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Calvin cycle illustration
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Calvin cycle illustration
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Calvin cycle illustration
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Stomata in tulip leaf epidermis light micrograph
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Stomata in tulip leaf epidermis light micrograph
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Stomata in spath leaf epidermis light micrograph
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Stomata in spath leaf epidermis light micrograph
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Stomata in spath leaf epidermis light micrograph
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Stomata in spath leaf epidermis light micrograph
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Editorial use only Theodor Wilhelm Engelmann (1843-1909) German physiologist and botanist Engelmanns main area of research was the physiology of
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Stomata in spath leaf epidermis light micrograph
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Stomata in spath leaf epidermis light micrograph
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Stomata in spath leaf epidermis light micrograph
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Stomata in spath leaf epidermis light micrograph
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Hyacinth (Hyacinthus sp) leaf light micrograph
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Hyacinth (Hyacinthus sp) leaf light micrograph
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Hyacinth (Hyacinthus sp) leaf light micrograph
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Stomata in hyacinth (Hyacinthus sp) leaf light micrograph
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Stomata in hyacinth (Hyacinthus sp) leaf light micrograph
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False-colour transmission electron micrograph of a chloroplast from a leaf of the tobacco plant Nicotiana tabacum Chloroplats are the sites of photo
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Stomata in hyacinth (Hyacinthus sp) leaf light micrograph
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Star diatom illustration
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Centric diatom illustration
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Centric diatom illustration
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Illustration showcasing the process of ATP (adenosine triphosphate) synthase at work in chloroplasts which are plant organelles responsible for photo
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Photosynthesis conceptual illustration Photosynthesis is the process by which most plants convert sunlight into chemical energy It occurs in organe
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Photosynthesis conceptual illustration Photosynthesis is the process by which most plants convert sunlight into chemical energy It occurs in organe
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Sage leaf SEM
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Pine needle SEN
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False colour transmission electron micrograph of the blue-green algae Spirulina platensis Here a single cell of this species is seen Blue-green al
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Olive leaf SEM
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Pine needle
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Pine needle SEM
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Olive leaf SEM
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Sage leaf SEM
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Maize (Zea mays) leaf light micrograph
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Maize (Zea mays) leaf light micrograph
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Maize (Zea mays) leaf light micrograph
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Canadian waterweed (Elodea canadenis) leaf light micrograph
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Tomato chloroplast Coloured transmission electron micrograph (TEM) of a section through a chloroplast from a tomato plant (Lycopersicon esculentum)
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Canadian waterweed (Elodea canadenis) leaf light micrograph
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Canadian waterweed (Elodea canadenis) leaf light micrograph
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Moss (Cinclidium stygium) light micrograph
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Moss (Cinclidium stygium) light micrograph
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Moss (Cinclidium stygium) light micrograph
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Moss (Cinclidium stygium) light micrograph
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Moss (Cinclidium stygium) light micrograph
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Moss (Cinclidium stygium) light micrograph
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Moss (Cinclidium stygium) light micrograph
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Portrait of Julius von Sachs (1832-97) German botanist Sachs studied under Purkinje obtaining his PhD in 1856 He studied the way in which plants r
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Moss (Cinclidium stygium) light micrograph
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Moss (Cinclidium stygium) light micrograph
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Bullrush stem light micrograph
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Bullrush stem light micrograph
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Bullrush stem light micrograph
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Darkfield light micrograph of a cross-section through the stem of a bullrush (Typha sp) The face-like structures are vascular bundles that transport
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Liverwort leaf cells light micrograph
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Liverwort gametophore light micrograph
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Moss leaf surface fluorescence micrograph
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Coloured Transmission Electron Micrograph of a section through the unicellular green algae Chlamydomonas asymmetrica The micrograph shows the arrang
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Moss leaf section fluorescence micrograph
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Hornwort thallus cells with plastids light micrograph
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Hornwort thallus cells fluorescence micrograph
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Hornwort thallus cells with antheridia fluorescence micrograph
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Stoma structure illustration
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Photosynthesis illustration
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Stomata structure illustration
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Photorespiration and the Calvin Cycle illustration In photorespiration the enzyme RuBisCo acts on oxygen in photosynthesis it acts on carbon dioxid
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Algae from freshwater pond light micrograph
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Chloroplasts in mesophyll cells of leaf Coloured Transmission Electron Micrograph (TEM) of meso- phyll cells in a young leaf of Zinnia elegans These
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Thalloid liverwort light micrograph
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Spirogyra sp algae light micrograph
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Light micrograph of the leaf of the bog moss Sphagnum sp A continuous network of true cells surrounds numerous wide partitioned chambers The tru
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Light micrograph (fluorescence microscopy) of the leaf of the bog moss Sphagnum sp A continuous network of true cells (red) surrounds numerous wid
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Euglena sp protist light micrograph
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Differential interference contrast (DIC) light micrograph of Euglena sp Euglena is a member of the euglenids an abundant and well-studied group of m
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Light micrograph (DIC) of the disc-like colony of cells formed by the green alga Pediastrum sp Pediastrum is a type of freshwater colonial algae Th
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Green algae light micrograph
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Green alga light micrograph
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False-colour transmisson electron micrograph of a chloroplast in a leaf cell of the garden pea Pisum sativum In its centre is a starch granule colour
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Green alga light micrograph
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Green alga light micrograph
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Green alga light micrograph
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Green alga light micrograph
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Green algae light micrograph
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Green algae light micrograph
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Green alga light micrograph
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Green alga light micrograph
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Green alga light micrograph
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Cutaway illustration of a plant chloroplast the unit within the leaf which manufactures the plants food supply - starch - during photosynthesis Con
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Differential interference contrast (DIC) light micrograph of Lepocinclis acus micrograph shows the paramylons of Lepocinclis acus which are tube-lik
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Green alga light micrograph
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Tabellaria fenestrata light micrograph
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Tabellaria fenestrata light micrograph
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Tabellaria fenestrata light micrograph
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Differential interference contrast (DIC) light micrograph of the desmid Staurastrum sp (green) side by side with a diatom Tabellaria fenestrata var
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Green alga light micrograph
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Light micrograph (Composite image of fluorescent microscopy combined with brightfield) of Micrasterias sp desmid green algae Desmids are a common gr
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Green algae light micrograph
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False colour transmisson electron micrograph of a chloroplast in the leaf of a pea plant Pisum sativum The chloroplast is the site of photosyn- thesi
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