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Photomicrograph Black & White Stock Photos

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Photomicrograph Black & White Stock Photos

Evaluation of the photomicrograph of the electronic microscope. Stock Photo
RMC4597DEvaluation of the photomicrograph of the electronic microscope.
This photomicrograph depicts the Mansonella ozzardi microfilaria of this parasite. Image courtesy CDC/Dr. Mae Melvin, 1979. Stock Photo
RMK1FB8MThis photomicrograph depicts the Mansonella ozzardi microfilaria of this parasite. Image courtesy CDC/Dr. Mae Melvin, 1979.
Photomicrograph of Martian meteorite ALH84001 Stock Photo
RMC2DWB5Photomicrograph of Martian meteorite ALH84001
Photomicrograph of Bacillus anthracis (anthrax) spores. Stock Photo
RMECYA7APhotomicrograph of Bacillus anthracis (anthrax) spores.
Calotype by Fox Talbot, photomicrograph of botanical specimens Stock Photo
RMWHAGK2Calotype by Fox Talbot, photomicrograph of botanical specimens
This transmission electron microscopic (TEM) image depicts numerous, round, poliovirus type-1 virions, which measured 20-30nm in diameter, and exhibited icosahedral symmetry. An optimised and enhanced version of an image produced by the US Centers for Disease Control and Prevention / credit CDC / Dr.Joseph J. Esposito; F.A.Murphy Stock Photo
RM2JFX1KRThis transmission electron microscopic (TEM) image depicts numerous, round, poliovirus type-1 virions, which measured 20-30nm in diameter, and exhibited icosahedral symmetry. An optimised and enhanced version of an image produced by the US Centers for Disease Control and Prevention / credit CDC / Dr.Joseph J. Esposito; F.A.Murphy
Microscopic free-living nematode worm (with an egg inside) from garden soil, possibly Panagrellus sp., horizontal field of view is about 1.1mm Stock Photo
RM2HHC3MRMicroscopic free-living nematode worm (with an egg inside) from garden soil, possibly Panagrellus sp., horizontal field of view is about 1.1mm
Bacteria found in wounds as drawn from a photomicrograph) - West, Newman & Co., sculpt. lith Stock Photo
RMPJ44H0Bacteria found in wounds as drawn from a photomicrograph) - West, Newman & Co., sculpt. lith
Bleached anise (Pimpinella anisum) seed under the microscope Stock Photo
RM2C64DTDBleached anise (Pimpinella anisum) seed under the microscope
1190 Photomicrograph granite PlateIX Fig1 MD Geological Survey Volume 2 Stock Photo
RMPBBFYG1190 Photomicrograph granite PlateIX Fig1 MD Geological Survey Volume 2
Dirty water under the microscope - lots of long rod-shaped bacteria and three fungal ascospores Stock Photo
RM2AWH4DWDirty water under the microscope - lots of long rod-shaped bacteria and three fungal ascospores
Photomicrograph granite PlateXVII Fig1 MD Geological Survey Volume 2 Stock Photo
RMKDK574Photomicrograph granite PlateXVII Fig1 MD Geological Survey Volume 2
Toilet paper under the microscope, horizontal filed of view is approximately 0.61mm Stock Photo
RM2AR2TKAToilet paper under the microscope, horizontal filed of view is approximately 0.61mm
Photomicrograph herpes simplex x73000 Stock Photo
RMA9PPFEPhotomicrograph herpes simplex x73000
Dark field light micrograph of Lactarius rubrilacteus (bleeding milkcap) mushroom spores, pictured area is about 120 microns wide Stock Photo
RMMBNRWKDark field light micrograph of Lactarius rubrilacteus (bleeding milkcap) mushroom spores, pictured area is about 120 microns wide
Photomicrograph embryonic stem cells Stock Photo
RFD18F9TPhotomicrograph embryonic stem cells
Pattern on security tint paper envelope under the microscope Stock Photo
RMM9GK1XPattern on security tint paper envelope under the microscope
Bacteria found in wounds as drawn from a photomicrograph] / West, Newman & Co., sculpt. lith Stock Photo
RMWA7WDFBacteria found in wounds as drawn from a photomicrograph] / West, Newman & Co., sculpt. lith
Light micrograph of a polystyrene foam expanded polystyrene (styrofoam, slow to biodegrade) disposable cup, pictured area is approximately 3mm wide Stock Photo
RMM9GK1YLight micrograph of a polystyrene foam expanded polystyrene (styrofoam, slow to biodegrade) disposable cup, pictured area is approximately 3mm wide
Photomicrograph Stock Photo
RM2HKH1KXPhotomicrograph
This photomicrograph depicts the Mansonella ozzardi microfilaria of this parasite. Image courtesy CDC/Dr. Mae Melvin, 1979. Stock Photo
RMK1FB8KThis photomicrograph depicts the Mansonella ozzardi microfilaria of this parasite. Image courtesy CDC/Dr. Mae Melvin, 1979.
