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Crystals of Uric acid (a), Calcium oxalate (b) and fermentation of the fungus (c) under the microscope. Illustration of the 19th century. Germany. White background. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/crystals-of-uric-acid-a-calcium-oxalate-b-and-fermentation-of-the-fungus-c-under-the-microscope-illustration-of-the-19th-century-germany-white-background-image415729981.htmlRF2F4A3R9–Crystals of Uric acid (a), Calcium oxalate (b) and fermentation of the fungus (c) under the microscope. Illustration of the 19th century. Germany. White background.
3D image of Oxalic acid skeletal formula - molecular chemical structure of organic acid isolated on white background Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/3d-image-of-oxalic-acid-skeletal-formula-molecular-chemical-structure-of-organic-acid-isolated-on-white-background-image476640976.htmlRF2JKCTC0–3D image of Oxalic acid skeletal formula - molecular chemical structure of organic acid isolated on white background
Shield sorrel, Rumex scutatus. The shield-dock is rich in vitamin C and calcium oxalate. He was used officinal, Herba romana. It is also used as spice Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/shield-sorrel-rumex-scutatus-the-shield-dock-is-rich-in-vitamin-c-and-calcium-oxalate-he-was-used-officinal-herba-romana-it-is-also-used-as-spice-image366975786.htmlRF2C915A2–Shield sorrel, Rumex scutatus. The shield-dock is rich in vitamin C and calcium oxalate. He was used officinal, Herba romana. It is also used as spice
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The round brown spiky Calcium oxalate bladder stones isolated on white background Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-round-brown-spiky-calcium-oxalate-bladder-stones-isolated-on-white-background-image504986930.htmlRF2M9G3YE–The round brown spiky Calcium oxalate bladder stones isolated on white background
Oxalate anion chemical structure, illustration Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/oxalate-anion-chemical-structure-illustration-image344808762.htmlRF2B0YB2J–Oxalate anion chemical structure, illustration
Oxalate anion, chemical structure. Oxalate salts can form kidney stones. Skeletal formula. Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/oxalate-anion-chemical-structure-oxalate-salts-can-form-kidney-stones-skeletal-formula-image211362888.htmlRFP7TBEG–Oxalate anion, chemical structure. Oxalate salts can form kidney stones. Skeletal formula.
Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/nephrolithiasis-irregular-brown-kidney-stones-renal-calculus-or-nephrolith-the-stones-are-different-in-size-after-operative-ureteroscopy-and-laser-image554421887.htmlRF2R602NK–Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser
Oxalate anion, chemical structure. Oxalate salts can form kidney stones. Skeletal formula. Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/oxalate-anion-chemical-structure-oxalate-salts-can-form-kidney-stones-skeletal-formula-image457070347.htmlRF2HFH9TY–Oxalate anion, chemical structure. Oxalate salts can form kidney stones. Skeletal formula.
Dry Cissus quadrangularis in basket isolated on white.Saved with clipping path. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/dry-cissus-quadrangularis-in-basket-isolated-on-whitesaved-with-clipping-path-image411775802.htmlRF2EWX06J–Dry Cissus quadrangularis in basket isolated on white.Saved with clipping path.
Oxalate anion, chemical structure. Oxalate salts can form kidney stones. 3D rendering. Atoms are represented as spheres with conventional color coding Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/oxalate-anion-chemical-structure-oxalate-salts-can-form-kidney-stones-3d-rendering-atoms-are-represented-as-spheres-with-conventional-color-coding-image223886695.htmlRFR06WNB–Oxalate anion, chemical structure. Oxalate salts can form kidney stones. 3D rendering. Atoms are represented as spheres with conventional color coding
lose up fresh of Cissus Quadrangularis Linn.( Edible - Stemed Vine ) herb for pain treatment on white background.Saved with clipping path. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/lose-up-fresh-of-cissus-quadrangularis-linn-edible-stemed-vine-herb-for-pain-treatment-on-white-backgroundsaved-with-clipping-path-image419039106.htmlRF2F9MTJA–lose up fresh of Cissus Quadrangularis Linn.( Edible - Stemed Vine ) herb for pain treatment on white background.Saved with clipping path.
