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Gelatinous fungus Black & White Stock Photos
Mushroom Tremella mesenterica, yellow brain, golden jelly fungus,, witches' butter growing on a tree branch Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/mushroom-tremella-mesenterica-yellow-brain-golden-jelly-fungus-witches-butter-growing-on-a-tree-branch-image426068267.htmlRF2FN52BR–Mushroom Tremella mesenterica, yellow brain, golden jelly fungus,, witches' butter growing on a tree branch
. Comparative morphology and biology of the fungi, mycetozoa and bacteria . Plant morphology; Fungi; Myxomycetes; Bacteriology. 414 DIVISION III.—MODE OF LIFE OF THE FUNGI. Thwaites was the first to describe*. Neither changes of structure nor premature death have been observed in the algal cells on account of this attachment to the hyphae. But the effect of the Fungus on the Algae is shown in a very remarkable manner by the formation of a thallus of a fixed shape, which in some species is of comparatively large size and has a progressive marginal growth, while the gelatinous colonies of Gloeoc Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/comparative-morphology-and-biology-of-the-fungi-mycetozoa-and-bacteria-plant-morphology-fungi-myxomycetes-bacteriology-414-division-iiimode-of-life-of-the-fungi-thwaites-was-the-first-to-describe-neither-changes-of-structure-nor-premature-death-have-been-observed-in-the-algal-cells-on-account-of-this-attachment-to-the-hyphae-but-the-effect-of-the-fungus-on-the-algae-is-shown-in-a-very-remarkable-manner-by-the-formation-of-a-thallus-of-a-fixed-shape-which-in-some-species-is-of-comparatively-large-size-and-has-a-progressive-marginal-growth-while-the-gelatinous-colonies-of-gloeoc-image216399891.htmlRMPG1T7F–. Comparative morphology and biology of the fungi, mycetozoa and bacteria . Plant morphology; Fungi; Myxomycetes; Bacteriology. 414 DIVISION III.—MODE OF LIFE OF THE FUNGI. Thwaites was the first to describe*. Neither changes of structure nor premature death have been observed in the algal cells on account of this attachment to the hyphae. But the effect of the Fungus on the Algae is shown in a very remarkable manner by the formation of a thallus of a fixed shape, which in some species is of comparatively large size and has a progressive marginal growth, while the gelatinous colonies of Gloeoc
. Comparative morphology and biology of the fungi, mycetozoa and bacteria . Plant morphology; Fungi; Myxomycetes; Bacteriology. 414 DIVISION III.—MODE OF LIFE OF THE FUNGI. Thwaites was the first to describe*. Neither changes of structure nor premature death have been observed in the algal cells on account of this attachment to the hyphae. But the effect of the Fungus on the Algae is shown in a very remarkable manner by the formation of a thallus of a fixed shape, which in some species is of comparatively large size and has a progressive marginal growth, while the gelatinous colonies of Gloeoc Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/comparative-morphology-and-biology-of-the-fungi-mycetozoa-and-bacteria-plant-morphology-fungi-myxomycetes-bacteriology-414-division-iiimode-of-life-of-the-fungi-thwaites-was-the-first-to-describe-neither-changes-of-structure-nor-premature-death-have-been-observed-in-the-algal-cells-on-account-of-this-attachment-to-the-hyphae-but-the-effect-of-the-fungus-on-the-algae-is-shown-in-a-very-remarkable-manner-by-the-formation-of-a-thallus-of-a-fixed-shape-which-in-some-species-is-of-comparatively-large-size-and-has-a-progressive-marginal-growth-while-the-gelatinous-colonies-of-gloeoc-image232000274.htmlRMRDCEM2–. Comparative morphology and biology of the fungi, mycetozoa and bacteria . Plant morphology; Fungi; Myxomycetes; Bacteriology. 414 DIVISION III.—MODE OF LIFE OF THE FUNGI. Thwaites was the first to describe*. Neither changes of structure nor premature death have been observed in the algal cells on account of this attachment to the hyphae. But the effect of the Fungus on the Algae is shown in a very remarkable manner by the formation of a thallus of a fixed shape, which in some species is of comparatively large size and has a progressive marginal growth, while the gelatinous colonies of Gloeoc
