Electron microscope pollen Stock Photos and Images
RMM7H0FT–POLLEN grains under an electron microscope. Photo Courtesy of Dartmouth Electron Microscope Facility.
RF2C16A07–3d illustration of many different pollen bodies in black and white
RFHJR72D–Scanning electron micrograph of one pollen particle from Lesser Celandine flower. Nottingham, UK. April.
RFJ3XN69–Dandelion pollen imaged in a scanning electron microscope
RMKKCM24–Scanning electron microscope (SEM) micrograph showing the edge of a cherry plum (Prunus cerasifera) tree leaf, with damage caused by an insect consuming the leaf, with pollen granules and other debris visible, at a magnification of 600x, 2016.
RFB2TXDG–isolated pollen
RMCT4NG0–POLLEN
RMFF09FA–Pollen from a Variety of Common Plants, Colorized and Magnified 500x Pollen from a Variety of Common Plants, Colorized and Magnified
RMCT4FHR–EVENING PRIMROSE POLLEN
RFFB1GFA–Coloured SEM of pollen of Hellborus sp
RF2C169TP–3d illustration of different kinds of pollen
RF2WXACFC–pollen grains photographed with an electron microscope.
RF2C16A02–3d illustration of many different pollen bodies in black and white
RFPX6BET–Macrophage. Coloured scanning electron micrograph (SEM) of a macrophage white blood cell. Macrophages are cells of the body's immune system. They are found in the tissues rather than in the circulating blood. Macrophages recognise foreign particles, including bacteria, pollen and dust, and phagocytose (engulf) and digest them. Magnification: x4000 when printed at 10 centimetres wide.
RF2CBKXE2–Microscopic view of pollen grains
RME5PTEC–Scanning electron microscope view of differents pollens.
RMA9H82E–Scientific Scanning Electron Micrograph of Ragwort Pollen 1 95 9 28
RMDTF956–Pollen on bee
RMARCPMA–Scanning electron microscope image of pollen grains from Helianthus annuus (common sunflower).
RF2H0MTGD–Bundle of chives pollen observed in a scanning electron microscope
RMP2DF55–. English: en:Scanning electron microscope image of Pentas lanceolata en:anther, with unacetolyzed en:pollen on the surface. . Louisa Howard, Charles Daghlian - Dartmouth Electron Microscope Facility 41 Penta anther
RFHHXPDN–Cow parsley (Anthriscus sylvestris) pollen particle magnified under scanning electron microscope (SEM)
RFAXJ2AJ–pollen grain
RM2WYH96D–Polen images on SEM, Analysis of nanostructures and nanodevices, Environmental scanning electron microscopy Laboratory, ESEM, Microscope Quanta TM 250 FEG, High-resolution surface imaging, Investigation of wet and dielectric samples, Nanofluidic phenomena, Surface chemintry in various gas mixtures, CIC nanoGUNE, Nanoscience Cooperative Research Center, San Sebastian, Donostia, Gipuzkoa, Euskadi, Spain.
RFB2W0M5–isolated pollen
RMD3BGDD–(dpa) - The undated handout of the Friedrich Schiller University in Jena shows an extremely enlarged pollen. The picture was taken with a modern scanning electron microscope of the recently founded EMZ institute at the medical faculty of the Jena university.
RM2X2AXR8–Polen images on SEM, Analysis of nanostructures and nanodevices, Environmental scanning electron microscopy Laboratory, ESEM, Microscope Quanta TM 250
RMCT4FHW–EVENING PRIMROSE POLLEN
RFFB1GG2–Coloured SEM of Daffodil pollen
RMD7293K–Russian Olive Leaf
RF2WXACF7–pollen grains photographed with an electron microscope.
RF2C169X1–3d illustration of many different pollen bodies in black and white
RFPX6BF1–Macrophage. Coloured scanning electron micrograph (SEM) of a macrophage white blood cell. Macrophages are cells of the body's immune system. They are found in the tissues rather than in the circulating blood. Macrophages recognise foreign particles, including bacteria, pollen and dust, and phagocytose (engulf) and digest them. Magnification: x4000 when printed at 10 centimetres wide.
RF2C16A20–3d illustration of many different pollen bodies in black and white
RF2CBKXE5–Microscopic view of chili pepper pollen
RME5PTEB–Scanning electron microscope view of differents pollens.