. Outlines of plant life : with special reference to form and function . Botany. NUTRITION. 151 useless materials are gotten rid of; or they may be excreted directly. They may be called waste materials. 211. Waste materials.—Among the most important are the carbon acids, such as oxalic, malic, etc., the tannins, the resins, the gums, the volatile oils, and the alkaloids. These substances are either by-products of photosynthesis, or they arise in the course of the assimilation of foods. Oxalic acid is usually gotten rid of by being combined with calcium to form calcium oxalate, which crystalliz Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/outlines-of-plant-life-with-special-reference-to-form-and-function-botany-nutrition-151-useless-materials-are-gotten-rid-of-or-they-may-be-excreted-directly-they-may-be-called-waste-materials-211-waste-materialsamong-the-most-important-are-the-carbon-acids-such-as-oxalic-malic-etc-the-tannins-the-resins-the-gums-the-volatile-oils-and-the-alkaloids-these-substances-are-either-by-products-of-photosynthesis-or-they-arise-in-the-course-of-the-assimilation-of-foods-oxalic-acid-is-usually-gotten-rid-of-by-being-combined-with-calcium-to-form-calcium-oxalate-which-crystalliz-image232116073.htmlRMRDHPBN–. Outlines of plant life : with special reference to form and function . Botany. NUTRITION. 151 useless materials are gotten rid of; or they may be excreted directly. They may be called waste materials. 211. Waste materials.—Among the most important are the carbon acids, such as oxalic, malic, etc., the tannins, the resins, the gums, the volatile oils, and the alkaloids. These substances are either by-products of photosynthesis, or they arise in the course of the assimilation of foods. Oxalic acid is usually gotten rid of by being combined with calcium to form calcium oxalate, which crystalliz
Close up fresh of Cissus Quadrangularis Linn.( Edible - Stemed Vine ) herb for pain treatment on white background Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/close-up-fresh-of-cissus-quadrangularis-linn-edible-stemed-vine-herb-for-pain-treatment-on-white-background-image376996444.htmlRF2CW9JPM–Close up fresh of Cissus Quadrangularis Linn.( Edible - Stemed Vine ) herb for pain treatment on white background
. Comparative morphology and biology of the fungi, mycetozoa and bacteria . Plant morphology; Fungi; Myxomycetes; Bacteriology. CHAPTER I.—HISTOLOGICAL CHARACTERISTICS. II later. Both the old mycelium and the walls of the perithecia of Eurotium are marked by a similar reddish yellow or golden yellow covering. Calcium oxalate is a substance so generally found in the Fungi that it is quite unnecessary to enumerate instances of its occurrence. I have noticed its absence in the Peronosporeae, in many Hyphomycetes, in species of Bovista and Lycoperdon, and in some Lichens which will be mentioned in Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/comparative-morphology-and-biology-of-the-fungi-mycetozoa-and-bacteria-plant-morphology-fungi-myxomycetes-bacteriology-chapter-ihistological-characteristics-ii-later-both-the-old-mycelium-and-the-walls-of-the-perithecia-of-eurotium-are-marked-by-a-similar-reddish-yellow-or-golden-yellow-covering-calcium-oxalate-is-a-substance-so-generally-found-in-the-fungi-that-it-is-quite-unnecessary-to-enumerate-instances-of-its-occurrence-i-have-noticed-its-absence-in-the-peronosporeae-in-many-hyphomycetes-in-species-of-bovista-and-lycoperdon-and-in-some-lichens-which-will-be-mentioned-in-image216459096.htmlRMPG4FP0–. Comparative morphology and biology of the fungi, mycetozoa and bacteria . Plant morphology; Fungi; Myxomycetes; Bacteriology. CHAPTER I.—HISTOLOGICAL CHARACTERISTICS. II later. Both the old mycelium and the walls of the perithecia of Eurotium are marked by a similar reddish yellow or golden yellow covering. Calcium oxalate is a substance so generally found in the Fungi that it is quite unnecessary to enumerate instances of its occurrence. I have noticed its absence in the Peronosporeae, in many Hyphomycetes, in species of Bovista and Lycoperdon, and in some Lichens which will be mentioned in
