RFK4Y724–Leaf cells under microscope. micrograph, leaf under a microscope, organ-producing oxygen and carbon dioxide, the process of photosynthesis
RM2RPEHCD–The image presents carex sp. leaf in transversal cross-section, photographed through the microscope in polarized light at a magnification of 100X
RFDWC5MR–Coloured SEM of goldenrod flower leaf surface
RM2A9XN01–Aecidia in TS Berberis leaf, darkfield photomicrograph
RMHRF601–Moss Leaf
RMRWDJCF–Datura x candida leaf TS darkfield photomicrograph
RMA1XP5N–UNDERSIDE OF CORN LEAF; MICROGRAPH SHOWING STOMATES
RMA857T5–Scanning Electron Micrograph (SEM) of willow tree leaf stem cross-section.
RMM57GDT–Darkfield photomicrograph, sand dune xerophyte leaf TS, showing general structure
RFHJ0BF4–Coloured scanning electron micrograph (SEM) of Aphid mummy (Acyrthosiphon pisum) on a bean leaf. The aphid was parasitized by an aphid wasp which laid its egg inside the live aphid. The newly hatched wasp larvae used the aphid body contents for food, eventually killing the aphid. This insect transmits alfalfa mosaic virus (rhabdovirus) and pea enation mosaic (isometric) virus. Magnification: x5 when shortest axis printed at 25 millimetres.
RMG3YXYY–Brightfield photomicrograph, Sycamore leaf section TS showing central vein and cell structure
RFP83YEX–Microscopic view of Canadian waterweed (Elodea canadensis) leaf. Brightfield illumination.
RMTRHRG9–Plant leaf veins, sage leaf
RFRE7EXR–Potpourri Leaf
RFCWT23T–science microscopy micrograph black algae leaf Hydrilla verticillata micro
RF2K9YTBW–beautiful autumn leaf patterns under the microscope
RFK4Y70D–Leaf cells under microscope. micrograph, leaf under a microscope, organ-producing oxygen and carbon dioxide, the process of photosynthesis
RM2RPEHD7–The image presents Carex sp. leaf in transversal cross-section, photographed through the microscope in polarized light at a magnification of 100X
RFEKKYFX–Vicia Dicot leaf under a microscope (Vicia Dicot leaf W.M.), 40x
RM2RPEHCR–The image presents a single stoma in Spathiphyllum sp. leaf epidermis, photographed through the microscope in polarized light at a magnification of 20
RF2TBJ6MX–Leaf cross section of Nerium oleander showing epidermis, palisade mesophyll, spongy mesophyll and stomatal crypt. Optical microscope X100.
RM2RPEHDP–The image presents stomata in Stromanthe sp. leaf epidermis, photographed through the microscope in polarized light at a magnification of 100X
RMHRF888–Leaf Abscission, LM
RM2RPEHD0–The image presents stomata in Stromanthe sp. leaf epidermis, photographed through the microscope in polarized light at a magnification of 100X
RMFYR9DG–Light micrograph
RFMHM632–Microscopy Photography. Leaf of Pinus. Transversal Section.
RFFC0HT6–Light micrograph
RFFB1GF8–Coloured SEM of scopa of leaf cutting bee (Megachilidae)
RFBX54NX–Fern leaf, light micrograph
RMPFGD2F–Micrograph of stem and leaf of Polytrichum commune (Common moss), cross-section
RF2BT3PJA–Scale insects. Coloured scanning electron micrograph (SEM) of scale insects (superfamily Coccoidea) on a leaf. This pest feeds on the plant's sap. It secretes a powdery wax coating that protects it against pesticides and predators. Magnification: x50 when printed at 10 centimetres wide.
RMTRHREF–Plant leaf veins, sage leaf
RFP83YFF–Microscopic view of Canadian waterweed (Elodea canadensis) leaf. Darkfield illumination.
RFCWT226–science microscopy micrograph black algae leaf Hydrilla verticillata micro
RFK4Y71G–Leaf cells under microscope. micrograph, leaf under a microscope, organ-producing oxygen and carbon dioxide, the process of photosynthesis
RFRDBCRG–Acer Leaf
RF2K9YT8H–beautiful autumn leaf patterns under the microscope
RF2TBJ6MB–Leaf cross section of Nerium oleander showing epidermis, palisade mesophyll, spongy mesophyll, vascular bundle, phloem, xylem, collenchyma and stomata
RMDHF2Y3–Trichome (leaf hair) of thale cress (Arabidopsis thaliana), scanning electron micrograph.