. Minnesota plant diseases. Plant diseases. i68 Minnesota Plant Diseases. plants a great variety of forms—usually from club-shaped or cylindrical to ear-shaped and shelf-like. Many of them are very irregular in form and much convoluted, forming brain-like masses, while still others have a surface furnished with teeth in an exactly similar fashion to those of the true tooth-fungi. They are all, however, gelatinous and this character is due to the same structure of the threads as was described for the. Fio. 80.—A trembling fungus (Tremella sp.), on the end of a log. The portion of the fruiting b Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/minnesota-plant-diseases-plant-diseases-i68-minnesota-plant-diseases-plants-a-great-variety-of-formsusually-from-club-shaped-or-cylindrical-to-ear-shaped-and-shelf-like-many-of-them-are-very-irregular-in-form-and-much-convoluted-forming-brain-like-masses-while-still-others-have-a-surface-furnished-with-teeth-in-an-exactly-similar-fashion-to-those-of-the-true-tooth-fungi-they-are-all-however-gelatinous-and-this-character-is-due-to-the-same-structure-of-the-threads-as-was-described-for-the-fio-80a-trembling-fungus-tremella-sp-on-the-end-of-a-log-the-portion-of-the-fruiting-b-image216458848.htmlRMPG4FD4–. Minnesota plant diseases. Plant diseases. i68 Minnesota Plant Diseases. plants a great variety of forms—usually from club-shaped or cylindrical to ear-shaped and shelf-like. Many of them are very irregular in form and much convoluted, forming brain-like masses, while still others have a surface furnished with teeth in an exactly similar fashion to those of the true tooth-fungi. They are all, however, gelatinous and this character is due to the same structure of the threads as was described for the. Fio. 80.—A trembling fungus (Tremella sp.), on the end of a log. The portion of the fruiting b
. Fungi, ascomycetes, ustilaginales, uredinales. Fungi. Federley, in 1903, described specimens of this fungus in which conjugation is followed not only by the migration of the nucleus of one of the cells concerned, but also by nuclear fusion (fig. 15s). In view of the fusion in the young spore recorded by Dangeard and by Rawitscher the details of de- velopment in this species de- mand further investigation. Ustilago Maydis, the smut of Zea Mays, induces con- siderable hypertrophy. The deformations contain a mass of gelatinous mycelium from which brand-spores are produced. When mature, the spor Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/fungi-ascomycetes-ustilaginales-uredinales-fungi-federley-in-1903-described-specimens-of-this-fungus-in-which-conjugation-is-followed-not-only-by-the-migration-of-the-nucleus-of-one-of-the-cells-concerned-but-also-by-nuclear-fusion-fig-15s-in-view-of-the-fusion-in-the-young-spore-recorded-by-dangeard-and-by-rawitscher-the-details-of-de-velopment-in-this-species-de-mand-further-investigation-ustilago-maydis-the-smut-of-zea-mays-induces-con-siderable-hypertrophy-the-deformations-contain-a-mass-of-gelatinous-mycelium-from-which-brand-spores-are-produced-when-mature-the-spor-image232296778.htmlRMRDX0WE–. Fungi, ascomycetes, ustilaginales, uredinales. Fungi. Federley, in 1903, described specimens of this fungus in which conjugation is followed not only by the migration of the nucleus of one of the cells concerned, but also by nuclear fusion (fig. 15s). In view of the fusion in the young spore recorded by Dangeard and by Rawitscher the details of de- velopment in this species de- mand further investigation. Ustilago Maydis, the smut of Zea Mays, induces con- siderable hypertrophy. The deformations contain a mass of gelatinous mycelium from which brand-spores are produced. When mature, the spor
