricey compared to Molasses. Because sorghum molasses is the final product of sweet sorghum processing, and blackstrap and sugar beet molasses are simply waste by-products of sugar manufacturing, it's pretty easy to understand the difference in expense between the products. The word from the birds is - there isn't any apparent advantage to justify the extra expense of using sorghum molasses as a substitute for blackstrap or sugar beet molasses in the garden. So if you find sorghum molasses, instead of using it in your garden, you'll probably want to use it as an alternate sweetener on some biscuits.

That's a quick bird's eye look at the differences between the various types and grades of molasses and how they are produced. Now it's time to get a peek at the why's and how's of using molasses in gardening.

Why Molasses?

The reason nutrient manufacturer's have "discovered" molasses is the simple fact that it's a great source of carbohydrates to stimulate the growth of beneficial microorganisms. "Carbohydrate" is really just a fancy word for sugar, and molasses is the best sugar for horticultural use. Folks who have read some of our prior essays know that we are big fans of promoting and nourishing soil life, and that we attribute a good portion of our growing success to the attention we pay to building a thriving "micro-herd" to work in concert with plant roots to digest and assimilate nutrients. We really do buy into the old organic gardening adage - "Feed the soil not the plant."

Molasses is a good, quick source of energy for the various forms of microbes and soil life in a compost pile or good living soil. As we said earlier, molasses is a carbon source that feeds the beneficial microbes that create greater natural soil fertility. But, if giving a sugar boost was the only goal, there would be lot's of alternatives. We could even go with the old Milly Blunt story of using Coke on plants as a child, after all Coke would be a great source of sugar to feed microbes and it also contains phosphoric acid to provide phosphorus for strengthening roots and encouraging blooming. In our eyes though, the primary thing that makes molasses the best sugar for agricultural use is it's trace minerals.

In addition to sugars, molasses contains significant amounts of potash, sulfur, and a variety of micronutrients. Because molasses is derived from plants, and because the manufacturing processes that create it remove mostly sugars, the majority of the mineral nutrients that were contained in the original sugar cane or sugar beet are still present in molasses. This is a critical factor because a balanced supply of mineral nutrients is essential for those "beneficial beasties" to survive and thrive. That's one of the secrets we've discovered to really successful organic gardening, the micronutrients found in organic amendments like molasses, kelp, and alfalfa were all derived from other plant sources and are quickly and easily available to our soil and plants. This is especially important for the soil "micro-herd" of critters who depend on tiny amounts of those trace minerals as catalysts to make the enzymes that create biochemical transformations. That last sentence was our fancy way of saying - it's actually the critters in "live soil" that break down organic fertilizers and "feed" it to our plants.

One final benefit molasses can provide to your garden is it's ability to work as a chelating agent. That's a scientific way of saying that molasses is one of those "magical" substances that can convert some chemical nutrients into a form that's easily available for critters and plants. Chelated minerals can be absorbed directly and remain available and stable in the soil. Rather than spend a lot of time and effort explaining the relationships between chelates and micronutrients, we are going to quote one of our favorite sources for explaining soil for scientific laymen.

"Micronutrients occur, in cells as well as in soil, as part of large, complex organic molecules in chelated form. The word chelate (pronounced "KEE-late") comes from the Greek word for "claw," which indicates how a single nutrient ion is held in the center of the larger molecule. The finely balanced interactions between micronutrients are complex and not fully understood. We do know that balance is crucial; any micronutrient, when present in excessive amounts, will become a poison, and certain poisonous elements, such as chlorine are also essential micronutrients.

For this reason natural, organic sources of micronutrients are the best means of supplying them to the soil; they are present in balanced quantities and not liable to be over applied through error or ignorance. When used in naturally chelated form, excess micronutrients will be locked up and prevented from disrupting soil balance."

Excerpted from "The Soul of Soil"

by Grace Gershuny and Joe Smillie

That's not advertising hype either, no product being sold there. That's just the words of a pair of authors who have spent their lives studying, building, and nurturing soils.

Molasses' ability to act as a chelate explains it's presence in organic stimulant products like Earth Juice Catalyst. Chelates are known for their ability to unlock the potential of fertilizers, and some smart biological farmers we know are using chelating agents (like Humic Acid) to allow them to make dramatic cuts in normal levels of fertilizer application.

One way to observe this reaction at work would be to mix up a solution of one part molasses to nine parts water and then soak an object which is coated with iron rust (like a simple nail for instance) in that solution for two weeks. The chelating action of the molasses will remove the mineral elements of the rust and hold them in that "claw shaped" molecule that Grace and Joe just described.

As we've commented on elsewhere, it's not always possible to find good information about the fertilizer benefits of some products that aren't necessarily produced as plant food. But we've also found that by taking a careful look at nutritional information provided for products like molasses that can be consumed by humans, we can get a pretty decent look at the nutrition we can expect a plant to get as well.

There are many brand's of molasses available, so please do not look at our use of a particular brand as an endorsement, our choice of Brer Rabbit molasses as an example is simply due to our familiarity with the product, one of our Grandmother's preferred this brand.

Brer Rabbit Blackstrap Molasses

Nutritional Information and Nutrition Facts: Serving Size: 1Tbsp. (21g). Servings per Container: About 24. Amount Per Serving: Calories - 60;

Percentage Daily Values; Fat - 0g, 0%; Sodium - 65mg. 3%; Potassium - 800 mg. 23%; Total Carbohydrates - 13g, 4%; Sugars - 12g, Protein - 1g, Calcium - 2%; Iron 10%; Magnesium 15%; Not a significant source of calories from fat, sat. fat, cholesterol, fiber, Vitamin A, and Vitamin C.

Let me explain to you today manufacture of ethyl alcohol from molasses. In India of the ethyl alcohol is prepared from molasses. Molasses is the mother liquor left after the crystallization of cane sugar from concentrated juice. It is dark coloured thick syrupy mass. Molasses contain about 60% fermentable sugars, mostly sucrose, glucose, and fructose. It forms a brilliant cheap source of industrial ethyl alcohol. Molasses is converted into ethyl alcohol by the following steps: Dilution. Molasses id first diluted with water. One volume of molasses is blended with 5 volumes of water. Addition of Ammonium Sulphate. Molasses usually contain enough nitrogenous matter to act as food for yeast during fermentation. If the nitrogen content of the molasses is poor, it may be fortified with ammonium sulphate or ammonium phosphate. Addition of Sulphuric Acid. The solution is then made acidic with a little amount of sulphuric acid. Acidity is favourable to the growth of yeast but unfavourable to most other bacteria. Care should be taken to avoid an excess of acid as the yeast may be killed.