USB Micro-B plug, reflected light micrograph, magnification is 12x when printed 10cm wide Stock Photo
RMJXXA9RUSB Micro-B plug, reflected light micrograph, magnification is 12x when printed 10cm wide
Giardia Lamblia parasite revealed in the photomicrograph image, 2006. Image courtesy Centers for Disease Control (CDC) / Janice Haney Carr. () Stock Photo
RMPFW676Giardia Lamblia parasite revealed in the photomicrograph image, 2006. Image courtesy Centers for Disease Control (CDC) / Janice Haney Carr. ()
Photomicrograph of Bacillus anthracis (anthrax) spores. Stock Photo
RMECY9F2Photomicrograph of Bacillus anthracis (anthrax) spores.
This photomicrograph depicts a positive indirect fluorescent antibody (IFA) test for Giardia lamblia parasites. Image courtesy CDC/Dr. Govinda S. Visvesvara, 1978. Stock Photo
RMK1FB8RThis photomicrograph depicts a positive indirect fluorescent antibody (IFA) test for Giardia lamblia parasites. Image courtesy CDC/Dr. Govinda S. Visvesvara, 1978.
Reflected light micrograph of an arranged foraminifera microscope slide, pictured area is about 8mm wide Stock Photo
RMKCKNM8Reflected light micrograph of an arranged foraminifera microscope slide, pictured area is about 8mm wide
Methenamine silver stain photomicrograph of the histopathologic changes in blastomycosis due to Blastomyces dermatitidis, 1972. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr William Kaplan. () Stock Photo
RMT698EMMethenamine silver stain photomicrograph of the histopathologic changes in blastomycosis due to Blastomyces dermatitidis, 1972. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr William Kaplan. ()
Photomicrograph-porphyritic-aphanitic-felsic-rock-USGS. Stock Photo
RM2ETH48CPhotomicrograph-porphyritic-aphanitic-felsic-rock-USGS.
Photomicrograph of conidiophores with conidia of Penicillium marneffei, isolated from a splenic abscess, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Lucille K. George, Dr Arthur DiSalvo. () Stock Photo
RMT698BYPhotomicrograph of conidiophores with conidia of Penicillium marneffei, isolated from a splenic abscess, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Lucille K. George, Dr Arthur DiSalvo. ()
1190 Photomicrograph gneiss PlateXVII Fig2 MD Geological Survey Volume 2 Stock Photo
RMPBBFYC1190 Photomicrograph gneiss PlateXVII Fig2 MD Geological Survey Volume 2
Photomicrograph granite PlateIX Fig1 MD Geological Survey Volume 2 Stock Photo
RMKDK579Photomicrograph granite PlateIX Fig1 MD Geological Survey Volume 2
Photomicrograph of a Brachiopod, 1904 - 1906, by James McDonald. Stock Photo
RM2JRCXEFPhotomicrograph of a Brachiopod, 1904 - 1906, by James McDonald.
photomicrograph / Date: undated Keywords: geology Person Name: monster bosturf Stock Photo
RM2AW5HBAphotomicrograph / Date: undated Keywords: geology Person Name: monster bosturf
This 1973 photomicrograph depicts three Naegleria gruberi, free-living amoebae. CDC/Dr George Healy 1973. Stock Photo
RM2WWBBR6This 1973 photomicrograph depicts three Naegleria gruberi, free-living amoebae. CDC/Dr George Healy 1973.
Negative-stained transmission electron micrograph (TEM) depicts the ultrastructural details of an influenza virus particle, or 'virion'. A member of the taxonomic family Orthomyxoviridae, the influenza virus is a single-stranded RNA organism. Stock Photo
RM2BE0GBXNegative-stained transmission electron micrograph (TEM) depicts the ultrastructural details of an influenza virus particle, or 'virion'. A member of the taxonomic family Orthomyxoviridae, the influenza virus is a single-stranded RNA organism.