Shield sorrel, Rumex scutatus. The shield-dock is rich in vitamin C and calcium oxalate. He was used officinal, Herba romana. It is also used as spice Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/shield-sorrel-rumex-scutatus-the-shield-dock-is-rich-in-vitamin-c-and-calcium-oxalate-he-was-used-officinal-herba-romana-it-is-also-used-as-spice-image366975682.htmlRF2C9156A–Shield sorrel, Rumex scutatus. The shield-dock is rich in vitamin C and calcium oxalate. He was used officinal, Herba romana. It is also used as spice
The round brown spiky Calcium oxalate bladder stones isolated on white background Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-round-brown-spiky-calcium-oxalate-bladder-stones-isolated-on-white-background-image504986931.htmlRF2M9G3YF–The round brown spiky Calcium oxalate bladder stones isolated on white background
Oxalate anion chemical structure, illustration Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/oxalate-anion-chemical-structure-illustration-image344808759.htmlRF2B0YB2F–Oxalate anion chemical structure, illustration
Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/nephrolithiasis-irregular-brown-kidney-stones-renal-calculus-or-nephrolith-the-stones-are-different-in-size-after-operative-ureteroscopy-and-laser-image554416360.htmlRF2R5YRM8–Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser
Oxalate anion, chemical structure. Oxalate salts can form kidney stones. 3D rendering. Atoms are represented as spheres with conventional color coding Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/oxalate-anion-chemical-structure-oxalate-salts-can-form-kidney-stones-3d-rendering-atoms-are-represented-as-spheres-with-conventional-color-coding-image223886696.htmlRFR06WNC–Oxalate anion, chemical structure. Oxalate salts can form kidney stones. 3D rendering. Atoms are represented as spheres with conventional color coding
. Comparative morphology and biology of the fungi, mycetozoa and bacteria . Plant morphology; Fungi; Myxomycetes; Bacteriology. CHAPTER I.—HISTOLOGICAL CHARACTERISTICS. II later. Both the old mycelium and the walls of the perithecia of Eurotium are marked by a similar reddish yellow or golden yellow covering. Calcium oxalate is a substance so generally found in the Fungi that it is quite unnecessary to enumerate instances of its occurrence. I have noticed its absence in the Peronosporeae, in many Hyphomycetes, in species of Bovista and Lycoperdon, and in some Lichens which will be mentioned in Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/comparative-morphology-and-biology-of-the-fungi-mycetozoa-and-bacteria-plant-morphology-fungi-myxomycetes-bacteriology-chapter-ihistological-characteristics-ii-later-both-the-old-mycelium-and-the-walls-of-the-perithecia-of-eurotium-are-marked-by-a-similar-reddish-yellow-or-golden-yellow-covering-calcium-oxalate-is-a-substance-so-generally-found-in-the-fungi-that-it-is-quite-unnecessary-to-enumerate-instances-of-its-occurrence-i-have-noticed-its-absence-in-the-peronosporeae-in-many-hyphomycetes-in-species-of-bovista-and-lycoperdon-and-in-some-lichens-which-will-be-mentioned-in-image232012490.htmlRMRDD28A–. Comparative morphology and biology of the fungi, mycetozoa and bacteria . Plant morphology; Fungi; Myxomycetes; Bacteriology. CHAPTER I.—HISTOLOGICAL CHARACTERISTICS. II later. Both the old mycelium and the walls of the perithecia of Eurotium are marked by a similar reddish yellow or golden yellow covering. Calcium oxalate is a substance so generally found in the Fungi that it is quite unnecessary to enumerate instances of its occurrence. I have noticed its absence in the Peronosporeae, in many Hyphomycetes, in species of Bovista and Lycoperdon, and in some Lichens which will be mentioned in
Close up fresh of Cissus Quadrangularis Linn.( Edible - Stemed Vine ) herb for pain treatment on white background Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/close-up-fresh-of-cissus-quadrangularis-linn-edible-stemed-vine-herb-for-pain-treatment-on-white-background-image376996470.htmlRF2CW9JRJ–Close up fresh of Cissus Quadrangularis Linn.( Edible - Stemed Vine ) herb for pain treatment on white background
