Trichome Collection (page 3)

Plant stem trichomes, light micrograph
Plant stem trichomes. Polarised light micrograph of simple multicellular hairs (trichomes) on the surface (epidermis) of a stem of hedge woundwort (Stachys sylvatica)

Marsh mallow leaf, SEM
Marsh mallow leaf. Coloured scanning electron micrograph (SEM) of a marsh mallow leaf (Althaea officinalis). Its surface is covered in hairs, or trichomes

Young brackenfern leaf, SEM
Young brackenfern leaf. Coloured scanning electron micrograph (SEM) of an unfurling brackenfern leaf (Pteridium sp. ). The surface is covered in hairs (trichomes)

Hairs and glands on thyme
False-colour scanning electron micrograph of the leaf surface of the herb thyme, Thymus vulgaris. The micrograph shows two types of trichomes (projections from the leaf surface)

Young leaf, SEM
Young leaf. Coloured scanning electron micrograph (SEM) of the underside of an unidentified young leaf. The surface is covered in hairs (trichomes)

Grape vine, SEM
Grape vine. Coloured scanning electron micrograph (SEM) of the surface of a grape vine (Vitis sp.). It is covered in hairs and glandular trichomes (orange)

Branched hair in leaf stalk of water lily
False-colour scanning electron micrograph (SEM) of a branched trichome in a leaf stalk of the waterlily Nymphaea album. The waterlily has overcome the difficulty of getting air to its submerged roots

Ivy stem, SEM
Ivy stem. Coloured scanning electron micrograph (SEM) of the surface of an ivy plant stem. The star- shaped trichomes, a type of modified hair cell, may function in preventing water loss

Cut leaf stalk of water lily
False colour scanning electron micrograph of a section across a cut leaf petiole (stalk) of the water lily Nymphaea album

Leaf hairs, SEM
Leaf hairs. Coloured scanning electron micrograph (SEM) of the underside of an unidentified leaf, which is covered in numerous hairs (trichomes)

Snapdragon flower petal, SEM
Snapdragon petal. Coloured scanning electron micrograph (SEM) of the surface of a snapdragon petal (Antirrhinum majus). The petal is covered in tiny epidermal hairs (trichomes)

Goosegrass leaf, SEM
Goosegrass leaf. Coloured scanning electron micrograph (SEM) of the surface of a goosegrass, or common cleavers, (Galium aparine) leaf

Sunflower leaf, SEM
Sunflower leaf. Coloured scanning electron micrograph (SEM) of the underside of a sunflower leaf (Helianthus annuus). The green and yellow structures are trichomes

Petal trichomes, SEM
Petal trichomes. Coloured scanning electron micrograph (SEM) of the surface of a periwinkle (Vinca sp.) petal. The petal is covered in tiny epidermal hairs (trichomes)

Sage leaf oil glands, SEM
Sage leaf oil glands. Coloured scanning electron micrograph (SEM) of a freeze-fracture through a sage leaf (Salvia officinalis), showing hairs, or trichomes, (green, thin) and oil glands (red)

Nasturtium leaf, SEM
Nasturtium leaf. Coloured scanning electron micrograph (SEM) of the underside of a nasturtium leaf (Tropaeolum sp.). Numerous hairs (trichomes) cover the surface

Stellate leaf hairs, light micrograph
Stellate leaf hairs. Polarised light micrograph of the epidermis of a leaf of the ornamental shrub Deutzia scabra, showing six of its stellate (star- shaped) hairs (trichomes). D

Tomato leaf surface, SEM
Tomato leaf surface. Coloured scanning electron micrograph (SEM) of the surface of a tomato leaf (Lycopersicon esculentum). It is covered in trichomes (red), which secrete oil, and hairs

Leaf trichomes. Macrophotograph of the lower surface of a leaf of the plant Elaeagnus pungens, showing the peltate scale hairs or trichomes (lighter colour against dark green of leaf)

Periwinkle flower petal, SEM
Periwinkle petal. Coloured scanning electron micrograph (SEM) of a periwinkle petal (family Apocynaceae). Its surface is covered in tiny epidermal hairs, or trichomes (pink)

Olive leaf trichomes, SEM
Olive leaf trichomes. Coloured scanning electron micrograph (SEM) of peltate trichomes, or modified hairs, on the surface of an olive leaf (Olea europaea)

Nettle leaf, SEM
Nettle leaf. Coloured scanning electron micrograph (SEM) of tangled string-like structures on the underside of a leaf from a stinging nettle plant (Urtica sp.)

Pansy petal, SEM
Pansy petal. Coloured scanning electron micrograph (SEM) of the surface of a pansy flower petal (Viola tricolor). The petal is covered in tiny epidermal hairs (cone-shaped objects)

Pumpkin flower petal, SEM
Pumpkin petal. Coloured scanning electron micrograph (SEM) of the surface of a pumpkin petal (Cucurbita sp. ). The petal is covered in tiny epidermal hairs (trichomes, brown)

Pumpkin petal, SEM
Pumpkin petal. Coloured scanning electron micrograph (SEM) of the surface of a pumpkin petal (Cucurbita sp. ). The petal is covered in tiny epidermal hairs (trichomes)

Rosemary leaf, light micrograph
Rosemary leaf. Light micrograph of a transverse section through a rosemary (Romarinus officinalis) leaf. The leaf of this plant has a number of adaptations that help it to minimise water loss through

Rosemary leaf structure, SEM
Rosemary leaf. Coloured scanning electron micrograph (SEM) of a freeze-fracture through a leaf from a rosemary plant (Rosmarinus officinalis). The fracture has revealed vascular tissue (green)

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Trichome: Nature's Tiny Marvels Revealed. Step into the mesmerizing world of trichomes, where Botanik Digitalis purpurea L. Fingerhut 160:1 and other fascinating specimens await your exploration. These microscopic structures hold secrets that will leave you in awe. Take a closer look at the Thyme leaf oil gland, a tiny powerhouse responsible for its aromatic essence. Delicate and intricate, it is nature's gift to our senses. French lavender leaf surface captured under SEM reveals an enchanting landscape of trichomes. Like velvety hairs, they adorn the leaves, adding texture and beauty to this fragrant herb. Marvel at the Aubergine flower petal as seen through SEM lenses. Its surface showcases an array of trichomes standing tall like sentinels, protecting this delicate bloom from harm. Witness the captivating dance between Lily pollen grain and rosemary leaf under SEM magnification. A chance encounter showcasing nature's interconnectedness in stunning detail. Gorse flower bud unravels its hidden charm when observed through SEM lenses. Trichomes emerge like miniature spikes on its surface, providing protection while exuding elegance. Leaf oil glands come alive under SEM scrutiny – their unique shapes resembling precious jewels scattered across foliage, and are reservoirs of potent oils that contribute to plant health and vitality. French lavender leaf unveils its intricate tapestry when examined closely with SEM technology. Trichomes create a textured mosaic that adds depth to this beloved herb's allure. Periwinkle petal surface takes center stage as we delve into its microscopic realm using SEM imaging techniques. Trichomes delicately carpet this floral canvas, enhancing both aesthetics and functionality. Aubergine flower petals reveal their secret beauty through high-resolution SEM images – each trichome meticulously placed by nature to protect these vibrant blooms from external threats. Nettle leaf trichomes take on a life of their own when observed under SEM lenses.