Euglena as viewed under a light microscope Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/euglena-as-viewed-under-a-light-microscope-image458887189.html
RF2HJG385–Euglena as viewed under a light microscope
3D image of Euglenophycin skeletal formula - molecular chemical structure of Ichthyotoxin isolated on white background Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/3d-image-of-euglenophycin-skeletal-formula-molecular-chemical-structure-of-ichthyotoxin-isolated-on-white-background-image476457825.html
RF2JK4EPW–3D image of Euglenophycin skeletal formula - molecular chemical structure of Ichthyotoxin isolated on white background
Spirogyra sp. algae under microscopic view, Chlorophyta Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/spirogyra-sp-algae-under-microscopic-view-chlorophyta-image475164652.html
RF2JH1HA4–Spirogyra sp. algae under microscopic view, Chlorophyta
Microscope with anatomy structure of Euglena on white background Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/microscope-with-anatomy-structure-of-euglena-on-white-background-image445762569.html
RF2GW66KN–Microscope with anatomy structure of Euglena on white background
Anatomy of eukaryotic, unicellular organisms: paramecium ciliate, amoeba and Euglena. Vector illustration Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/anatomy-of-eukaryotic-unicellular-organisms-paramecium-ciliate-amoeba-and-euglena-vector-illustration-image562206386.html
RF2RJJKYE–Anatomy of eukaryotic, unicellular organisms: paramecium ciliate, amoeba and Euglena. Vector illustration
Euglena isolated on white background Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/euglena-isolated-on-white-background-image446135938.html
RF2GWR6XA–Euglena isolated on white background
Euglena is a genus of single cell flagellate eukaryotes Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/euglena-is-a-genus-of-single-cell-flagellate-eukaryotes-image431891056.html
RF2G2J9CG–Euglena is a genus of single cell flagellate eukaryotes
Euglena in colour and doodle on white background Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/euglena-in-colour-and-doodle-on-white-background-image446382002.html
RF2GX6CPA–Euglena in colour and doodle on white background
Vector Euglena Cross Section Diagram representative protists euglenoid plant like and animal like microscopic creature with all cell parts nucleus fla Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-vector-euglena-cross-section-diagram-representative-protists-euglenoid-173294991.html
RFM1X7ER–Vector Euglena Cross Section Diagram representative protists euglenoid plant like and animal like microscopic creature with all cell parts nucleus fla
Euglena in colour and doodle on white background Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/euglena-in-colour-and-doodle-on-white-background-image445376191.html
RF2GTGHTF–Euglena in colour and doodle on white background
vector illustration of a Euglena green. protozoa Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/vector-illustration-of-a-euglena-green-protozoa-image214065141.html
RFPC7E7H–vector illustration of a Euglena green. protozoa
Euglena in colour and doodle on white background Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/euglena-in-colour-and-doodle-on-white-background-image444770908.html
RF2GRH1R8–Euglena in colour and doodle on white background
Pain and pleasure . Fig. i.—Amoeba chasing and attempting to ingest an euglena. (After, Jennings. From Washburns The Animal Mind, Courtesy theMacmillan Co.) And just as dislike in ourselves involves our wholebody, we must suppose that the vague discomfortof the amoeba could not be referred to any exactspot. Its malaise probably pervades the wholeof its small structure. PAIN AND PLEASURE 37 The positive reaction is given whenever theamoeba comes into gentle contact with a solidsurface or with food. Under either of thesecircumstances it continues to come nearer and tofurther its contact. The sol Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/pain-and-pleasure-fig-iamoeba-chasing-and-attempting-to-ingest-an-euglena-after-jennings-from-washburns-the-animal-mind-courtesy-themacmillan-co-and-just-as-dislike-in-ourselves-involves-our-wholebody-we-must-suppose-that-the-vague-discomfortof-the-amoeba-could-not-be-referred-to-any-exactspot-its-malaise-probably-pervades-the-wholeof-its-small-structure-pain-and-pleasure-37-the-positive-reaction-is-given-whenever-theamoeba-comes-into-gentle-contact-with-a-solidsurface-or-with-food-under-either-of-thesecircumstances-it-continues-to-come-nearer-and-tofurther-its-contact-the-sol-image338258094.html
RM2AJ8YJ6–Pain and pleasure . Fig. i.—Amoeba chasing and attempting to ingest an euglena. (After, Jennings. From Washburns The Animal Mind, Courtesy theMacmillan Co.) And just as dislike in ourselves involves our wholebody, we must suppose that the vague discomfortof the amoeba could not be referred to any exactspot. Its malaise probably pervades the wholeof its small structure. PAIN AND PLEASURE 37 The positive reaction is given whenever theamoeba comes into gentle contact with a solidsurface or with food. Under either of thesecircumstances it continues to come nearer and tofurther its contact. The sol
