Undercover Device: The Cloche
Increase your garden's productivity with low-cost,
manageable, season-extending structures.
by Johanna Linch
One harvest, two harvests, three harvests, four ...Wouldn't
it be wonderful to be able to grow fresh fruits, flowers,
and vegetables for your table all year round?
Unfortunately, for most of us the growing season is limited
to just a few months out of the year. Cold, wind, and
excessive precipitation dictate when and for how long
plants will grow. Until soil and air reach a certain level
of warmth, for example, flowers and vegetables cannot
germinate. And, at the other end of the scale, they go
dormant—or die altogether—when temperatures
drop below a certain point. Then too, heavy seasonal rains
can drown young seedlings, wash them out of the soil, or
beat them into the ground, while strong winds occasionally
batter and break tender leaves and stems. All this means
that, without special help of some kind, most plants can
only be cultivated between the dates of the last spring
frost and the first frost in autumn or during the benign
days between the end and new beginning of the rainy,
superhot, or storm seasons. In some areas this results in a
growing season of two months or less—too little time
for many of the most desirable crops to mature.
There are ways to bypass the weather, however, by giving
plants the environment they need to flourish out of
season. Structures such as the greenhouse, the cold
frame, and the hotbed can all provide the necessary
microclimate for crops to be started earlier in spring and
allowed to mature deeper into autumn. Still another way to
control the environment is through the use of
cloches.
BELLING THE CROP
Cloches—a term that means "bells" in
French—have been used extensively in the garden since
the 1800's. To advance their crops for market,
nineteenth-century French gardeners placed bell-shaped
glass jars over individual seedlings to protect them from
frost and to give them warm, undisturbed surroundings in
which to grow. These early cloches had no holes for
ventilation, so they had to be tilted and propped open with
a stick or stone when excessive heat or moisture built up
inside. Because each individual plant had its own cover,
maintaining adequate ventilation for a large crop was
tedious and time-consuming; furthermore, storage of the
glass bells from one season to the next required a lot of
space and sometimes resulted in costly breakage. Therefore,
over the years gardeners have sought ways to improve on
this basic design; and although empty peanut butter and
canning jars—modern versions of yesteryear's elegant
glass domes—are still used today, new devices made
with metal and plastic have greatly improved the situation.
FROM INDIVIDUALTO MASS
COVER
One commonly used—and effective—individual
cloche is made from the ubiquitous plastic gallon or
half-gallon milk bottle. The bottom is cut out, and the
bottle is set directly over the plant. Ventilation is
provided when the bottle cap is removed; the translucent
sides help to diffuse some of the sun's fiercest rays;
storage is comparatively easy (bottles can be strung up by
the dozen if you simply run rope through their handles);
and the cost is ...well, about as minimal as you can get.
In fact, many potential bottle cloches can be found
littering the roadside.
A step beyond the individual cloche is the tent cloche
...or its somewhat roomier cousin, the barn cloche. The
tent cloche consists of two panels of glass or clear
plastic that lean together at the top, forming a triangle
with the ground as baseline. Such a design can straddle a
number of plants, although—because of the steep angle
of the sides—usually only one row can be
accommodated. Open at both ends, the tent cloche affords
less protection than the classic bell jar, but it offers
considerably better ventilation ...without needing to be
propped open. Tent cloches can be made from salvaged
windows that are hinged together or leaned against angled
posts, from plastic-covered frames, or from panels of sheer
glass or hard plastic. Patent clips are available to hold
such panels together at the top, but duct tape is also
effective and certainly less expensive.
The barn cloche looks like a small, transparent house with
two long sides and a peaked roof. It can span several
closely spaced rows, and can accommodate relatively tall or
bushy plants. It's also somewhat more difficult to build
and more expensive than either of the two above-mentioned
designs.
Both the tent cloche and the barn cloche are portable, easy
to use, and easy to store. Their chief disadvantages lie in
their size—which is generally limited to, say, three
or four feet in length—and their open ends, which may
admit too much cold air or wind-driven rain. The size
limitation means that it takes several of them, set end to
end, to cover a normal row of plants. They are also
somewhat limited in the width to which they can be spread
open, so they aren't very practical for wide-bed planting.
Somewhere between the bell jar and tent is the
umbrella-style cloche, which is simply a big, lightweight
(usually made with plastic sheeting) dome. Like the bell
jar, it may need to be propped open for ventilation; like
the tent, it can cover a number of plants. It's
particularly suitable for small, broad-sown beds.
Still another option is the tunnel cloche, which is about
as close to a greenhouse as one can get. The tunnel cloche
stretches over a long row—nineteen or twenty feet is
not uncommon—and can span a four-or five-foot-wide
bed with ease. It consists of a frame covered with
translucent material, usually clear plastic sheeting. Its
chief advantage lies in the great area it can cover, which
suits today's wide-bed style of cultivation. Its chief
disadvantage is that it's hard to move from one site to
another. Certain types, such as those made of heavy
reinforcing wire that's permanently covered with plastic,
are cumbersome and dif ficult to store, relocate, or even
open for ventilation ...although they could probably keep
plants safe from all but a hurricane. Another variety
utilizes spring-steel hoops thrust into the ground and then
overlaid with plastic sheeting. The plastic is clamped in
place with a second series of hoops that fit over, or
beside, the first ones. Hoops can also be made from lengths
of reinforcement rod or half-inch PVC pipe that are then
covered with plastic sheeting.
