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Botanical Description of
Maca
Family:
Brassicaceae
Genus:
Lepidium
Species:
meyenii, peruvanium, peruvanium Chacon
Common names: Maca, Peruvian Ginseng, Maka, Maca-Maca,
Maino, Ayak Chichira
Part
Used: Tuberous root
Ethnobotanical Uses: Anemia, Aphrodisiac, Energy,
Fertility, Immunity, Impotence, Memory, Menopause, Menstrual,
Stamina, Stress, Tonic, Tuberculosis
Contraindications: None
Drug
Interactions: None
Maca, the only known
cruciferous root crop of the Americas, is a hardy annual plant
cultivated in the high altitudes of the Peruvian Andes. It is
found growing specifically in areas of common frost occurrence
- on the tundra, barren steppes, summits and high plateaus of
the Peruvian Puna and Suni regions.
These high Andean plateaus
are an inhospitable region of intense sunlight, violent winds,
and below-freezing weather. At altitudes of up to 14,000 feet
above sea level, extreme temperatures and poor, rocky soil,
the area rates among the world’s worst farmland; yet, over the
centuries, Maca has evolved to flourish under these
conditions.
Formerly considered a
perennial plant, it has since been discovered to be a
self-fertilizing annual with a two-stage life cycle; a
vegetative and reproductive cycle. Its appearance is
accurately summed up as a shrub with a low-growing, mat-like
stem system, small, off-white flowers, and scalloped leaves
similar to others in the mustard family.
The root, or hypocotyl, can
be one of several colors (crème, crème-purple, purple and
black) and is of comparable shape to a turnip or radish. The
plant is grown from seed, and root maturation generally occurs
within seven months.
The probable origin of the
genus Lepidium has been traced back to the Mediterranean,
where the majority of related diploid species are found. As a
food staple, Lepidium meyenii was likely domesticated in San
Blas, Junin, between 1300-2000 years ago, although recent
archaeological evidence has indicated a much earlier
domestication of more primitive cultivars of the plant.
The nutritional
value of dried Maca root is high, and the protein content of
Maca exists mainly in the form of polypeptides and amino
acids. Maca is also rich in fatty acids, minerals and
vitamins.
In addition to
its rich supply of essential nutrients, Maca also contains an
impressive array of bioactive components, any or all of which
may be responsible for its numerous benefits. The primary
bioactive components are believed to be Alkaloids,
Glucosinolates and Sterols.
Alkaloids
Alkaloids are a large group
of pharmacologically active substances found in plants. Many
drugs are from plant-derived alkaloids, including digitalis,
morphine, atropine and codeine. The alkaloids identified in
Maca include: Macaina 1, 2, 3 and 4 (Chacón) and Macamides and
Macaenes (Zheng).
In 1961, Dr. Gloria Chacón
de Popovici published research, which scientifically
demonstrated increased fertility in numerous animal species
using Maca. She discovered and identified the alkaloids
present in Maca and proved that it was the alkaloids that were
responsible for the positive results.
In studies with rats, Dr.
Chacon found that animals given either Maca root powder, or
alkaloids isolated from Maca root, showed multiple egg
follicle maturation in females, while males had significantly
higher sperm production and motility rates than in control
groups. The effects were measurable within 72 hours of dosing
the animals.
Dr. Chacón suggests that
the alkaloids in Maca act on the hypothalamus-pituitary axis
and the adrenals. She believes Maca has a balancing effect
upon the hypothalamus, the master controller of the body,
which then regulates the other endocrine glands, including the
pituitary, adrenals, ovaries, testes, thyroid, and pancreas.
Glucosinolates
Glucosinolates (a group of
sulphur-containing glucosides) are powerful anti-cancer plant
compounds giving cruciferous vegetables their reputation as
cancer-fighters. They are important because of their effects
on enzymes and, particularly, antimutagenic and
anticarcinogenic properties against a variety of classes of
carcinogens.
Glucosinolate metabolite
examples include Indole-3-carbinol and isothiocyanates, which
have been identified in Maca. Some researchers believe Maca's
p-methoxybenzyl isothiocyanate is responsible for its
aphrodisiac properties. It has also been shown to increase
fertility in humans. Isothiocyanates are also known to alter
estrogen metabolism in a favorable direction.
Sterols
Sterols are a large
subgroup of steroid-like compounds found in plants and
animals. Maca contains several sterols known for their ability
to reduce intestinal cholesterol absorption thereby helping to
lower blood cholesterol profiles. Reduced cholesterol can
positively affect erectile response if erection is compromised
by artery-clogging fats.
Maca's ability to lower
cholesterol seems to be an overlooked and understudied benefit
of tremendous proportion as elevated cholesterol levels and
atherosclerosis reaches epidemic proportions.
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