,
Drosera capensis with a trapped insect, contain
proteolytic enzymes '', rich in
cannabinoids '' leaf '' leaf '' buds with glandular hairs of a trichome on a leaf of
Arabidopsis thaliana; the structure is a single cell. of leaf hairs on
Brachypodium distachyon (250x) Plant trichomes have many different features that vary between both species of plants and organs of an individual plant. These features affect the subcategories that trichomes are placed into. Some defining features include the following: • Unicellular or multicellular • Straight (upright with little to no branching), spiral (corkscrew-shaped) or hooked (curved apex) • Presence of
cytoplasm • Glandular (secretory) vs. eglandular • Tortuous, simple (unbranched and unicellular), peltate (scale-like), stellate (star-shaped) •
Adaxial vs.
abaxial, referring to whether trichomes are present, respectively, on the upper surface (adaxial) or lower surface (abaxial) of a leaf or other lateral organ. In a model organism,
Cistus salviifolius, there are more
adaxial trichomes present on this plant because this surface suffers from more ultraviolet (UV),
solar irradiance light stress than the
abaxial surface. Trichomes can protect the plant from a large range of detriments, such as UV light, insects,
transpiration, and freeze intolerance.
Aerial surface hairs Trichomes on plants are
epidermal outgrowths of various kinds. The terms
emergences or
prickles refer to outgrowths that involve more than the epidermis. This distinction is not always easily applied (see
Wait-a-minute tree). Also, there are
nontrichomatous epidermal cells that protrude from the surface, such as
root hairs. A common type of trichome is a
hair. Plant hairs may be
unicellular or
multicellular, and branched or unbranched. Multicellular hairs may have one or several layers of cells. Branched hairs can be
dendritic (tree-like) as in
kangaroo paw (
Anigozanthos),
tufted, or
stellate (star-shaped), as in
Arabidopsis thaliana. Another common type of trichome is the
scale or
peltate hair, that has a plate or shield-shaped cluster of cells attached directly to the surface or borne on a stalk of some kind. Common examples are the leaf scales of
bromeliads such as the
pineapple,
Rhododendron and sea buckthorn (
Hippophae rhamnoides). Any of the various types of hairs may be '''''', producing some kind of secretion, such as the essential oils produced by
mints and many other members of the family
Lamiaceae.
Botanical terms for trichome texture Many terms are used to describe the surface appearance of plant organs, such as
stems and
leaves, referring to the presence, form and appearance of trichomes. Examples include: •
glabrate – almost hairless, having very few trichomes •
glabrous – lacking hairs or trichomes; surface smooth •
hirsute – coarsely hairy •
hispid – having bristly hairs •
articulate – simple pluricellular-uniseriate hairs •
downy – having an almost wool-like covering of long hairs •
pilose – pubescent with long, straight, soft, spreading or erect hairs •
puberulent – minutely pubescent; having fine, short, usually erect, hairs •
puberulous – slightly covered with minute soft and erect hairs •
pubescent – bearing hairs or trichomes of any type •
retrorse,
retrorsely – hairs that point backwards •
strigillose – minutely strigose •
strigose – having straight hairs all pointing in more or less the same direction as along a margin or midrib •
tomentellous – minutely tomentose •
tomentose – covered with dense, matted, woolly hairs •
villosulous – minutely villous •
villous – having long, soft hairs, often curved, but not matted The size, form, density and location of hairs on plants are extremely variable in their presence across
species and even within a species on different plant organs. Several basic functions or advantages of having surface hairs can be listed. It is likely that in many cases, hairs interfere with the feeding of at least some small
herbivores and, depending upon
stiffness and
irritability to the
palate, large herbivores as well. Hairs on plants growing in areas subject to
frost keep the frost away from the living surface cells. In windy locations, hairs break up the flow of air across the plant surface, reducing
transpiration. Dense coatings of hairs reflect
sunlight, protecting the more delicate tissues underneath in hot, dry, open habitats. In addition, in locations where much of the available moisture comes from
fog drip, hairs appear to enhance this process by increasing the surface area on which water droplets can accumulate.
Glandular trichomes Glandular trichomes have been studied extensively and are found on about 30% of plants. Their function is to secrete plant metabolites. Some of these metabolites include: •
terpenoids, which have many functions related to defense, growth, and development •
phenylpropanoids, which have a role in many plant pathways, such as secondary metabolites, stress response, and act as the mediators of plant interactions in the environment •
flavonoids •
methyl ketones •
acylsugars
Non-glandular trichomes Non-glandular trichomes serve as structural protection against a variety of abiotic stressors, including water losses, extreme temperatures and UV radiation, and biotic threats, such as pathogen or herbivore attack. For example, the model plant
C. salviifolius is found in areas of high-light stress and poor soil conditions, along the Mediterranean coasts. It contains non-glandular, stellate and dendritic trichomes that have the ability to synthesize and store polyphenols that both affect absorbance of radiation and plant desiccation. These trichomes also contain acetylated flavonoids, which can absorb UV-B, and non-acetylated flavonoids, which absorb the longer wavelength of UV-A. In non-glandular trichomes, the only known role of flavonoids is to block out the shortest wavelengths to protect the plant; this differs from their role in glandular trichomes.
Polyphenols Non-glandular trichomes in the genus
Cistus were found to contain presences of ellagitannins,
glycosides, and
kaempferol derivatives. The ellagitannins have the main purpose of helping adapt in times of nutrient-limiting stress. == Trichome and root hair development ==