Home Made Maple Syrup
By Mel Koelling, Forestry Dept.
Two species of sugar maple (Acer saccharum) and
black maple (A. nigrum), are the source of sap for
most commercial maple production. Sap suitable for conversion into syrup may
also be obtained from red and silver maples, though such sap usually has a lower
sugar content.
Its greatest concentration in forest stands occurs in the western and northern
portions of the state. In addition to its use for sap production, sugar maple
is a valuable tree for lumber and is used extensively in fine furniture, It
has been widely planted as a shade and ornamental tree.
EQUIPMENT NECESSARY
Maple syrup can be produced with a minimum of equipment, but a few standard
items increase the efficiency of the operation and the quality of the product:
1. A drill with a 7/16- or 1/2-inch bit for drilling tap-holes in trees.
2. A metal or plastic collection spout for each tap-hole.
3. A collection container (bucket or plastic bag) or tubing line for each
tap-hole.
4. A large pan and a heat source for boiling down the sap. The size needed
will depend on how much sap you intend to handle.
5. A large-scale thermometer calibrated at least 15 degrees above the boiling
point of water.
6. Wool, orlon or other filters for filtering
finished syrup while hot.
7. Storage facilities and containers for the finished syrup.
TAPPING THE TREE
To obtain the earliest runs of sap, tapping should be started as soon as
the sap starts to rise. Minimal trunk diameter for trees suitable for tapping
is 10 inches at 4 feet above the ground.
To tap a tree, select a spot on the trunk of the tree 2 to 4 feet above
the ground in an area that appears to contain sound wood. At this point, drill
a hole approximately 2 to 2.5 inches deep into the wood. Then insert a collection
spout and tap lightly into the tree, and attach a bucket or plastic bag or a
tubing line to the spout. Open buckets used for sap collection should be covered
to keep out rainwater, debris, insects and other foreign materials.
COLLECTING THE SAP
Sap flow in maple trees will not occur every day throughout the tapping
season. It occurs when a rapid warming trend in early to midmorning follows
a cool (below freezing) night. Thus, the amount of sap produced varies from
day to day. Normally, a single tap-hole produces from a quart to a gallon of
sap per flow period (from a few hours to a day or more), with a seasonal accumulation
of 10 to 12 gallons per tap-hole likely.
To produce high quality syrup, sap collections should be made as required,
not exceeding every two or three days. If this is not possible, collections
obtained from prolonged flow periods should be stored and processed separately.
During periods of rather low temperatures and under favorable storage conditions,
sap may be kept four or five days without reducing syrup quality.
The amount of sap required to produce a gallon of maple syrup varies, depending
on its sugar concentration. Sap averages approximately 2 percent sugar. At this
concentration, 43 gallons of sap are required to produce 1 gallon of syrup.
If the sap contains a higher sugar concentration, less sap will be required
Producing maple syrup is essentially a matter of concentrating the sugar
solution to a predetermined level through evaporation. Heat is used to concentrate
the sap and to develop the characteristic maple color and flavor that make maple
syrup so highly desirable.
In large commercial operations, a continuous feed evaporation process is
used. That is, the evaporation pan is arranged so that sap may be continuously
added and syrup drawn off. In smaller operations, a "batch" approach
is used. The evaporation pan is filled with sap and sap is added as necessary
to replace that lost by evaporation. When a suitable amount of concentrated
sap is present, the pan is "finished-off" to produce syrup of the
correct density.
To begin evaporation, fill the evaporating container (preferably a large
shallow pan) with sap. Begin heating the sap to the boiling point, taking care
not to burn or scorch the sap. (A Teflon-coated pan is ideal.) As evaporation
lowers the level of sap in the pan, add more sap. Continue this process until
most of the sap in the pan is highly concentrated and the boiling point of the
sap begins to rise above the boiling point of water.
Throughout this process, it may be necessary occasionally to skim the surface
of the boiling liquid to remove surface foam and other materials. Finished syrup
boils at 7 degrees above the boiling point of water. As the temperature of the
boiling sap approaches this point, boiling should be carefully controlled to
prevent burning and overheating.
Once the desired boiling point has been reached, the syrup is ready for
filtering and packaging. Hot syrup should be filtered through a suitable filter
of wool or orlon to remove suspended particles, such
as sugar sand, and improve the appearance of the syrup. After filtering, the
syrup should be packaged, also while hot. A temperature of at least 180 degrees
F is necessary to prevent spoiling while in storage.
OTHER MAPLE PRODUCTS
Maple syrup may be used as is, of course, or it may be converted into other
highly desirable products. Maple sugar, maple candy and maple fudge are just
a few of the many other maple products. Basically, these are made by concentrating
finished syrup to a greater density and stirring the highly concentrated syrup.
Recipes for a variety of maple products may be obtained by contacting the local
county Extension office or by writing to the Department of Forestry at Michigan
State University.
Maple syrup and sugar are among the oldest agricultural commodities produced
in the United States. Native Americans are generally credited with discovering
how to convert maple sap into maple syrup. The importance of maple products
for local trade was established well before the arrival of the first European
settlers in North America. Maple syrup production is confined to the northeastern
portion of the United States, with the largest amounts produced in Vermont and
New York. Until rather recently, maple syrup and sugar have been strictly a
"sideline" farm crop; however, the production of maple syrup and other
maple products is often a full-time operation. Maple syrup is one agricultural
crop in which there is no surplus. In fact, demand far exceeds the available
supply. The industry is not expanding, even though less than 1 percent of the
potential resource is being used.
Courtesy of Michigan State University Extension