RMA9H82F–Scientific Scanning Electron Micrograph of Elder Pollen Mag x 2 400 1 95 9 27
RMDTF4Y0–Populus nigra, lombardy or black poplar pollen (x 1500)
RFDC20KF–Daisy, x1000 magnification
RMRD2BDW–. Cytology. Cytology. provide an oriented field in which forces inherent in the chromosomes themselves contribute to their movement during anaphase. Electron microscope studies carried out recently by Sato (1960) on cell division in pollen mother cells of LiUum indicate that the chromosomal fibers of ^l^i^T. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Wilson, G. B. (George Bernard), 1914-; Morrison, John H. (John Herber
RFHHXPDP–Many cow parsley (Anthriscus sylvestris) pollen grains magnified under scanning electron microscope (SEM), demonstrating shape at different angles.
RFAXJ4YP–pollen grain
RM2WYDGM6–Polen images on SEM, Analysis of nanostructures and nanodevices, Environmental scanning electron microscopy Laboratory, ESEM, Microscope Quanta TM 250 FEG, High-resolution surface imaging, Investigation of wet and dielectric samples, Nanofluidic phenomena, Surface chemintry in various gas mixtures, CIC nanoGUNE, Nanoscience Cooperative Research Center, San Sebastian, Donostia, Gipuzkoa, Euskadi, Spain.
RM2X2AXR4–Polen images on SEM, Analysis of nanostructures and nanodevices, Environmental scanning electron microscopy Laboratory, ESEM, Microscope Quanta TM 250
RMCT4FHY–EVENING PRIMROSE POLLEN
RFFB1G3G–Coloured SEM of pollen on carpenter bee (Xylocopa sp)
RFD3HT9M–ALDER POLLEN
RFDWC4YG–Coloured SEM of pollen of miniature holly
RMPFKGPC–. Cytology. Cytology. provide an oriented field in which forces inherent in the chromosomes themselves contribute to their movement during anaphase. Electron microscope studies carried out recently by Sato (1960) on cell division in pollen mother cells of LiUum indicate that the chromosomal fibers of ^l^i^T. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Wilson, G. B. (George Bernard), 1914-; Morrison, John H. (John Herber
RFHJC9K5–Pollen of (Ranunculales: Ranunculaceae) Helleborus sp
RFPX6BEG–Macrophage. Coloured scanning electron micrograph (SEM) of a macrophage white blood cell. Macrophages are cells of the body's immune system. They are found in the tissues rather than in the circulating blood. Macrophages recognise foreign particles, including bacteria, pollen and dust, and phagocytose (engulf) and digest them. Magnification: x4000 when printed at 10 centimetres wide.
RME5PTED–Scanning electron microscope view of differents pollens.
RFB6DRCM–Horse chestnut pollen grain. Coloured scanningelectron micrograph (SEM) of a pollen grain from a flowering horse chestnut tree.
RME5PR93–Pollen of seringa SEM (Scanning Electron Microscope)
RMDTF4XK–Populus nigra, lombardy or black poplar pollen
RMRD2BE7–. Cytology. Cytology. Figure 6-3. Electron Micrographs Showing Spindle Fibers in (a) Pollen Mother Cell of Lilium speciosnm at Metaphase I, and (b) Meristematic Cell of Pisiim Root Tip at Somatic Anaphase. (Fig. (a), from Sato, S., 1960. "Electron Microscope Studies on the Mitotic Figure. III. Process of the Spindle Formation," Cytologic!, 25, Fig. 8, p. 126. Courtesy of Dr. S. Sato, University of Tokyo. Fig. (b), courtesy of Mr. L. V. Leak, Michigan State University.) Every physical and physiochemical force which could conceivably bring about movement of the type exhibited by chromo
RFWMKGK1–Horse chestnut pollen under electron microscope
RMAXJ2EM–pollen grain
RM2WYYAMJ–Polen images on SEM, Analysis of nanostructures and nanodevices, Environmental scanning electron microscopy Laboratory, ESEM, Microscope Quanta TM 250 FEG, High-resolution surface imaging, Investigation of wet and dielectric samples, Nanofluidic phenomena, Surface chemintry in various gas mixtures, CIC nanoGUNE, Nanoscience Cooperative Research Center, San Sebastian, Donostia, Gipuzkoa, Euskadi, Spain.