Seamless patterns with jellyfish, amoeba, Paramecium and other animals that live in reservoirs. fresh-water organisms. Vector background Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/seamless-patterns-with-jellyfish-amoeba-paramecium-and-other-animals-that-live-in-reservoirs-fresh-water-organisms-vector-background-image389336636.html
RF2DHBPRT–Seamless patterns with jellyfish, amoeba, Paramecium and other animals that live in reservoirs. fresh-water organisms. Vector background
Two seamless patterns. Background with jellyfish, amoeba, Paramecium and other animals. Vector background for your design, biological, science Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/two-seamless-patterns-background-with-jellyfish-amoeba-paramecium-and-other-animals-vector-background-for-your-design-biological-science-image389336650.html
RF2DHBPTA–Two seamless patterns. Background with jellyfish, amoeba, Paramecium and other animals. Vector background for your design, biological, science
Cladophora is a genus of reticulated filamentous Ulvophyceae (green algae) Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/cladophora-is-a-genus-of-reticulated-filamentous-ulvophyceae-green-algae-image431891046.html
RF2G2J9C6–Cladophora is a genus of reticulated filamentous Ulvophyceae (green algae)
Green protozoa Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/green-protozoa-image549587372.html
RF2PX3T8C–Green protozoa
Spirogyra sp. algae under microscopic view, Chlorophyta Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/spirogyra-sp-algae-under-microscopic-view-chlorophyta-image475164650.html
RF2JH1HA2–Spirogyra sp. algae under microscopic view, Chlorophyta
Chlamydomonas sp. algae under microscopic view, green algae Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/chlamydomonas-sp-algae-under-microscopic-view-green-algae-image475164655.html
RF2JH1HA7–Chlamydomonas sp. algae under microscopic view, green algae
Haematococcus pluvialis green and cyst algae under microscopic view - haematocyst, active and resting cells, dividing cells, mitosis, strong antioxida Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/haematococcus-pluvialis-green-and-cyst-algae-under-microscopic-view-haematocyst-active-and-resting-cells-dividing-cells-mitosis-strong-antioxida-image518073826.html
RF2N2T8CJ–Haematococcus pluvialis green and cyst algae under microscopic view - haematocyst, active and resting cells, dividing cells, mitosis, strong antioxida
Set of unicellular organism isolated on white background Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/set-of-unicellular-organism-isolated-on-white-background-image445359734.html
RF2GTFTTP–Set of unicellular organism isolated on white background
Vector Euglena Cross Section Diagram representative protists euglenoid plant like and animal like microscopic creature with all cell parts nucleus fla Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-vector-euglena-cross-section-diagram-representative-protists-euglenoid-173294994.html
RFM1X7EX–Vector Euglena Cross Section Diagram representative protists euglenoid plant like and animal like microscopic creature with all cell parts nucleus fla
Set of unicellular organism in doodle isolated on white background Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/set-of-unicellular-organism-in-doodle-isolated-on-white-background-image444319137.html
RF2GPTDGH–Set of unicellular organism in doodle isolated on white background
Anatomy structure of Euglena on white background illustration Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/anatomy-structure-of-euglena-on-white-background-illustration-image432657376.html
RF2G3W6W4–Anatomy structure of Euglena on white background illustration
Vector isolated illustration of Euglena green on a white background. Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/vector-isolated-illustration-of-euglena-green-on-a-white-background-image618427704.html
RF2XX3PRM–Vector isolated illustration of Euglena green on a white background.
Amoeba, protozoa and unicellular protist cells, vector euglena bacteria or paramecium organism. Protozoan microorganism, bacterium fission and binary protista amoeba of chlamydomonas microbiology Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/amoeba-protozoa-and-unicellular-protist-cells-vector-euglena-bacteria-or-paramecium-organism-protozoan-microorganism-bacterium-fission-and-binary-protista-amoeba-of-chlamydomonas-microbiology-image484942352.html
RF2K4Y0WM–Amoeba, protozoa and unicellular protist cells, vector euglena bacteria or paramecium organism. Protozoan microorganism, bacterium fission and binary protista amoeba of chlamydomonas microbiology
Microbe paramecium cell division. Reproduction in Paramecium. Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/microbe-paramecium-cell-division-reproduction-in-paramecium-image608132553.html
RF2X9AR7N–Microbe paramecium cell division. Reproduction in Paramecium.