. The fungal diseases of the common larch . Larches. INTRODUCTION 11 m.r formation, wliicii leaves the inner cortex intact even in old stems. Two Idnds of specialized elements occur in this layer. The first are small cells set aside for the purpose of con- taining crystals of calcium oxalate. These ceUs are only found in older stems, and are very frequent in the neighbour- hood of cankers. The second are irregularly branched sclerenchymatous cells with very thick walls (fig. 6, s.e.). These elements grow longi- tudinally, forcing their way between the parenchymatous cells, and often branch. Th Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-fungal-diseases-of-the-common-larch-larches-introduction-11-mr-formation-wliicii-leaves-the-inner-cortex-intact-even-in-old-stems-two-idnds-of-specialized-elements-occur-in-this-layer-the-first-are-small-cells-set-aside-for-the-purpose-of-con-taining-crystals-of-calcium-oxalate-these-ceus-are-only-found-in-older-stems-and-are-very-frequent-in-the-neighbour-hood-of-cankers-the-second-are-irregularly-branched-sclerenchymatous-cells-with-very-thick-walls-fig-6-se-these-elements-grow-longi-tudinally-forcing-their-way-between-the-parenchymatous-cells-and-often-branch-th-image216450337.htmlRMPG44H5–. The fungal diseases of the common larch . Larches. INTRODUCTION 11 m.r formation, wliicii leaves the inner cortex intact even in old stems. Two Idnds of specialized elements occur in this layer. The first are small cells set aside for the purpose of con- taining crystals of calcium oxalate. These ceUs are only found in older stems, and are very frequent in the neighbour- hood of cankers. The second are irregularly branched sclerenchymatous cells with very thick walls (fig. 6, s.e.). These elements grow longi- tudinally, forcing their way between the parenchymatous cells, and often branch. Th
Shield sorrel, Rumex scutatus. The shield-dock is rich in vitamin C and calcium oxalate. He was used officinal, Herba romana. It is also used as spice Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/shield-sorrel-rumex-scutatus-the-shield-dock-is-rich-in-vitamin-c-and-calcium-oxalate-he-was-used-officinal-herba-romana-it-is-also-used-as-spice-image366975686.htmlRF2C9156E–Shield sorrel, Rumex scutatus. The shield-dock is rich in vitamin C and calcium oxalate. He was used officinal, Herba romana. It is also used as spice
A round brown Calcium oxalate bladder stone isolated on white background Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-round-brown-calcium-oxalate-bladder-stone-isolated-on-white-background-image504986942.htmlRF2M9G3YX–A round brown Calcium oxalate bladder stone isolated on white background
Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/nephrolithiasis-irregular-brown-kidney-stones-renal-calculus-or-nephrolith-the-stones-are-different-in-size-after-operative-ureteroscopy-and-laser-image554421755.htmlRF2R602GY–Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser
Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/nephrolithiasis-irregular-brown-kidney-stones-renal-calculus-or-nephrolith-the-stones-are-different-in-size-after-operative-ureteroscopy-and-laser-image553603254.htmlRF2R4JPGP–Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser
Oxalate anion, chemical structure. Oxalate salts can form kidney stones. 3D rendering. Atoms are represented as spheres with conventional color coding Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/oxalate-anion-chemical-structure-oxalate-salts-can-form-kidney-stones-3d-rendering-atoms-are-represented-as-spheres-with-conventional-color-coding-image223886697.htmlRFR06WND–Oxalate anion, chemical structure. Oxalate salts can form kidney stones. 3D rendering. Atoms are represented as spheres with conventional color coding
Oxalate anion, chemical structure. Oxalate salts can form kidney stones. 3D rendering. Atoms are represented as spheres with conventional color coding Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-oxalate-anion-chemical-structure-oxalate-salts-can-form-kidney-stones-143483481.htmlRFJ9C6J1–Oxalate anion, chemical structure. Oxalate salts can form kidney stones. 3D rendering. Atoms are represented as spheres with conventional color coding
Close up fresh of Cissus Quadrangularis Linn.( Edible - Stemed Vine ) herb for pain treatment on white background Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/close-up-fresh-of-cissus-quadrangularis-linn-edible-stemed-vine-herb-for-pain-treatment-on-white-background-image384909043.htmlRF2DA63BF–Close up fresh of Cissus Quadrangularis Linn.( Edible - Stemed Vine ) herb for pain treatment on white background