![. The encyclopedia of practical horticulture; a reference system of commercial horticulture, covering the practical and scientific phases of horticulture, with special reference to fruits and vegetables;. Gardening; Fruit-culture; Vegetable gardening. Fig. 1. Rust on Apple Foliage and Cedar Ap- ple. (New Hampshire Experiment Station.) effects produced is the so-called "cedar apples." The fungus passes the winter on the Juniper and in the spring produces gelatinous outgrowths that contain numer- ous spores. These spores, when borne back to the apple foliage, produce the rust again, an Stock Photo](https://c8.alamy.com/comp/PFXKMD/the-encyclopedia-of-practical-horticulture-a-reference-system-of-commercial-horticulture-covering-the-practical-and-scientific-phases-of-horticulture-with-special-reference-to-fruits-and-vegetables-gardening-fruit-culture-vegetable-gardening-fig-1-rust-on-apple-foliage-and-cedar-ap-ple-new-hampshire-experiment-station-effects-produced-is-the-so-called-quotcedar-applesquot-the-fungus-passes-the-winter-on-the-juniper-and-in-the-spring-produces-gelatinous-outgrowths-that-contain-numer-ous-spores-these-spores-when-borne-back-to-the-apple-foliage-produce-the-rust-again-an-PFXKMD.jpg ". The encyclopedia of practical horticulture; a reference system of commercial horticulture, covering the practical and scientific phases of horticulture, with special reference to fruits and vegetables;. Gardening; Fruit-culture; Vegetable gardening. Fig. 1. Rust on Apple Foliage and Cedar Ap- ple. (New Hampshire Experiment Station.) effects produced is the so-called "cedar apples." The fungus passes the winter on the Juniper and in the spring produces gelatinous outgrowths that contain numer- ous spores. These spores, when borne back to the apple foliage, produce the rust again, an Stock Photo")
. The encyclopedia of practical horticulture; a reference system of commercial horticulture, covering the practical and scientific phases of horticulture, with special reference to fruits and vegetables;. Gardening; Fruit-culture; Vegetable gardening. Fig. 1. Rust on Apple Foliage and Cedar Ap- ple. (New Hampshire Experiment Station.) effects produced is the so-called "cedar apples." The fungus passes the winter on the Juniper and in the spring produces gelatinous outgrowths that contain numer- ous spores. These spores, when borne back to the apple foliage, produce the rust again, an Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-encyclopedia-of-practical-horticulture-a-reference-system-of-commercial-horticulture-covering-the-practical-and-scientific-phases-of-horticulture-with-special-reference-to-fruits-and-vegetables-gardening-fruit-culture-vegetable-gardening-fig-1-rust-on-apple-foliage-and-cedar-ap-ple-new-hampshire-experiment-station-effects-produced-is-the-so-called-quotcedar-applesquot-the-fungus-passes-the-winter-on-the-juniper-and-in-the-spring-produces-gelatinous-outgrowths-that-contain-numer-ous-spores-these-spores-when-borne-back-to-the-apple-foliage-produce-the-rust-again-an-image216330477.htmlRMPFXKMD–. The encyclopedia of practical horticulture; a reference system of commercial horticulture, covering the practical and scientific phases of horticulture, with special reference to fruits and vegetables;. Gardening; Fruit-culture; Vegetable gardening. Fig. 1. Rust on Apple Foliage and Cedar Ap- ple. (New Hampshire Experiment Station.) effects produced is the so-called "cedar apples." The fungus passes the winter on the Juniper and in the spring produces gelatinous outgrowths that contain numer- ous spores. These spores, when borne back to the apple foliage, produce the rust again, an
. Outlines of plant life : with special reference to form and function . Botany. 2s6 OUTLINES OF PLANT LIFE. the fungus is the master and the alga the slave. (See 48, and figs. 215, 216.) The same fiingus may be found en- slaving more than one species of algae even within the same mycelium. The proto- nema of mosses (see ^ 59) or even the leaves of some small plants may be surrounded by a my- celium. The enslaved green plants are generally unicellular or filamentous algae. If the latter are the species whose colonies produce voluminous gela- tin, the texture of the lichen body is gelatinous; Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/outlines-of-plant-life-with-special-reference-to-form-and-function-botany-2s6-outlines-of-plant-life-the-fungus-is-the-master-and-the-alga-the-slave-see-48-and-figs-215-216-the-same-fiingus-may-be-found-en-slaving-more-than-one-species-of-algae-even-within-the-same-mycelium-the-proto-nema-of-mosses-see-59-or-even-the-leaves-of-some-small-plants-may-be-surrounded-by-a-my-celium-the-enslaved-green-plants-are-generally-unicellular-or-filamentous-algae-if-the-latter-are-the-species-whose-colonies-produce-voluminous-gela-tin-the-texture-of-the-lichen-body-is-gelatinous-image232115324.htmlRMRDHND0–. Outlines of plant life : with special reference to form and function . Botany. 