Structural geology . Fig. 45. Photomicrograph of micaceous and quartzose schist with cleavage de-veloped across original bedding, from Little Falls, Minn. A graywaeke-slate,in which the banding has been marked by difference in texture as well as incomposition, has been subjected to deformation, with the result that a cleavagehas been superposed at right angles to the original bedding. Originally thelonger diameters of the particles of the bedded rock were parallel to the bed-ding. Accompanying the development of flow cleavage most of the con-stituents of the rock have been recrystallized. The Stock Photo
RM2AWF584Structural geology . Fig. 45. Photomicrograph of micaceous and quartzose schist with cleavage de-veloped across original bedding, from Little Falls, Minn. A graywaeke-slate,in which the banding has been marked by difference in texture as well as incomposition, has been subjected to deformation, with the result that a cleavagehas been superposed at right angles to the original bedding. Originally thelonger diameters of the particles of the bedded rock were parallel to the bed-ding. Accompanying the development of flow cleavage most of the con-stituents of the rock have been recrystallized. The
Scanning electron micrograph SEM) of a number of a large grouping of Gram-negative Legionella pneumophila bacteria. Note the presence of polar flagella, and pili, or long streamers. a number of these bacteria seem to display an elongated-rod morphology. L. pneumophila are known to most frequently exhibit this configuration when grown in broth, however, they can also elongate when plate-grown cells age, as it was in this case, especially when they've been refrigerated. The usual L. pneumophila morphology consists of stout, 'fat' bacilli, which is the case for the vast majority of the organisms Stock Photo
RM2BE0GGHScanning electron micrograph SEM) of a number of a large grouping of Gram-negative Legionella pneumophila bacteria. Note the presence of polar flagella, and pili, or long streamers. a number of these bacteria seem to display an elongated-rod morphology. L. pneumophila are known to most frequently exhibit this configuration when grown in broth, however, they can also elongate when plate-grown cells age, as it was in this case, especially when they've been refrigerated. The usual L. pneumophila morphology consists of stout, 'fat' bacilli, which is the case for the vast majority of the organisms
Cellulose fibers of toilet paper under the microscope, horizontal filed of view is approximately 0.61mm Stock Photo
RM2F330HBCellulose fibers of toilet paper under the microscope, horizontal filed of view is approximately 0.61mm
Flea Stock Photo
RMHRHBANFlea
Extreme macro shot (micrograph) of a plastic deodorant spray nozzle Stock Photo
RMP83W67Extreme macro shot (micrograph) of a plastic deodorant spray nozzle
Scanning electron micrograph SEM) of a number of Gram-positive bacilli, or 'rod-shaped', Mycobacterium fortuitum bacteria. M. fortuitum is classified as a 'rapidly-growing' Mycobacterium, due to the fact that it can be grown on laboratory culture medium in less than 7 days. As a human pathogen, this organism has been determined to be the cause of skin infections, including furunculosis, i.e., boils, on the legs of people receiving pedicures in nail salons. As a nontuberculous bacterium (NTB), M. fortuitum is a member of the same genus as its cousin Mycobacterium tuberculosis, however, it is cl Stock Photo
RM2BE0GJ4Scanning electron micrograph SEM) of a number of Gram-positive bacilli, or 'rod-shaped', Mycobacterium fortuitum bacteria. M. fortuitum is classified as a 'rapidly-growing' Mycobacterium, due to the fact that it can be grown on laboratory culture medium in less than 7 days. As a human pathogen, this organism has been determined to be the cause of skin infections, including furunculosis, i.e., boils, on the legs of people receiving pedicures in nail salons. As a nontuberculous bacterium (NTB), M. fortuitum is a member of the same genus as its cousin Mycobacterium tuberculosis, however, it is cl
Sea salt under the microscope Stock Photo
RMT5A5PXSea salt under the microscope
Photomicrograph of Bacillus anthracis (anthrax) spores. Stock Photo
RMECY9GMPhotomicrograph of Bacillus anthracis (anthrax) spores.