Euglena green. Vector illustration of a microorganism. Bright color illustration. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/euglena-green-vector-illustration-of-a-microorganism-bright-color-illustration-image439161698.html
RF2GEDF6A–Euglena green. Vector illustration of a microorganism. Bright color illustration.
Chloroplast under a microscope, cell division. Motion. Abstract visualization of a cell structure, close up of leaf surface showing plant cells under Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/chloroplast-under-a-microscope-cell-division-motion-abstract-visualization-of-a-cell-structure-close-up-of-leaf-surface-showing-plant-cells-under-image467562885.html
RF2J4K96D–Chloroplast under a microscope, cell division. Motion. Abstract visualization of a cell structure, close up of leaf surface showing plant cells under
. Journal of morphology . ause of the structure of the flagellum, rejected thefibrillar theory of the structure of cilia. 1 hope to show that in itsstructure is really the best justification for his theory. MefJtod and Materials.For this investigation the flagella of Euglena, Chilomonas Parame-cium and Spirillum (Sp. ?) were used. Mounts from infusions con-taining the first two of these forms were i)laced under a 1,5 mm. oilimmersion and subjected to pressure. 190 O. P. Dellinger. Euglcna.The flagellum of Eugleiia is composed of four fibrils which extendits entire length. Thev are twisted abon Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/journal-of-morphology-ause-of-the-structure-of-the-flagellum-rejected-thefibrillar-theory-of-the-structure-of-cilia-1-hope-to-show-that-in-itsstructure-is-really-the-best-justification-for-his-theory-mefjtod-and-materialsfor-this-investigation-the-flagella-of-euglena-chilomonas-parame-cium-and-spirillum-sp-were-used-mounts-from-infusions-con-taining-the-first-two-of-these-forms-were-ilaced-under-a-15-mm-oilimmersion-and-subjected-to-pressure-190-o-p-dellinger-euglcnathe-flagellum-of-eugleiia-is-composed-of-four-fibrils-which-extendits-entire-length-thev-are-twisted-abon-image369766575.html
RM2CDG913–. Journal of morphology . ause of the structure of the flagellum, rejected thefibrillar theory of the structure of cilia. 1 hope to show that in itsstructure is really the best justification for his theory. MefJtod and Materials.For this investigation the flagella of Euglena, Chilomonas Parame-cium and Spirillum (Sp. ?) were used. Mounts from infusions con-taining the first two of these forms were i)laced under a 1,5 mm. oilimmersion and subjected to pressure. 190 O. P. Dellinger. Euglcna.The flagellum of Eugleiia is composed of four fibrils which extendits entire length. Thev are twisted abon
Microscope with anatomy structure of Euglena on white background illustration Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/microscope-with-anatomy-structure-of-euglena-on-white-background-illustration-image425511892.html
RF2FM7MN8–Microscope with anatomy structure of Euglena on white background illustration
Vector isolated illustration set of unicellular organisms. Study of biology. Amoeba proteus and infusoria. The structure of Evlena green and Chlamydom Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/vector-isolated-illustration-set-of-unicellular-organisms-study-of-biology-amoeba-proteus-and-infusoria-the-structure-of-evlena-green-and-chlamydom-image621157995.html
RF2Y2G5A3–Vector isolated illustration set of unicellular organisms. Study of biology. Amoeba proteus and infusoria. The structure of Evlena green and Chlamydom
Protista, protozoa or amoeba microorganism, ameba cells and unicellular organism, vector. Bacteria in lab microscope, amoeba protista or protozoan cells structure, protist biology, microbiology Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/protista-protozoa-or-amoeba-microorganism-ameba-cells-and-unicellular-organism-vector-bacteria-in-lab-microscope-amoeba-protista-or-protozoan-cells-structure-protist-biology-microbiology-image503656095.html
RF2M7BEDK–Protista, protozoa or amoeba microorganism, ameba cells and unicellular organism, vector. Bacteria in lab microscope, amoeba protista or protozoan cells structure, protist biology, microbiology
Contour euglena green. Vector illustration of a microorganism. Black and white contour illustration. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/contour-euglena-green-vector-illustration-of-a-microorganism-black-and-white-contour-illustration-image439161701.html
RF2GEDF6D–Contour euglena green. Vector illustration of a microorganism. Black and white contour illustration.