2s6 OUTLINES OF PLANT LIFE. the fungus is the master and the alga the slave. (See 48, and figs. 215, 216.) The same fiingus may be found en- slaving more than one species of algae even within the same mycelium. The proto- nema of mosses (see ^ 59) or even the leaves of some small plants may be surrounded by a my- celium. The enslaved green plants are generally unicellular or filamentous algae. If the latter are the species whose colonies produce voluminous gela- tin, the texture of the lichen body is gelatinous;
. Minnesota plant diseases. Plant diseases. Minnesota Plant Diseases. 167 fungi is in almost all cases of a gelatinous consistency, especial- ly in the interior, and this is due to the gelatinization of the outer portion of the fungus threads, which compose it. The threads, therefore, appear as a very loose network in a great mass of gelatine. Near the surface of the fruiting body the thread walls do not gelatinize but, by the dense network there produced, form a tough covering. The basidia usually cover a special area as they do in the common Jews' ear fungus. In the young basidium a fusion o Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/minnesota-plant-diseases-plant-diseases-minnesota-plant-diseases-167-fungi-is-in-almost-all-cases-of-a-gelatinous-consistency-especial-ly-in-the-interior-and-this-is-due-to-the-gelatinization-of-the-outer-portion-of-the-fungus-threads-which-compose-it-the-threads-therefore-appear-as-a-very-loose-network-in-a-great-mass-of-gelatine-near-the-surface-of-the-fruiting-body-the-thread-walls-do-not-gelatinize-but-by-the-dense-network-there-produced-form-a-tough-covering-the-basidia-usually-cover-a-special-area-as-they-do-in-the-common-jews-ear-fungus-in-the-young-basidium-a-fusion-o-image216458849.htmlRMPG4FD5–. Minnesota plant diseases. Plant diseases. Minnesota Plant Diseases. 167 fungi is in almost all cases of a gelatinous consistency, especial- ly in the interior, and this is due to the gelatinization of the outer portion of the fungus threads, which compose it. The threads, therefore, appear as a very loose network in a great mass of gelatine. Near the surface of the fruiting body the thread walls do not gelatinize but, by the dense network there produced, form a tough covering. The basidia usually cover a special area as they do in the common Jews' ear fungus. In the young basidium a fusion o
![. The encyclopedia of practical horticulture; a reference system of commercial horticulture, covering the practical and scientific phases of horticulture, with special reference to fruits and vegetables;. Gardening; Fruit-culture; Vegetable gardening. Fig. 1. Rust on Apple Foliage and Cedar Ap- ple. (New Hampshire Experiment Station.) effects produced is the so-called "cedar apples." The fungus passes the winter on the Juniper and in the spring produces gelatinous outgrowths that contain numer- ous spores. These spores, when borne back to the apple foliage, produce the rust again, an Stock Photo](https://c8.alamy.com/comp/RD8TT6/the-encyclopedia-of-practical-horticulture-a-reference-system-of-commercial-horticulture-covering-the-practical-and-scientific-phases-of-horticulture-with-special-reference-to-fruits-and-vegetables-gardening-fruit-culture-vegetable-gardening-fig-1-rust-on-apple-foliage-and-cedar-ap-ple-new-hampshire-experiment-station-effects-produced-is-the-so-called-quotcedar-applesquot-the-fungus-passes-the-winter-on-the-juniper-and-in-the-spring-produces-gelatinous-outgrowths-that-contain-numer-ous-spores-these-spores-when-borne-back-to-the-apple-foliage-produce-the-rust-again-an-RD8TT6.jpg ". The encyclopedia of practical horticulture; a reference system of commercial horticulture, covering the practical and scientific phases of horticulture, with special reference to fruits and vegetables;. Gardening; Fruit-culture; Vegetable gardening. Fig. 1. Rust on Apple Foliage and Cedar Ap- ple. (New Hampshire Experiment Station.) effects produced is the so-called "cedar apples." The fungus passes the winter on the Juniper and in the spring produces gelatinous outgrowths that contain numer- ous spores. These spores, when borne back to the apple foliage, produce the rust again, an Stock Photo")