Micrograph of two empty Staurastrum desmid alga cells, field of view is approximately 118 microns wide Stock Photo
RM2A9P43FMicrograph of two empty Staurastrum desmid alga cells, field of view is approximately 118 microns wide
SEM showing rbcs and fibrin Stock Photo
RFDPFR0HSEM showing rbcs and fibrin
Extreme macro photography (micrograph) of sand dollar (Clypeasteroida) shell, field of view is about 3mm wide Stock Photo
RMRKBGB0Extreme macro photography (micrograph) of sand dollar (Clypeasteroida) shell, field of view is about 3mm wide
Bulletin 799 Plate 2B Antietam Schist photomicrograph. Stock Photo
RMPWGYDRBulletin 799 Plate 2B Antietam Schist photomicrograph.
Photomicrograph of conidiophores with conidia of Penicillium marneffei, isolated from a splenic abscess, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Lucille K. George, Dr Arthur DiSalvo. () Stock Photo
RMT697FFPhotomicrograph of conidiophores with conidia of Penicillium marneffei, isolated from a splenic abscess, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Lucille K. George, Dr Arthur DiSalvo. ()
1190 Photomicrograph granite PlateIX Fig2 MD Geological Survey Volume 2 Stock Photo
RMPBBFYH1190 Photomicrograph granite PlateIX Fig2 MD Geological Survey Volume 2
Electron photomicrograph of the Machupo Virus. Machupo Virus is a member of the Arenavirus family, isolated in the Beni province of Bolivia in 1963, Viral hemorrhagic Fever. Image courtesy CDC/Dr. Fred Murphy, Sylvia Whitfield, 1975. Stock Photo
RMK1F51JElectron photomicrograph of the Machupo Virus. Machupo Virus is a member of the Arenavirus family, isolated in the Beni province of Bolivia in 1963, Viral hemorrhagic Fever. Image courtesy CDC/Dr. Fred Murphy, Sylvia Whitfield, 1975.
Photomicrograph gneiss PlateXVII Fig2 MD Geological Survey Volume 2 Stock Photo
RMKDK57BPhotomicrograph gneiss PlateXVII Fig2 MD Geological Survey Volume 2
Photomicrograph of the malaria causing parasite Plasmodium vivax in immature schizont and old trophozoite forms, on a thin film blood smear magnified 1125 x, 1966. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HCPKPhotomicrograph of the malaria causing parasite Plasmodium vivax in immature schizont and old trophozoite forms, on a thin film blood smear magnified 1125 x, 1966. Image courtesy CDC/Dr. Mae Melvin. ()
Photomicrograph of a Brachiopod, 1904 - 1906, by James McDonald. Stock Photo
RM2JRCXEKPhotomicrograph of a Brachiopod, 1904 - 1906, by James McDonald.
A photomicrograph of intracellular Neisseria gonorrhoeae bacteria. This photomicrograph shows the presence of gram-negative N. gonorrhoeae intracellular diplococci, 1971. In the U.S. approximately 75 percent of all cases of gonorrhea are found in persons aged 15 to 29 years. Image courtesy CDC/Bill Schwartz. Stock Photo
RMKTWRPXA photomicrograph of intracellular Neisseria gonorrhoeae bacteria. This photomicrograph shows the presence of gram-negative N. gonorrhoeae intracellular diplococci, 1971. In the U.S. approximately 75 percent of all cases of gonorrhea are found in persons aged 15 to 29 years. Image courtesy CDC/Bill Schwartz.