Whatever the shape, size, or material, any of these cloches
can significantly affect the site in which crops are to
grow, trapping the radiant energy of the sun to heat the
enclosed soil and air; protecting the area from wind, rain,
and frost; and in general supplying a suitable climate for
young plants.
AN EMERGENCY TUNNEL
At MOTHER's Eco-Village we use various methods to help
extend the season, including south-facing beds with
protective rock walls that provide shelter and heat-storing
thermal mass ...hotbeds warmed with deep-dug, decomposing
organic materials ...and a variety of structures or devices
such as greenhouses and cloches. Some of the latter are on
trial for possible later incorporation into the EcoVillage
routine, and others are in regular use.
Then again, some come into being because of an emergency.
Such was the case with our PVC tunnel cloches.
You see, we needed a cover photograph featuring "My
MOTHER's House" for our Homebuilding and Shelter
Guide (stock No. 64162, available from Mother's
Bookshelf for $12.95 plus $1.50 for postage and handling).
Now, magazine articles, promotional pieces, cover art, and
other published items must all be put together
weeks—even months—before they're printed and
released. So, although we wanted to show the house with its
summer garden, the photograph had to be taken at the
beginning of May ...less than a week after the last spring
frost and long before summer flowers and vegetables would
be ready. To solve the problem, our gardeners decided to
start the necessary seedlings in a greenhouse in midwinter,
and then build tunnel cloches to cover the long beds in
front of the house, which would permit the young plants to
be transferred early to their permanent location and allow
them to mature in time for the camera.
Experience with plastic-covered reinforcement wire cages
had taught our staff that these unwieldy structures would
be unsuitable for the five-foot-wide beds that had to be
covered. Attempts to find spring-steel hoops and
double-clamped plastic failed. Ten-foot-long iron
reinforcement rods proved to be very difficult to bend into
hoops. Tunnel cloches made of half-inch PVC pipe seemed the
best answer.
MAKING THE PVC CLOCHE
The basic construction of a PVC cloche is simple. Lengths
of the white plastic pipe are cut (in MOM's case, to ten
feet), bent into semicircles, and pushed down over lengths
of rebar that have been driven into the ground on either
side of the bed to be covered. A hacksaw for cutting and a
sledgehammer for driving the rebar are the only tools
needed.
A rebar "tent stake"—ours were each two feet
long—is first sunk into the ground at either end of
the tunnel-to-be, angled slightly away from the bed itself.
Heavy, clear plastic that's ten feet wide and seven mils
thick is stretched over the hoops and pulled together into
a bunch at either end. Rope is wound around each bundle and
pulled tight, then stretched around the staking rebars and
knotted (see photograph). Tension holds the plastic in
place—down along the ground when the cloche is shut,
or partway up the sides when a bit of ventilation is
required. To allow full access to air and sun, the plastic
can be pushed all the way up and over the top of the hoops
so that it accordianpleats on the other side. Should the
cover become loose, one need only tighten the slipknot that
holds the plastic to the stakes.
We had no trouble with this structure, even though it was
subjected to wind, rain, and frost. It was
tiresome, later in the season, to have to drop everything
and run to ventilate the cloche around 9:00 or 10:00 in the
morning so the plants wouldn't get cooked! After several
days of this, however, our gardeners decided to risk frost
damage, and removed the plastic altogether. By that time,
the plants were hardened off and mature enough to be
unaffected by the still-chilly spring nights.
MOM'S TIMETABLE
Our summer-garden-in-spring project began in January with
the planting of seeds in the Eco-Village greenhouses. As
the young plants developed, they were transferred from ger
mination flats to prick-out flats, then to containers (the
sizes of these were varied to suit the plants). On April
22, the tunnel cloches were set up over the beds in front
of the house to warm the soil. Around April 25, the
assortment of plants was transferred to the cloche. They
thrived in their new, protected environment. And beginning
on May 3—eight days after planting and only three
days after the last frost—the plastic covers were
removed and photographs taken.
Now, this timetable isn't one that we'd recommend to the
average vegetable gardener. However, for us it served the
dual purpose of supplying needed photographic material and
testing the effectiveness of the PVC tunnel cloche.
Furthermore, MOTHER's gardeners found the latter easy to
construct, use, and take down once the job was done: The
plastic cover was untied and removed, and the PVC pipes
were pulled off their rebar posts and stored next to an
outbuilding. All in all, the cloche proved a great success.
CHOOSE WHAT'SRIGHT FOR
YOU
Our specific problem called for a tunnel cloche, but
you might be better off with a different design.
Each type has its own virtue; and if it's a waste of time
and energy to use dozens of plastic bottles in a garden
consisting of twelve or fourteen 20' rows, it's equally
counterproductive to build a tunnel cloche if you're
cultivating a small, circular bed. So if you want to extend
the season with one of these devices, select the type that
suits your garden and your resources
...and then be prepared to reap the rewards: fruits,
flowers, herbs, and vegetables that you can start early in
the season and harvest—after later sowings—well
into winter's cold.