. The encyclopedia of practical horticulture; a reference system of commercial horticulture, covering the practical and scientific phases of horticulture, with special reference to fruits and vegetables;. Gardening; Fruit-culture; Vegetable gardening. Fig. 1. Rust on Apple Foliage and Cedar Ap- ple. (New Hampshire Experiment Station.) effects produced is the so-called "cedar apples." The fungus passes the winter on the Juniper and in the spring produces gelatinous outgrowths that contain numer- ous spores. These spores, when borne back to the apple foliage, produce the rust again, an Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-encyclopedia-of-practical-horticulture-a-reference-system-of-commercial-horticulture-covering-the-practical-and-scientific-phases-of-horticulture-with-special-reference-to-fruits-and-vegetables-gardening-fruit-culture-vegetable-gardening-fig-1-rust-on-apple-foliage-and-cedar-ap-ple-new-hampshire-experiment-station-effects-produced-is-the-so-called-quotcedar-applesquot-the-fungus-passes-the-winter-on-the-juniper-and-in-the-spring-produces-gelatinous-outgrowths-that-contain-numer-ous-spores-these-spores-when-borne-back-to-the-apple-foliage-produce-the-rust-again-an-image231920422.htmlRMRD8TT6–. The encyclopedia of practical horticulture; a reference system of commercial horticulture, covering the practical and scientific phases of horticulture, with special reference to fruits and vegetables;. Gardening; Fruit-culture; Vegetable gardening. Fig. 1. Rust on Apple Foliage and Cedar Ap- ple. (New Hampshire Experiment Station.) effects produced is the so-called "cedar apples." The fungus passes the winter on the Juniper and in the spring produces gelatinous outgrowths that contain numer- ous spores. These spores, when borne back to the apple foliage, produce the rust again, an
. Minnesota plant diseases. Plant diseases. 174 Minnesota Plant Diseases. which is internally more or less gelatinous and of which the en- tire surface is covered with the paHsade of basidia. A large number of the club fungi are edible and furnish many common and abundant forms. (Figs. lo, 8i, 83.). Fig. 84.—^The coral fungus—a toothed fungus (Hydnum coralloides), on the under side of a log. Original. Tooth fungi (Hydnacea). The fruiting body of the tooth fungus is in some respects more complex than that of the smooth shelves or clubs. The palisade surface is here distrib- uted over an area co Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/minnesota-plant-diseases-plant-diseases-174-minnesota-plant-diseases-which-is-internally-more-or-less-gelatinous-and-of-which-the-en-tire-surface-is-covered-with-the-pahsade-of-basidia-a-large-number-of-the-club-fungi-are-edible-and-furnish-many-common-and-abundant-forms-figs-lo-8i-83-fig-84the-coral-fungusa-toothed-fungus-hydnum-coralloides-on-the-under-side-of-a-log-original-tooth-fungi-hydnacea-the-fruiting-body-of-the-tooth-fungus-is-in-some-respects-more-complex-than-that-of-the-smooth-shelves-or-clubs-the-palisade-surface-is-here-distrib-uted-over-an-area-co-image216458847.htmlRMPG4FD3–. Minnesota plant diseases. Plant diseases. 174 Minnesota Plant Diseases. which is internally more or less gelatinous and of which the en- tire surface is covered with the paHsade of basidia. A large number of the club fungi are edible and furnish many common and abundant forms. (Figs. lo, 8i, 83.). Fig. 84.—^The coral fungus—a toothed fungus (Hydnum coralloides), on the under side of a log. Original. Tooth fungi (Hydnacea). The fruiting body of the tooth fungus is in some respects more complex than that of the smooth shelves or clubs. The palisade surface is here distrib- uted over an area co