RM2X2AXRC–Polen images on SEM, Analysis of nanostructures and nanodevices, Environmental scanning electron microscopy Laboratory, ESEM, Microscope Quanta TM 250
RFD3HT9P–BIRCH POLLEN, SEM
RMPFKGPN–. Cytology. Cytology. Figure 6-3. Electron Micrographs Showing Spindle Fibers in (a) Pollen Mother Cell of Lilium speciosnm at Metaphase I, and (b) Meristematic Cell of Pisiim Root Tip at Somatic Anaphase. (Fig. (a), from Sato, S., 1960. "Electron Microscope Studies on the Mitotic Figure. III. Process of the Spindle Formation," Cytologic!, 25, Fig. 8, p. 126. Courtesy of Dr. S. Sato, University of Tokyo. Fig. (b), courtesy of Mr. L. V. Leak, Michigan State University.) Every physical and physiochemical force which could conceivably bring about movement of the type exhibited by chromo
RFHJC9K4–Anther with pollen of (Ranunculales: Ranunculaceae) Helleborus sp
RFWMKH39–Cherry tree pollen under electron microscope
RM2WYR9XM–Polen images on SEM, Analysis of nanostructures and nanodevices, Environmental scanning electron microscopy Laboratory, ESEM, Microscope Quanta TM 250 FEG, High-resolution surface imaging, Investigation of wet and dielectric samples, Nanofluidic phenomena, Surface chemintry in various gas mixtures, CIC nanoGUNE, Nanoscience Cooperative Research Center, San Sebastian, Donostia, Gipuzkoa, Euskadi, Spain.
RM2X2AXR5–Polen images on SEM, Analysis of nanostructures and nanodevices, Environmental scanning electron microscopy Laboratory, ESEM, Microscope Quanta TM 250
RFD3HT9K–CHRYSANTHEMUM WEED POLLEN
RMCRYN2H–POLLEN
RFHJC9K3–Anther with pollen of (Ranunculales: Ranunculaceae) Helleborus sp
RFBDGF7P–RAGWEED POLLEN
RMD3H4YC–POLLEN
RMD3H3FJ–BIRCH POLLEN, SEM
RMDTF9BG–Fractured pollen grain
RFWMKJX6–Daisy pollen under electron microscope
RM2WYRJEC–Polen images on SEM, Analysis of nanostructures and nanodevices, Environmental scanning electron microscopy Laboratory, ESEM, Microscope Quanta TM 250 FEG, High-resolution surface imaging, Investigation of wet and dielectric samples, Nanofluidic phenomena, Surface chemintry in various gas mixtures, CIC nanoGUNE, Nanoscience Cooperative Research Center, San Sebastian, Donostia, Gipuzkoa, Euskadi, Spain.
RM2X2AXRB–Polen images on SEM, Analysis of nanostructures and nanodevices, Environmental scanning electron microscopy Laboratory, ESEM, Microscope Quanta TM 250
RFHJC9J1–Hamuli, wing hooks, of bumblebee with pollen
RMD3H3G7–BIRCH POLLEN, SEM
RMDTF4YD–Fraxinus excelsior, weeping ash pollen
RMD3H4Y3–POLLEN
RFWMKGJK–Daisy pollen under electron microscope
RFBDGF7G–POLLEN
RMD3H3T8–BIRCH POLLEN, SEM
RFHJC9J2–Hamuli, wing hooks, of bumblebee with pollen
RFDC20KR–Daisy pollen, x700 magnification
RMDTF4Y4–Fraxinus excelsior, weeping ash pollen
RFWMKJXB–Cow parsley pollen particle
RFWMKKAD–Lesser celandine pollen under electron microscope
RMD3H3C5–BIRCH POLLEN, SEM
RFDC20NT–White flower pollen x1000 magnification
RFDC1RKX–3D SEM image of chamomile pollen, 8 degree tilt
RFD9E3RT–High vacuum SEM of Brassica rapa oleifera pollen grains
RMDTFA8P–Asteraceae, daisy
RFDC20MA–Daisy, x370 magnification
RMD3H3BF–BIRCH POLLEN, SEM
RMCRYN27–BIRCH POLLEN, SEM
RMD3H559–POLLEN
RMDTGC3A–Pinus sylvestris, scots pine
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