Structural geology . Iid.U. Photomicrographs showing the progressive granulation of the Mnrinanorthosite under the influence of pressure. After Adams. GNEISSIC STRUCTURE SO These criteria may often be decisive whenapplied collectively, but seldom when used separately. They arediscussed on a subsequent page (97). Gneisses have been known to develop by rock flowage fromOcks which under other conditions have yielded schists. What, r. Fit.. 43. Photomicrograph of leaf gneiss from the Laurmtian area north of Mon-treal. Slide furnished by Frank D. Adams. Doctor Adams has described theleaf gneiss as Stock Photo
RM2AWFBC7Structural geology . Iid.U. Photomicrographs showing the progressive granulation of the Mnrinanorthosite under the influence of pressure. After Adams. GNEISSIC STRUCTURE SO These criteria may often be decisive whenapplied collectively, but seldom when used separately. They arediscussed on a subsequent page (97). Gneisses have been known to develop by rock flowage fromOcks which under other conditions have yielded schists. What, r. Fit.. 43. Photomicrograph of leaf gneiss from the Laurmtian area north of Mon-treal. Slide furnished by Frank D. Adams. Doctor Adams has described theleaf gneiss as
Morphologic details of a larval stage of a schistosomal cercaria revealed in the 150x magnified photomicrograph image, 1942. Image courtesy Centers for Disease Control (CDC) / Minnesota Department of Health, R.N. Barr Library, Librarians Melissa Rethlefsen and Marie Jones, Prof. William A. Riley. () Stock Photo
RMPFW5RFMorphologic details of a larval stage of a schistosomal cercaria revealed in the 150x magnified photomicrograph image, 1942. Image courtesy Centers for Disease Control (CDC) / Minnesota Department of Health, R.N. Barr Library, Librarians Melissa Rethlefsen and Marie Jones, Prof. William A. Riley. ()
Lint fiber under the microscope Stock Photo
RM2H9B7YTLint fiber under the microscope
A dark field photomicrograph of a Treponema pallidum bacterium. T. pallidum, a spirochete 5-15 micrometers in length, is the causative agent of syphilis, 1971. The rate of primary, and secondary syphilis in the U.S. declined by 89.2 percent from 1990 to 2000. However, cases rose from 5, 979 in 2000 to 6, 103 in 2001. Image courtesy CDC, VDRL Dept. Stock Photo
RMKTWRRPA dark field photomicrograph of a Treponema pallidum bacterium. T. pallidum, a spirochete 5-15 micrometers in length, is the causative agent of syphilis, 1971. The rate of primary, and secondary syphilis in the U.S. declined by 89.2 percent from 1990 to 2000. However, cases rose from 5, 979 in 2000 to 6, 103 in 2001. Image courtesy CDC, VDRL Dept.
Embossed paper towel, light micrograph, pictured area is about 3mm wide Stock Photo
RFM5JECPEmbossed paper towel, light micrograph, pictured area is about 3mm wide
Photomicrograph of the path of a meson, 1970. Image courtesy US Department of Energy. Stock Photo
RMHX3DKYPhotomicrograph of the path of a meson, 1970. Image courtesy US Department of Energy.
Negatively-stained transmission electron micrograph (TEM) of numerous hepatitis B virus (HBV) virions, also known as Dane particles. HBV contains a genome of DNA, and is a member of the family of viruses known as Hepadnaviridae. It is the cause of a serious disease that attacks the liver, and an infection that can be lifelong, known as cirrhosis (scarring) of the liver, liver cancer, liver failure, and death. Stock Photo
RM2BE0GGXNegatively-stained transmission electron micrograph (TEM) of numerous hepatitis B virus (HBV) virions, also known as Dane particles. HBV contains a genome of DNA, and is a member of the family of viruses known as Hepadnaviridae. It is the cause of a serious disease that attacks the liver, and an infection that can be lifelong, known as cirrhosis (scarring) of the liver, liver cancer, liver failure, and death.
Photomicrograph of meninges demonstrating the presence of Bacillus anthracis in a case of fatal inhalation anthrax. Image courtesy CDC/Dr. LaForce, 1967. Stock Photo
RMK1F6A9Photomicrograph of meninges demonstrating the presence of Bacillus anthracis in a case of fatal inhalation anthrax. Image courtesy CDC/Dr. LaForce, 1967.
An electron photomicrograph of two spiral-shaped Treponema pallidum bacteria, magnified 36,000X Stock Photo
RMBN3M8RAn electron photomicrograph of two spiral-shaped Treponema pallidum bacteria, magnified 36,000X
Photomicrograph of mature sporangia of the Mucor species filamentous fungus, 1955. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Lucille K. Georg. () Stock Photo
RMT6813RPhotomicrograph of mature sporangia of the Mucor species filamentous fungus, 1955. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Lucille K. Georg. ()
Nodamura virus Stock Photo
RMHRHB69Nodamura virus
Gram-negative diplococcus Neisseria gonorrhea revealed in the photomicrograph film, 1977. Image courtesy Centers for Disease Control (CDC) / Dr W A Clark. () Stock Photo
RMMA987BGram-negative diplococcus Neisseria gonorrhea revealed in the photomicrograph film, 1977. Image courtesy Centers for Disease Control (CDC) / Dr W A Clark. ()
Bulletin 799 Plate 2A Harpers Schist photomicrograph. Stock Photo
RMPWGYDPBulletin 799 Plate 2A Harpers Schist photomicrograph.