. Minnesota plant diseases. Plant diseases. i68 Minnesota Plant Diseases. plants a great variety of forms—usually from club-shaped or cylindrical to ear-shaped and shelf-like. Many of them are very irregular in form and much convoluted, forming brain-like masses, while still others have a surface furnished with teeth in an exactly similar fashion to those of the true tooth-fungi. They are all, however, gelatinous and this character is due to the same structure of the threads as was described for the. Fio. 80.—A trembling fungus (Tremella sp.), on the end of a log. The portion of the fruiting b Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/minnesota-plant-diseases-plant-diseases-i68-minnesota-plant-diseases-plants-a-great-variety-of-formsusually-from-club-shaped-or-cylindrical-to-ear-shaped-and-shelf-like-many-of-them-are-very-irregular-in-form-and-much-convoluted-forming-brain-like-masses-while-still-others-have-a-surface-furnished-with-teeth-in-an-exactly-similar-fashion-to-those-of-the-true-tooth-fungi-they-are-all-however-gelatinous-and-this-character-is-due-to-the-same-structure-of-the-threads-as-was-described-for-the-fio-80a-trembling-fungus-tremella-sp-on-the-end-of-a-log-the-portion-of-the-fruiting-b-image232053496.htmlRMRDEXGT–. Minnesota plant diseases. Plant diseases. i68 Minnesota Plant Diseases. plants a great variety of forms—usually from club-shaped or cylindrical to ear-shaped and shelf-like. Many of them are very irregular in form and much convoluted, forming brain-like masses, while still others have a surface furnished with teeth in an exactly similar fashion to those of the true tooth-fungi. They are all, however, gelatinous and this character is due to the same structure of the threads as was described for the. Fio. 80.—A trembling fungus (Tremella sp.), on the end of a log. The portion of the fruiting b
. Comparative morphology and biology of the fungi, mycetozoa and bacteria . Plant morphology; Fungi; Myxomycetes; Bacteriology. Fig. 177. Ephibe pubescetis, Fr. A branched Blifonu thallus of Stigonema with the hyphae of the Fungus ^towing thrbugh its gelatinous membranes. Extremity of a branch of the thallus with a young lateral branch a; h hyphae, g cells of the Alga, gs the apex of the thallus After Sachs. Magn. 500 times. Fig. 178. Eptube pubtsUHS, Fr. A branched filiform thallus of Siigonema with hyphae of the Fungus growing through its gelatinous membranes, a tip of the thallus after bein Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/comparative-morphology-and-biology-of-the-fungi-mycetozoa-and-bacteria-plant-morphology-fungi-myxomycetes-bacteriology-fig-177-ephibe-pubescetis-fr-a-branched-blifonu-thallus-of-stigonema-with-the-hyphae-of-the-fungus-towing-thrbugh-its-gelatinous-membranes-extremity-of-a-branch-of-the-thallus-with-a-young-lateral-branch-a-h-hyphae-g-cells-of-the-alga-gs-the-apex-of-the-thallus-after-sachs-magn-500-times-fig-178-eptube-pubtsuhs-fr-a-branched-filiform-thallus-of-siigonema-with-hyphae-of-the-fungus-growing-through-its-gelatinous-membranes-a-tip-of-the-thallus-after-bein-image216445533.htmlRMPG3XDH–. Comparative morphology and biology of the fungi, mycetozoa and bacteria . Plant morphology; Fungi; Myxomycetes; Bacteriology. Fig. 177. Ephibe pubescetis, Fr. A branched Blifonu thallus of Stigonema with the hyphae of the Fungus ^towing thrbugh its gelatinous membranes. Extremity of a branch of the thallus with a young lateral branch a; h hyphae, g cells of the Alga, gs the apex of the thallus After Sachs. Magn. 500 times. Fig. 178. Eptube pubtsUHS, Fr. A branched filiform thallus of Siigonema with hyphae of the Fungus growing through its gelatinous membranes, a tip of the thallus after bein