. South African botany. Botany. 22 SOUTH AFRICAN BOTANY 84), and of the substances elaborated by the activity of the cell, such as sugar. The sap is usually acid in nature owing to the presence of various organic acids or acid salts. Other substances found in the cell are, starch, calcium oxalate, fats and oils, tannin, and aleurone grains. Starch is present in the form of small granules (fig. 11). Fia. 11.—starch Grains of Potato. attached to the leucoplasts. It is the first visible pro- duct of carbon assimilation, and the food reserves of many plants consist of millions of these starch gran Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/south-african-botany-botany-22-south-african-botany-84-and-of-the-substances-elaborated-by-the-activity-of-the-cell-such-as-sugar-the-sap-is-usually-acid-in-nature-owing-to-the-presence-of-various-organic-acids-or-acid-salts-other-substances-found-in-the-cell-are-starch-calcium-oxalate-fats-and-oils-tannin-and-aleurone-grains-starch-is-present-in-the-form-of-small-granules-fig-11-fia-11starch-grains-of-potato-attached-to-the-leucoplasts-it-is-the-first-visible-pro-duct-of-carbon-assimilation-and-the-food-reserves-of-many-plants-consist-of-millions-of-these-starch-gran-image232377395.htmlRMRE1KMK–. South African botany. Botany. 22 SOUTH AFRICAN BOTANY 84), and of the substances elaborated by the activity of the cell, such as sugar. The sap is usually acid in nature owing to the presence of various organic acids or acid salts. Other substances found in the cell are, starch, calcium oxalate, fats and oils, tannin, and aleurone grains. Starch is present in the form of small granules (fig. 11). Fia. 11.—starch Grains of Potato. attached to the leucoplasts. It is the first visible pro- duct of carbon assimilation, and the food reserves of many plants consist of millions of these starch gran
Shield sorrel, Rumex scutatus. The shield-dock is rich in vitamin C and calcium oxalate. He was used officinal, Herba romana. It is also used as spice Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/shield-sorrel-rumex-scutatus-the-shield-dock-is-rich-in-vitamin-c-and-calcium-oxalate-he-was-used-officinal-herba-romana-it-is-also-used-as-spice-image366975705.htmlRF2C91575–Shield sorrel, Rumex scutatus. The shield-dock is rich in vitamin C and calcium oxalate. He was used officinal, Herba romana. It is also used as spice
Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/nephrolithiasis-irregular-brown-kidney-stones-renal-calculus-or-nephrolith-the-stones-are-different-in-size-after-operative-ureteroscopy-and-laser-image553602865.htmlRF2R4JP2W–Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser
Oxalate anion, chemical structure. Oxalate salts can form kidney stones. 3D rendering. Atoms are represented as spheres with conventional color coding Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-oxalate-anion-chemical-structure-oxalate-salts-can-form-kidney-stones-143483494.htmlRFJ9C6JE–Oxalate anion, chemical structure. Oxalate salts can form kidney stones. 3D rendering. Atoms are represented as spheres with conventional color coding
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. Manual of bacteriology for practitioners and students, with especial references to practical methods. Bacteriology. KOCH'S TUBERCULINâMOULDS 9 brane, dry above, and often thrown into folds, which in two or three weeks more becomes moistened by the fluid, and finally breaks up into ragged pieces and sinks to the â Acicular crystals of calcium oxalate Sporangium Hyplie. Columella Mycelium Fig. 2.âMucoR MucEDO. (After Baumgartea.) bottom. The cultures (which thus require from six to eight weeks for their growth), when fully ripe, are evapo- rated to a tenth of their bulk in a water-bath, and fi Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/manual-of-bacteriology-for-practitioners-and-students-with-especial-references-to-practical-methods-bacteriology-kochs-tuberculinmoulds-9-brane-dry-above-and-often-thrown-into-folds-which-in-two-or-three-weeks-more-becomes-moistened-by-the-fluid-and-finally-breaks-up-into-ragged-pieces-and-sinks-to-the-acicular-crystals-of-calcium-oxalate-sporangium-hyplie-columella-mycelium-fig-2mucor-mucedo-after-baumgartea-bottom-the-cultures-which-thus-require-from-six-to-eight-weeks-for-their-growth-when-fully-ripe-are-evapo-rated-to-a-tenth-of-their-bulk-in-a-water-bath-and-fi-image232435458.htmlRMRE49PA–. Manual of bacteriology for practitioners and students, with especial references to practical methods. Bacteriology. KOCH'S TUBERCULINâMOULDS 9 brane, dry above, and often thrown into folds, which in two or three weeks more becomes moistened by the fluid, and finally breaks up into ragged pieces and sinks to the â Acicular crystals of calcium oxalate Sporangium Hyplie. Columella Mycelium Fig. 2.