Photomicrograph of an immature Plasmodium falciparum schizont and a ring form, parts of the parasite that causes malaria, 1963. Image courtesy CDC/N. J. Wheeler, Jr. () Stock Photo
RMM1HDGYPhotomicrograph of an immature Plasmodium falciparum schizont and a ring form, parts of the parasite that causes malaria, 1963. Image courtesy CDC/N. J. Wheeler, Jr. ()
1190 Photomicrograph granite PlateXVII Fig1 MD Geological Survey Volume 2 Stock Photo
RMPBBFYK1190 Photomicrograph granite PlateXVII Fig1 MD Geological Survey Volume 2
Plasmodium vivax trophozoite revealed in a thick photomicrograph film, using Giemsa stain, 1973. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. () Stock Photo
RMM1HCBBPlasmodium vivax trophozoite revealed in a thick photomicrograph film, using Giemsa stain, 1973. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. ()
Photomicrograph granite PlateIX Fig2 MD Geological Survey Volume 2 Stock Photo
RMKDK575Photomicrograph granite PlateIX Fig2 MD Geological Survey Volume 2
Photomicrograph of the malaria parasite Plasmodium malariae in trophozoite phase with prominent pigmentation, on a thick blood smear, 1965. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HEY5Photomicrograph of the malaria parasite Plasmodium malariae in trophozoite phase with prominent pigmentation, on a thick blood smear, 1965. Image courtesy CDC/Dr. Mae Melvin. ()
Photomicrograph of a Brachiopod, 1904 - 1906, by James McDonald. Stock Photo
RM2JRCXEJPhotomicrograph of a Brachiopod, 1904 - 1906, by James McDonald.
Morphologic array of pollen granules revealed in the photomicrograph film, Centers for Disease Control (CDC) campus, Atlanta, Georgia, 2004. Image courtesy Centers for Disease Control / Janice Carr. () Stock Photo
RMMA98DHMorphologic array of pollen granules revealed in the photomicrograph film, Centers for Disease Control (CDC) campus, Atlanta, Georgia, 2004. Image courtesy Centers for Disease Control / Janice Carr. ()
Scanning Electron Micrograph (SEM) of raw sewage filtered onto a nucleopore membrane. Note the bacteria embedded in organic material. Magnification 100,000x at 35mm image size. Stock Photo
RM2BE0GT1Scanning Electron Micrograph (SEM) of raw sewage filtered onto a nucleopore membrane. Note the bacteria embedded in organic material. Magnification 100,000x at 35mm image size.
Light micrograph of a copepod, vertical filed of view is about 0.62mm Stock Photo
RM2F86GHCLight micrograph of a copepod, vertical filed of view is about 0.62mm
SEM of Borrelia bacteria Stock Photo
RFDPF64RSEM of Borrelia bacteria
Extreme macro photography (micrograph) of sand dollar (Clypeasteroida) shell, field of view is about 3mm wide Stock Photo
RMRKBGB1Extreme macro photography (micrograph) of sand dollar (Clypeasteroida) shell, field of view is about 3mm wide
TEM of Venezuelan equine encephalitis (VEE) virus Stock Photo
RFDPFKWTTEM of Venezuelan equine encephalitis (VEE) virus
Squared paper, light micrograph, pictured area is about 3mm wide Stock Photo
RFM5JEC1Squared paper, light micrograph, pictured area is about 3mm wide
micrograph of blood vessel, artery and vein Stock Photo
RFCXD98Rmicrograph of blood vessel, artery and vein
Human embryonic stem cell colony. Stock Photo
RMECWY2EHuman embryonic stem cell colony.
Onion skin cells under the microscope, horizontal field of view is about 0.61 mm Stock Photo
RM2AM97C4Onion skin cells under the microscope, horizontal field of view is about 0.61 mm
science medical anthropotomy physiology micrograph of blood vessel, artery and vein. Stock Photo
RFCWT1JDscience medical anthropotomy physiology micrograph of blood vessel, artery and vein.