. Fungi; their nature, influence, and uses;. Fungi. 66 FUNGI. almost even. In the two remaining orders, there is a still further divergence from the mushroom form. In the one called Olavariei, the entire fungus is either simply cylindrical or club-shaped, or it is very much branched and ramified. Whatever form the fungus assumes, the hymeninm covers the whole exposed surface. In the Tremellini, a peculiar structure prevails, which at first seems to agree but little with the preceding. The whole plant is gelatinous when fresh, lobed and convolute, often brain-like, and varying in size, accordin Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/fungi-their-nature-influence-and-uses-fungi-66-fungi-almost-even-in-the-two-remaining-orders-there-is-a-still-further-divergence-from-the-mushroom-form-in-the-one-called-olavariei-the-entire-fungus-is-either-simply-cylindrical-or-club-shaped-or-it-is-very-much-branched-and-ramified-whatever-form-the-fungus-assumes-the-hymeninm-covers-the-whole-exposed-surface-in-the-tremellini-a-peculiar-structure-prevails-which-at-first-seems-to-agree-but-little-with-the-preceding-the-whole-plant-is-gelatinous-when-fresh-lobed-and-convolute-often-brain-like-and-varying-in-size-accordin-image232375024.htmlRMRE1GM0–. Fungi; their nature, influence, and uses;. Fungi. 66 FUNGI. almost even. In the two remaining orders, there is a still further divergence from the mushroom form. In the one called Olavariei, the entire fungus is either simply cylindrical or club-shaped, or it is very much branched and ramified. Whatever form the fungus assumes, the hymeninm covers the whole exposed surface. In the Tremellini, a peculiar structure prevails, which at first seems to agree but little with the preceding. The whole plant is gelatinous when fresh, lobed and convolute, often brain-like, and varying in size, accordin
. Minnesota plant diseases. Plant diseases. 548 Minnesota Plant Diseases. The fungus passes the winter in this diseased portion of the cedar and in the following year the winter spores are produced in early spring. They are formed in a large number of cone- shaped groups arising from little saucer-like depressions, scat- tered all over the surface of the cedar apple. Each spore is provided with a long stalk which swells up in rainy weather. Since the winter spores are produced in large numbers there are formed long (G. macropus) or short (G. globosum) beak- like, gelatinous masses with a brigh Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/minnesota-plant-diseases-plant-diseases-548-minnesota-plant-diseases-the-fungus-passes-the-winter-in-this-diseased-portion-of-the-cedar-and-in-the-following-year-the-winter-spores-are-produced-in-early-spring-they-are-formed-in-a-large-number-of-cone-shaped-groups-arising-from-little-saucer-like-depressions-scat-tered-all-over-the-surface-of-the-cedar-apple-each-spore-is-provided-with-a-long-stalk-which-swells-up-in-rainy-weather-since-the-winter-spores-are-produced-in-large-numbers-there-are-formed-long-g-macropus-or-short-g-globosum-beak-like-gelatinous-masses-with-a-brigh-image216458266.htmlRMPG4EMA–. Minnesota plant diseases. Plant diseases. 548 Minnesota Plant Diseases. The fungus passes the winter in this diseased portion of the cedar and in the following year the winter spores are produced in early spring. They are formed in a large number of cone- shaped groups arising from little saucer-like depressions, scat- tered all over the surface of the cedar apple. Each spore is provided with a long stalk which swells up in rainy weather. Since the winter spores are produced in large numbers there are formed long (G. macropus) or short (G. globosum) beak- like, gelatinous masses with a brigh
. Fungi, ascomycetes, ustilaginales, uredinales. Fungi. igo HEMIBASIDIOMYCETES [CH.. Federley, in 1903, described specimens of this fungus in which conjugation is followed not only by the migration of the nucleus of one of the cells concerned, but also by nuclear fusion (fig. 15s). In view of the fusion in the young spore recorded by Dangeard and by Rawitscher the details of de- velopment in this species de- mand further investigation. Ustilago Maydis, the smut of Zea Mays, induces con- siderable hypertrophy. The deformations contain a mass of gelatinous mycelium from which brand-spores are