âMucoR MucEDO. (After Baumgartea.) bottom. The cultures (which thus require from six to eight weeks for their growth), when fully ripe, are evapo- rated to a tenth of their bulk in a water-bath, and fi
Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/nephrolithiasis-irregular-brown-kidney-stones-renal-calculus-or-nephrolith-the-stones-are-different-in-size-after-operative-ureteroscopy-and-laser-image553600352.htmlRF2R4JJW4–Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser
Oxalate anion, chemical structure. Oxalate salts can form kidney stones. 3D rendering. Atoms are represented as spheres with conventional color coding Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-oxalate-anion-chemical-structure-oxalate-salts-can-form-kidney-stones-143483497.htmlRFJ9C6JH–Oxalate anion, chemical structure. Oxalate salts can form kidney stones. 3D rendering. Atoms are represented as spheres with conventional color coding
Oxalic acid molecule. Its salt, calcium oxalate, is the main component of most kidney stones. Makes rhubarb taste sour. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/oxalic-acid-molecule-its-salt-calcium-oxalate-is-the-main-component-image60611811.htmlRFDEH2YF–Oxalic acid molecule. Its salt, calcium oxalate, is the main component of most kidney stones. Makes rhubarb taste sour.
. The fungal diseases of the common larch . Larches. INTRODUCTION 11 m.r formation, wliicii leaves the inner cortex intact even in old stems. Two Idnds of specialized elements occur in this layer. The first are small cells set aside for the purpose of con- taining crystals of calcium oxalate. These ceUs are only found in older stems, and are very frequent in the neighbour- hood of cankers. The second are irregularly branched sclerenchymatous cells with very thick walls (fig. 6, s.e.). These elements grow longi- tudinally, forcing their way between the parenchymatous cells, and often branch. Th Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-fungal-diseases-of-the-common-larch-larches-introduction-11-mr-formation-wliicii-leaves-the-inner-cortex-intact-even-in-old-stems-two-idnds-of-specialized-elements-occur-in-this-layer-the-first-are-small-cells-set-aside-for-the-purpose-of-con-taining-crystals-of-calcium-oxalate-these-ceus-are-only-found-in-older-stems-and-are-very-frequent-in-the-neighbour-hood-of-cankers-the-second-are-irregularly-branched-sclerenchymatous-cells-with-very-thick-walls-fig-6-se-these-elements-grow-longi-tudinally-forcing-their-way-between-the-parenchymatous-cells-and-often-branch-th-image232034077.htmlRMRDE1R9–. The fungal diseases of the common larch . Larches. INTRODUCTION 11 m.r formation, wliicii leaves the inner cortex intact even in old stems. Two Idnds of specialized elements occur in this layer. The first are small cells set aside for the purpose of con- taining crystals of calcium oxalate. These ceUs are only found in older stems, and are very frequent in the neighbour- hood of cankers. The second are irregularly branched sclerenchymatous cells with very thick walls (fig. 6, s.e.). These elements grow longi- tudinally, forcing their way between the parenchymatous cells, and often branch. Th
Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/nephrolithiasis-irregular-brown-kidney-stones-renal-calculus-or-nephrolith-the-stones-are-different-in-size-after-operative-ureteroscopy-and-laser-image553642325.htmlRF2R4MGC5–Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser
Oxalic acid molecule. Its salt, calcium oxalate, is the main component of most kidney stones. Makes rhubarb taste sour. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/oxalic-acid-molecule-its-salt-calcium-oxalate-is-the-main-component-image60611814.htmlRFDEH2YJ–Oxalic acid molecule. Its salt, calcium oxalate, is the main component of most kidney stones. Makes rhubarb taste sour.