. Biology . Fig. 21.—Flagellated protozoa, Chilomonas, Peranema, and Euglena. A,Chilomonas Paramecium; B, Perane^na trichophora at beginning of division, i,Flagella; 2, basal bodies of flagella; 3, basal body with young flagellum growingfrom it; 4, parabasal body; 5, nuclei. Drawings and photograph from prepara-tions. throughout, entering the body at about the center of thetruncated plane and continuing into the protoplasm as far asthe nucleus. The latter has a different structure from thenucleus of Amoeba proteus, and consists of a relatively largegranule (division center) surrounded by minut Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/biology-fig-21flagellated-protozoa-chilomonas-peranema-and-euglena-achilomonas-paramecium-b-peranena-trichophora-at-beginning-of-division-iflagella-2-basal-bodies-of-flagella-3-basal-body-with-young-flagellum-growingfrom-it-4-parabasal-body-5-nuclei-drawings-and-photograph-from-prepara-tions-throughout-entering-the-body-at-about-the-center-of-thetruncated-plane-and-continuing-into-the-protoplasm-as-far-asthe-nucleus-the-latter-has-a-different-structure-from-thenucleus-of-amoeba-proteus-and-consists-of-a-relatively-largegranule-division-center-surrounded-by-minut-image370073250.html
RM2CE285P–. Biology . Fig. 21.—Flagellated protozoa, Chilomonas, Peranema, and Euglena. A,Chilomonas Paramecium; B, Perane^na trichophora at beginning of division, i,Flagella; 2, basal bodies of flagella; 3, basal body with young flagellum growingfrom it; 4, parabasal body; 5, nuclei. Drawings and photograph from prepara-tions. throughout, entering the body at about the center of thetruncated plane and continuing into the protoplasm as far asthe nucleus. The latter has a different structure from thenucleus of Amoeba proteus, and consists of a relatively largegranule (division center) surrounded by minut
Euglena isolated on white background illustration Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/euglena-isolated-on-white-background-illustration-image416301108.html
RF2F5848M–Euglena isolated on white background illustration
Protozoa, protista and amoeba microorganism cells, vector micro organism. Ameba and protist unicellular cells in lab microscope, protozoan eukaryotic organism types Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/protozoa-protista-and-amoeba-microorganism-cells-vector-micro-organism-ameba-and-protist-unicellular-cells-in-lab-microscope-protozoan-eukaryotic-organism-types-image484980502.html
RF2K50NG6–Protozoa, protista and amoeba microorganism cells, vector micro organism. Ameba and protist unicellular cells in lab microscope, protozoan eukaryotic organism types
. The biology of cilia and flagella. Cilia and ciliary motion; Flagella (Microbiology). ROOT STRUCTURES 71 Peranema and Euglena (Roth, 1958a, 1959) are other flagellates whose flagellar structure has been studied with the electron microscope. The basal structure of the uniflagellate forms is but poorly known, although Vickerman has shown that the basal body is complex and may have simple roots. In Peranetna, the basal bodies of the two flagella lie at the inner end of the reservoir and. Fig. 16. Diagram of the structure of Tritrichomonas ( = Trich' otnonas) niuris to show the arrangement of th Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-biology-of-cilia-and-flagella-cilia-and-ciliary-motion-flagella-microbiology-root-structures-71-peranema-and-euglena-roth-1958a-1959-are-other-flagellates-whose-flagellar-structure-has-been-studied-with-the-electron-microscope-the-basal-structure-of-the-uniflagellate-forms-is-but-poorly-known-although-vickerman-has-shown-that-the-basal-body-is-complex-and-may-have-simple-roots-in-peranetna-the-basal-bodies-of-the-two-flagella-lie-at-the-inner-end-of-the-reservoir-and-fig-16-diagram-of-the-structure-of-tritrichomonas-=-trich-otnonas-niuris-to-show-the-arrangement-of-th-image234608585.html
RMRHK9J1–. The biology of cilia and flagella. Cilia and ciliary motion; Flagella (Microbiology). ROOT STRUCTURES 71 Peranema and Euglena (Roth, 1958a, 1959) are other flagellates whose flagellar structure has been studied with the electron microscope. The basal structure of the uniflagellate forms is but poorly known, although Vickerman has shown that the basal body is complex and may have simple roots. In Peranetna, the basal bodies of the two flagella lie at the inner end of the reservoir and. Fig. 16. Diagram of the structure of Tritrichomonas ( = Trich' otnonas) niuris to show the arrangement of th