RMHRF6KF–Leaf Sclereid
RM2RPEHDC–The image presents stomata in Stromanthe sp. leaf epidermis, photographed through the microscope in polarized light at a magnification of 100X
RMAMCR4D–A scanning electron micrograph of the under side of an Autumn Olive leaf, magnified x150
RM2RPEHC0–The image presents a single vascular bundle in Carex sp. stalk, photographed through the microscope in polarized light and dark field at a magnificati
RFDWC74J–Coloured SEM of leaf miner fly (Agromyzidae)
RMA1XW9W–STOMATES (SEDUM SP) ONE OPEN, THE OTHER CLOSED, ON EPIDERMIS OF LEAF / 225X
RMPF82TK–Highly textured surface of a parsley leaf depicted in the 56x magnified scanning electron microscopic (SEM) image, 1999. Image courtesy Centers for Disease Control (CDC) / Janice Haney Carr. ()
RF2BT3PMD–Scale insects. Coloured scanning electron micrograph (SEM) of scale insects (superfamily Coccoidea) on a leaf. This pest feeds on the plant's sap. It secretes a powdery wax coating that protects it against pesticides and predators. Magnification: x50 when printed at 10 centimetres wide.
RMTRHRK6–Plant leaf veins, sage leaf
RF2GAFY4K–Leaf epidermis, light micrograph
RM2R3KM4F–Vicia faba stoma from leaf underside
RFJ57NDT–Microscopic view of a Onion (Allium cepa) bulb leaf cross-section. Darkfield illumination.
RFK4Y709–Leaf cells under microscope. micrograph, leaf under a microscope, organ-producing oxygen and carbon dioxide, the process of photosynthesis
RFRDBCT4–Acer Leaf
RF2K9YTGC–beautiful autumn leaf patterns under the microscope
RF2TBJ6MJ–Leaf cross section of Nerium oleander showing epidermis, palisade mesophyll, spongy mesophyll, vascular bundle, phloem, xylem, collenchyma and stomata
RMDHF2XT–Trichome (leaf hair) of thale cress (Arabidopsis thaliana), scanning electron micrograph.
RMHRF84G–Dicot Leaf Abscission, LM
RM2F74W0W–Tiny leafminer fly head under the microscope, vertical field of view is about 1.1mm
RMARCPN3–A scanning electron microscope image of Heliotropium (marine heliotrope) lower leaf surface, showing trichomes.
RFE8AKX4–Normal muscle, trichome
RMD79XHG–Textured Surface Parsley Leaf
RFDWC74R–Coloured SEM of leaf miner fly (Agromyzidae)
RMA1XM6N–NETTED VENATION PORTION OF DICOT LEAF THE EPIDERMIS AND MESOPHYLL ARE REMOVED LEAVING LIGNIFIED PARTS OF VEINS SLIDE
RMPF82W4–Highly textured surface of a parsley leaf depicted in the 227x magnified scanning electron microscopic (SEM) image, 1999. Image courtesy Centers for Disease Control (CDC) / Janice Haney Carr. ()
RFJ1A2B1–Snipe Fly on green Background - Rhagionidae
RFM53YJ5–Snipe Fly on green Background - Rhagionidae
RMPF82YY–Highly textured surface of a parsley leaf depicted in the 911x magnified scanning electron microscopic (SEM) image, 1999. Image courtesy Centers for Disease Control (CDC) / Janice Haney Carr. ()
RF2PC6HXP–Microscopic view of peat moss (Sphagnum) leaves. Darkfield illumination.
RMT697DP–Photomicrograph of the mold Corynespora cassiicolat known to cause leaf spotting disease, a fungal infection in plants, 1972. Image courtesy CDC/Dr. Libero Ajello. ()
RF2GAFY3G–Leaf epidermis, light micrograph
RFJ57PB2–Close up view of a moss. Darkfield illumination.
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