. On a Bacterial Disease of the Turnip (Brassica napus) . r development ispossible; growth, however, is resumed when the oxalic acid is neutralisedby a calcium salt. The reaction between the oxalic acid produced byP. destructans and the calcium pectate of the middle lamella ispreeiselly analogous: the oxalic acid would be neutralised, and thepectate replaced by the oxalate, and the continued growth of thebacteria would thus be rendered possible. The oxalic acid* then bothacts as a toxin in killing the cells and may also play some part in # Since the above account of the formation of oxalic aci Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/on-a-bacterial-disease-of-the-turnip-brassica-napus-r-development-ispossible-growth-however-is-resumed-when-the-oxalic-acid-is-neutralisedby-a-calcium-salt-the-reaction-between-the-oxalic-acid-produced-byp-destructans-and-the-calcium-pectate-of-the-middle-lamella-ispreeiselly-analogous-the-oxalic-acid-would-be-neutralised-and-thepectate-replaced-by-the-oxalate-and-the-continued-growth-of-thebacteria-would-thus-be-rendered-possible-the-oxalic-acid-then-bothacts-as-a-toxin-in-killing-the-cells-and-may-also-play-some-part-in-since-the-above-account-of-the-formation-of-oxalic-aci-image372618645.htmlRM2CJ66TN–. On a Bacterial Disease of the Turnip (Brassica napus) . r development ispossible; growth, however, is resumed when the oxalic acid is neutralisedby a calcium salt. The reaction between the oxalic acid produced byP. destructans and the calcium pectate of the middle lamella ispreeiselly analogous: the oxalic acid would be neutralised, and thepectate replaced by the oxalate, and the continued growth of thebacteria would thus be rendered possible. The oxalic acid* then bothacts as a toxin in killing the cells and may also play some part in # Since the above account of the formation of oxalic aci
Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/nephrolithiasis-irregular-brown-kidney-stones-renal-calculus-or-nephrolith-the-stones-are-different-in-size-after-operative-ureteroscopy-and-laser-image553575919.htmlRF2R4HFMF–Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser
Oxalic acid molecule. Its salt, calcium oxalate, is the main component of most kidney stones. Makes rhubarb taste sour. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/oxalic-acid-molecule-its-salt-calcium-oxalate-is-the-main-component-image60611808.htmlRFDEH2YC–Oxalic acid molecule. Its salt, calcium oxalate, is the main component of most kidney stones. Makes rhubarb taste sour.
![. Outlines of botany for the high school laboratory and classroom (based on Gray's Lessons in botany) Prepared at the request of the Botanical Dept. of Harvard University. Botany; Botany. MINUTE ANATOMY OF FLOWERING PLANTS 217. wheat, which is, or sliouhl be, a highly nutritious element of wheat tlour. In the cells of the potato tuber are to be found examples of proteid matter formed into cubical cr^-stals. These granules and crystals are storage forms of protein. 501. Crystals of calcium compounds â calcic carbonate and oxalate â are of very common occurrejice (l'"ig. 305). These are gen Stock Photo](https://c8.alamy.com/comp/RDX153/outlines-of-botany-for-the-high-school-laboratory-and-classroom-based-on-grays-lessons-in-botany-prepared-at-the-request-of-the-botanical-dept-of-harvard-university-botany-botany-minute-anatomy-of-flowering-plants-217-wheat-which-is-or-sliouhl-be-a-highly-nutritious-element-of-wheat-tlour-in-the-cells-of-the-potato-tuber-are-to-be-found-examples-of-proteid-matter-formed-into-cubical-cr-stals-these-granules-and-crystals-are-storage-forms-of-protein-501-crystals-of-calcium-compounds-calcic-carbonate-and-oxalate-are-of-very-common-occurrejice-lquotig-305-these-are-gen-RDX153.jpg ". Outlines of botany for the high school laboratory and classroom (based on Gray's Lessons in botany) Prepared at the request of the Botanical Dept. of Harvard University. Botany; Botany. MINUTE ANATOMY OF FLOWERING PLANTS 217. wheat, which is, or sliouhl be, a highly nutritious element of wheat tlour. In the cells of the potato tuber are to be found examples of proteid matter formed into cubical cr^-stals. These granules and crystals are storage forms of protein. 501. Crystals of calcium compounds â calcic carbonate and oxalate â are of very common occurrejice (l'"ig. 305). These are gen Stock Photo")