Euglena in colour and doodle on white background illustration Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/euglena-in-colour-and-doodle-on-white-background-illustration-image424606315.html
RF2FJPDK7–Euglena in colour and doodle on white background illustration
. Biophysical science. Biophysics. 372 Photosynthesis /20 : 5 chloroplasts. The structure of chlorophyll a and its absorption spectrum are shown in Figures 6 and 7. The absorption spectrum shifts to the red on extraction from the whole cell. Similar chlorophylls are found in blue-green algae. The chlorophylls in bacteria, however, have different absorption maxima and slightly different structures. Some form of chlorophyll is found in all photo- synthetic organisms. Those in euglena are chlorophylls a and b. Carotenoid pigments are involved in photobiology, not only in photo- synthesis but also Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/biophysical-science-biophysics-372-photosynthesis-20-5-chloroplasts-the-structure-of-chlorophyll-a-and-its-absorption-spectrum-are-shown-in-figures-6-and-7-the-absorption-spectrum-shifts-to-the-red-on-extraction-from-the-whole-cell-similar-chlorophylls-are-found-in-blue-green-algae-the-chlorophylls-in-bacteria-however-have-different-absorption-maxima-and-slightly-different-structures-some-form-of-chlorophyll-is-found-in-all-photo-synthetic-organisms-those-in-euglena-are-chlorophylls-a-and-b-carotenoid-pigments-are-involved-in-photobiology-not-only-in-photo-synthesis-but-also-image234599888.html
RMRHJXFC–. Biophysical science. Biophysics. 372 Photosynthesis /20 : 5 chloroplasts. The structure of chlorophyll a and its absorption spectrum are shown in Figures 6 and 7. The absorption spectrum shifts to the red on extraction from the whole cell. Similar chlorophylls are found in blue-green algae. The chlorophylls in bacteria, however, have different absorption maxima and slightly different structures. Some form of chlorophyll is found in all photo- synthetic organisms. Those in euglena are chlorophylls a and b. Carotenoid pigments are involved in photobiology, not only in photo- synthesis but also
Science school set or education icons. Chemistry and biology laboratory cartoon collection. Bold bright microscope, molecule atom, telescope, test Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/science-school-set-or-education-icons-chemistry-and-biology-laboratory-cartoon-collection-bold-bright-microscope-molecule-atom-telescope-test-image561379214.html
RF2RH90WJ–Science school set or education icons. Chemistry and biology laboratory cartoon collection. Bold bright microscope, molecule atom, telescope, test
Euglena in colour and doodle on white background illustration Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/euglena-in-colour-and-doodle-on-white-background-illustration-image418882859.html
RF2F9DNA3–Euglena in colour and doodle on white background illustration
. Biology. Biology. 58 ORGANISMS OF ONE CELL The color is due to a substance termed chlorophyll which, with the aid of sunlight, is able to manufacture starch ; this, in turn, is built up into protein matter which serves as food (see Chapter V). Another colored structure is also found in Euglena, although it is not so conspicuous as the green chloroplastids. This is the red-colored spot or stigma which is more sensitive to light than other parts of the protoplasm, and is often spoken of as a rudimentary " eye-spot." In many cases it is accom- panied by a lens-like body which may conc Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/biology-biology-58-organisms-of-one-cell-the-color-is-due-to-a-substance-termed-chlorophyll-which-with-the-aid-of-sunlight-is-able-to-manufacture-starch-this-in-turn-is-built-up-into-protein-matter-which-serves-as-food-see-chapter-v-another-colored-structure-is-also-found-in-euglena-although-it-is-not-so-conspicuous-as-the-green-chloroplastids-this-is-the-red-colored-spot-or-stigma-which-is-more-sensitive-to-light-than-other-parts-of-the-protoplasm-and-is-often-spoken-of-as-a-rudimentary-quot-eye-spotquot-in-many-cases-it-is-accom-panied-by-a-lens-like-body-which-may-conc-image234609413.html
RMRHKAKH–. Biology. Biology. 58 ORGANISMS OF ONE CELL The color is due to a substance termed chlorophyll which, with the aid of sunlight, is able to manufacture starch ; this, in turn, is built up into protein matter which serves as food (see Chapter V). Another colored structure is also found in Euglena, although it is not so conspicuous as the green chloroplastids. This is the red-colored spot or stigma which is more sensitive to light than other parts of the protoplasm, and is often spoken of as a rudimentary " eye-spot." In many cases it is accom- panied by a lens-like body which may conc
