Permeable Collection

Water lily leaf, light micrograph
Water lily leaf. Light micrograph of a transverse section through the leaf of a water lily (Nympha sp.) plant. All aquatic plants (hydrophytes) have a similar structure

Pouring gravel over permeable membrane to form base of a herb path

Kidney capillary, SEM
Kidney capillary. Coloured scanning electron micrograph (SEM) of a fracture through a glomerular capillary. A kidney glomerulus, which filters waste products from the blood

Water lily leaf stalk, light micrograph
Water lily leaf stalk. Light micrograph of a transverse section through the leaf stalk (petiole) of a water lily (Nymphaea sp.). All aquatic plants (hydrophytes) have a similar structure

Pondweed stem, light micrograph
Pondweed stem. Light micrograph of a transverse section through the stem of a pondweed (Potamogeton sp.) plant. All aquatic plants (hydrophytes) have a similar stem structure

Water milfoil stem, light micrograph
Water milfoil stem. Light micrograph of a transverse section through the stem of the aquatic whorled water milfoil (Myriophyllum verticillatum) plant

Water milfoil shoot-tip, light micrograph
Water milfoil shoot tip. Light micrograph of a transverse section through the shoot-tip of the aquatic whorled water milfoil (Myriophyllum verticillatum) plant

Waterweed stem, light micrograph
Waterweed stem. Polarised light micrograph of a transverse section through a stem of the aquatic western waterweed (Elodea nuttallii) plant

Mares tail stem, light micrograph
Mares tail stem. Polarised light micrograph of a transverse section through a stem of the aquatic mares tail (Hippuris vulgaris) plant. All aquatic plants (hydrophytes) have a similar stem structure

Tea bag fibres, SEM
Tea bag fibres. Coloured scanning electron micrograph (SEM) of the fibres in tea bag paper. This paper is made with a blend of wood and vegetable fibres

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"Exploring the World of Permeable: Nature's Ingenious Designs" Delicate and intricate, the water lily leaf showcases its permeable nature under a light micrograph. Creating a herb path with ease, gravel is poured over a permeable membrane forming a sturdy base. Journeying into our body's filtration system, the kidney capillary reveals its intricate network in this SEM image. The water lily leaf stalk displays its remarkable permeability under the lens of a light micrograph. Unveiling the hidden wonders beneath the surface, a pondweed stem showcases its permeability through a captivating light micrograph. Another glimpse into nature's ingenious designs - behold the mesmerizing patterns on a water lily leaf captured by a light micrograph. The water milfoil stem unravels its secrets as it exhibits impressive permeability when observed through an enchanting light micrograph. Witnessing growth at its finest, explore the delicate shoot-tip of water milfoil under an illuminating light micrograph. Dive deeper into aquatic life as we uncover yet another marvel - observe how waterweed stem demonstrates incredible permeability in this stunning light micrograph. Discovering resilience in unexpected places, witness Mares tail stem's extraordinary ability to allow substances to pass through under intense scrutiny from a powerful microscope. Zooming in closer than ever before, tea bag fibers reveal their porous structure that allows for easy infusion when examined using SEM technology. Intriguing and diverse, these captivating images offer just glimpses into nature’s fascinating world of "permeable, " where everything from plant leaves to human organs showcase their unique abilities to let substances flow freely or selectively across membranes and boundaries.