. Outlines of botany for the high school laboratory and classroom (based on Gray's Lessons in botany) Prepared at the request of the Botanical Dept. of Harvard University. Botany; Botany. MINUTE ANATOMY OF FLOWERING PLANTS 217. wheat, which is, or sliouhl be, a highly nutritious element of wheat tlour. In the cells of the potato tuber are to be found examples of proteid matter formed into cubical cr^-stals. These granules and crystals are storage forms of protein. 501. Crystals of calcium compounds â calcic carbonate and oxalate â are of very common occurrejice (l'"ig. 305). These are gen Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/outlines-of-botany-for-the-high-school-laboratory-and-classroom-based-on-grays-lessons-in-botany-prepared-at-the-request-of-the-botanical-dept-of-harvard-university-botany-botany-minute-anatomy-of-flowering-plants-217-wheat-which-is-or-sliouhl-be-a-highly-nutritious-element-of-wheat-tlour-in-the-cells-of-the-potato-tuber-are-to-be-found-examples-of-proteid-matter-formed-into-cubical-cr-stals-these-granules-and-crystals-are-storage-forms-of-protein-501-crystals-of-calcium-compounds-calcic-carbonate-and-oxalate-are-of-very-common-occurrejice-lquotig-305-these-are-gen-image232296991.htmlRMRDX153–. Outlines of botany for the high school laboratory and classroom (based on Gray's Lessons in botany) Prepared at the request of the Botanical Dept. of Harvard University. Botany; Botany. MINUTE ANATOMY OF FLOWERING PLANTS 217. wheat, which is, or sliouhl be, a highly nutritious element of wheat tlour. In the cells of the potato tuber are to be found examples of proteid matter formed into cubical cr^-stals. These granules and crystals are storage forms of protein. 501. Crystals of calcium compounds â calcic carbonate and oxalate â are of very common occurrejice (l'"ig. 305). These are gen
Oxalic acid molecule. Skeletal formula. Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/stock-photo-oxalic-acid-molecule-skeletal-formula-171481084.htmlRFKXYHTC–Oxalic acid molecule. Skeletal formula.
Oxalic acid molecule. Skeletal formula. Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/oxalic-acid-molecule-skeletal-formula-image457071573.htmlRF2HFHBCN–Oxalic acid molecule. Skeletal formula.
Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/nephrolithiasis-irregular-brown-kidney-stones-renal-calculus-or-nephrolith-the-stones-are-different-in-size-after-operative-ureteroscopy-and-laser-image553604354.htmlRF2R4JT02–Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser
Oxalic acid molecule. Skeletal formula. Stock Vectorhttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/oxalic-acid-molecule-skeletal-formula-image457070208.htmlRF2HFH9M0–Oxalic acid molecule. Skeletal formula.
Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/nephrolithiasis-irregular-brown-kidney-stones-renal-calculus-or-nephrolith-the-stones-are-different-in-size-after-operative-ureteroscopy-and-laser-image553572979.htmlRF2R4HBYF–Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser
Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/nephrolithiasis-irregular-brown-kidney-stones-renal-calculus-or-nephrolith-the-stones-are-different-in-size-after-operative-ureteroscopy-and-laser-image553575551.htmlRF2R4HF7B–Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser
Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/nephrolithiasis-irregular-brown-kidney-stones-renal-calculus-or-nephrolith-the-stones-are-different-in-size-after-operative-ureteroscopy-and-laser-image553591449.htmlRF2R4J7F5–Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser
Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/nephrolithiasis-irregular-brown-kidney-stones-renal-calculus-or-nephrolith-the-stones-are-different-in-size-after-operative-ureteroscopy-and-laser-image553600684.htmlRF2R4JK90–Nephrolithiasis, irregular brown kidney stones (renal calculus or nephrolith), the stones are different in size after operative ureteroscopy and Laser
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