A ciliate from a water sample under the microscope, field of view is about 121 microns wide Stock Photo
RM2BRW6W2A ciliate from a water sample under the microscope, field of view is about 121 microns wide
Bacteria found in wounds as drawn from a photomicrograph) - West, Newman & Co., sculpt. lith Stock Photo
RM2WGYPWDBacteria found in wounds as drawn from a photomicrograph) - West, Newman & Co., sculpt. lith
Bright field light micrograph of nylon fibers Stock Photo
RMRKBGAPBright field light micrograph of nylon fibers
. Practical beekeeping. Bees. PRACTICAL BEEKEEPING. PLATE II.. Photomicrograph of hairs from a honey bee. (Photograph by R. A. Cooky.). 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.. Benton, Ralph. Bozeman, Montana Stock Photo
RMPG0A3E. Practical beekeeping. Bees. PRACTICAL BEEKEEPING. PLATE II.. Photomicrograph of hairs from a honey bee. (Photograph by R. A. Cooky.). 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.. Benton, Ralph. Bozeman, Montana
Bleached Lapsana communis leaf underside under the microscope, showing stomata Stock Photo
RM2C64E0EBleached Lapsana communis leaf underside under the microscope, showing stomata
. Practical beekeeping. Bees. PRACTICAL BEEKEEPING. PLATE II.. Photomicrograph of hairs from a honey bee. (Photograph by R. A. Cooky.). 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.. Benton, Ralph. Bozeman, Montana Stock Photo
RMRDEXCC. Practical beekeeping. Bees. PRACTICAL BEEKEEPING. PLATE II.. Photomicrograph of hairs from a honey bee. (Photograph by R. A. Cooky.). 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.. Benton, Ralph. Bozeman, Montana
A protist microbe from a water sample, microscopy image with horizontal field of view about 121 micrometer Stock Photo
RM2J9JX7JA protist microbe from a water sample, microscopy image with horizontal field of view about 121 micrometer
Photomicrograph of a Brachiopod, 1904 - 1906, by James McDonald. Stock Photo
RM2JRCXEHPhotomicrograph of a Brachiopod, 1904 - 1906, by James McDonald.
Morphologic array of pollen granules revealed in the photomicrograph film, Centers for Disease Control (CDC) campus, Atlanta, Georgia, 2004. Image courtesy Centers for Disease Control / Janice Haney Carr. () Stock Photo
RMMA98DRMorphologic array of pollen granules revealed in the photomicrograph film, Centers for Disease Control (CDC) campus, Atlanta, Georgia, 2004. Image courtesy Centers for Disease Control / Janice Haney Carr. ()
Photomicrograph of a Brachiopod, 1904 - 1906, by James McDonald. Stock Photo
RM2JRR7H2Photomicrograph of a Brachiopod, 1904 - 1906, by James McDonald.
Photomicrograph of the malaria parasite Plasmodium vivax in ring form with 2 chromatin dots, on thin film, magnified 1125 x, 1965. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HD2XPhotomicrograph of the malaria parasite Plasmodium vivax in ring form with 2 chromatin dots, on thin film, magnified 1125 x, 1965. Image courtesy CDC/Dr. Mae Melvin. ()
Scanning Electron Micrograph (SEM) of raw sewage filtered onto a nucleopore membrane. Note the filamentous bacterium and various rod-shaped bacteria. Magnification 2000x at 35mm image size. Stock Photo
RM2BE0GTEScanning Electron Micrograph (SEM) of raw sewage filtered onto a nucleopore membrane. Note the filamentous bacterium and various rod-shaped bacteria. Magnification 2000x at 35mm image size.
Photomicrograph of the malaria parasite Plasmodium Malaria in trophozoite form, on a thick blood smear using Giemsa stain, magnified 1125 x, 1973. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HF0APhotomicrograph of the malaria parasite Plasmodium Malaria in trophozoite form, on a thick blood smear using Giemsa stain, magnified 1125 x, 1973. Image courtesy CDC/Dr. Mae Melvin. ()
Ore Section Stock Photo
RMT81N8TOre Section
Photomicrograph of the malaria causing parasite Plasmodium vivax, in a ring and growing ameboid trophozite forms, on a thin film blood smear, 1965. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HCW7Photomicrograph of the malaria causing parasite Plasmodium vivax, in a ring and growing ameboid trophozite forms, on a thin film blood smear, 1965. Image courtesy CDC/Dr. Mae Melvin. ()
Influenza Virions Stock Photo
RMHRHB10Influenza Virions
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