Euglena in colour and doodle on white background illustration Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/euglena-in-colour-and-doodle-on-white-background-illustration-image414197044.html
RF2F1T8FG–Euglena in colour and doodle on white background illustration
. Animal biology. Biology; Zoology; Physiology. Stigma Contractile vacuole Chromato- phores *$ ## '* £?«• Nucleus. Fig. 22. — Euglena viridis. A, free-swimming individual showing details of structure (from Doflein); B. reproduction by longitudinal binary fission; C, two stages of fission within a cyst. group of Protozoa. However, biologists are not sure that such is the case because the great group of flagellated Protozoa, the class Mastigophora, includes many forms that are not only exceedingly simple in structure but also are plant-like in that they possess chlorophyll and so are able to per Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/animal-biology-biology-zoology-physiology-stigma-contractile-vacuole-chromato-phores-nucleus-fig-22-euglena-viridis-a-free-swimming-individual-showing-details-of-structure-from-doflein-b-reproduction-by-longitudinal-binary-fission-c-two-stages-of-fission-within-a-cyst-group-of-protozoa-however-biologists-are-not-sure-that-such-is-the-case-because-the-great-group-of-flagellated-protozoa-the-class-mastigophora-includes-many-forms-that-are-not-only-exceedingly-simple-in-structure-but-also-are-plant-like-in-that-they-possess-chlorophyll-and-so-are-able-to-per-image236769535.html
RMRN5NXR–. Animal biology. Biology; Zoology; Physiology. Stigma Contractile vacuole Chromato- phores *$ ## '* £?«• Nucleus. Fig. 22. — Euglena viridis. A, free-swimming individual showing details of structure (from Doflein); B. reproduction by longitudinal binary fission; C, two stages of fission within a cyst. group of Protozoa. However, biologists are not sure that such is the case because the great group of flagellated Protozoa, the class Mastigophora, includes many forms that are not only exceedingly simple in structure but also are plant-like in that they possess chlorophyll and so are able to per
Set of unicellular organism isolated on white background illustration Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/set-of-unicellular-organism-isolated-on-white-background-illustration-image416300545.html
RF2F583GH–Set of unicellular organism isolated on white background illustration
. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. EUGLENA LEUCOPS 331 The animal displays a marked faculty to replace a lost flagellum, since, as pointed out below, this structure when lost will be regenerated if the conditions of osmotic pressure are made favorable.. TEXT FIG. 1. sp. nov. Outline drawing of a flagellated specimen of Euglena lencops Paramylum Bodies These bodies are distributed irregularly over the cell, being most abundant in the posterior third. Only one to three small ones may be seen anterior to the stigma (Plate I, Fig. 1). These granules sometimes mea Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-biological-bulletin-biology-zoology-biology-marine-biology-euglena-leucops-331-the-animal-displays-a-marked-faculty-to-replace-a-lost-flagellum-since-as-pointed-out-below-this-structure-when-lost-will-be-regenerated-if-the-conditions-of-osmotic-pressure-are-made-favorable-text-fig-1-sp-nov-outline-drawing-of-a-flagellated-specimen-of-euglena-lencops-paramylum-bodies-these-bodies-are-distributed-irregularly-over-the-cell-being-most-abundant-in-the-posterior-third-only-one-to-three-small-ones-may-be-seen-anterior-to-the-stigma-plate-i-fig-1-these-granules-sometimes-mea-image234642069.html
RMRHMT9W–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. EUGLENA LEUCOPS 331 The animal displays a marked faculty to replace a lost flagellum, since, as pointed out below, this structure when lost will be regenerated if the conditions of osmotic pressure are made favorable.. TEXT FIG. 1. sp. nov. Outline drawing of a flagellated specimen of Euglena lencops Paramylum Bodies These bodies are distributed irregularly over the cell, being most abundant in the posterior third. Only one to three small ones may be seen anterior to the stigma (Plate I, Fig. 1). These granules sometimes mea
Set of unicellular organism in doodle isolated on white background illustration Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/set-of-unicellular-organism-in-doodle-isolated-on-white-background-illustration-image418882697.html
RF2F9DN49–Set of unicellular organism in doodle isolated on white background illustration