pr Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/fungi-ascomycetes-ustilaginales-uredinales-fungi-igo-hemibasidiomycetes-ch-federley-in-1903-described-specimens-of-this-fungus-in-which-conjugation-is-followed-not-only-by-the-migration-of-the-nucleus-of-one-of-the-cells-concerned-but-also-by-nuclear-fusion-fig-15s-in-view-of-the-fusion-in-the-young-spore-recorded-by-dangeard-and-by-rawitscher-the-details-of-de-velopment-in-this-species-de-mand-further-investigation-ustilago-maydis-the-smut-of-zea-mays-induces-con-siderable-hypertrophy-the-deformations-contain-a-mass-of-gelatinous-mycelium-from-which-brand-spores-are-pr-image232296783.htmlRMRDX0WK–. Fungi, ascomycetes, ustilaginales, uredinales. Fungi. igo HEMIBASIDIOMYCETES [CH.. Federley, in 1903, described specimens of this fungus in which conjugation is followed not only by the migration of the nucleus of one of the cells concerned, but also by nuclear fusion (fig. 15s). In view of the fusion in the young spore recorded by Dangeard and by Rawitscher the details of de- velopment in this species de- mand further investigation. Ustilago Maydis, the smut of Zea Mays, induces con- siderable hypertrophy. The deformations contain a mass of gelatinous mycelium from which brand-spores are pr
. Minnesota plant diseases. Plant diseases. 174 Minnesota Plant Diseases. which is internally more or less gelatinous and of which the en- tire surface is covered with the paHsade of basidia. A large number of the club fungi are edible and furnish many common and abundant forms. (Figs. lo, 8i, 83.). Fig. 84.—^The coral fungus—a toothed fungus (Hydnum coralloides), on the under side of a log. Original. Tooth fungi (Hydnacea). The fruiting body of the tooth fungus is in some respects more complex than that of the smooth shelves or clubs. The palisade surface is here distrib- uted over an area co Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/minnesota-plant-diseases-plant-diseases-174-minnesota-plant-diseases-which-is-internally-more-or-less-gelatinous-and-of-which-the-en-tire-surface-is-covered-with-the-pahsade-of-basidia-a-large-number-of-the-club-fungi-are-edible-and-furnish-many-common-and-abundant-forms-figs-lo-8i-83-fig-84the-coral-fungusa-toothed-fungus-hydnum-coralloides-on-the-under-side-of-a-log-original-tooth-fungi-hydnacea-the-fruiting-body-of-the-tooth-fungus-is-in-some-respects-more-complex-than-that-of-the-smooth-shelves-or-clubs-the-palisade-surface-is-here-distrib-uted-over-an-area-co-image232053469.htmlRMRDEXFW–. Minnesota plant diseases. Plant diseases. 174 Minnesota Plant Diseases. which is internally more or less gelatinous and of which the en- tire surface is covered with the paHsade of basidia. A large number of the club fungi are edible and furnish many common and abundant forms. (Figs. lo, 8i, 83.). Fig. 84.—^The coral fungus—a toothed fungus (Hydnum coralloides), on the under side of a log. Original. Tooth fungi (Hydnacea). The fruiting body of the tooth fungus is in some respects more complex than that of the smooth shelves or clubs. The palisade surface is here distrib- uted over an area co
. Minnesota plant diseases. Plant diseases. Minnesota Plant Diseases. 167 fungi is in almost all cases of a gelatinous consistency, especial- ly in the interior, and this is due to the gelatinization of the outer portion of the fungus threads, which compose it. The threads, therefore, appear as a very loose network in a great mass of gelatine. Near the surface of the fruiting body the thread walls do not gelatinize but, by the dense network there produced, form a tough covering. The basidia usually cover a special area as they do in the common Jews' ear fungus. In the young basidium a fusion o Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/minnesota-plant-diseases-plant-diseases-minnesota-plant-diseases-167-fungi-is-in-almost-all-cases-of-a-gelatinous-consistency-especial-ly-in-the-interior-and-this-is-due-to-the-gelatinization-of-the-outer-portion-of-the-fungus-threads-which-compose-it-the-threads-therefore-appear-as-a-very-loose-network-in-a-great-mass-of-gelatine-near-the-surface-of-the-fruiting-body-the-thread-walls-do-not-gelatinize-but-by-the-dense-network-there-produced-form-a-tough-covering-the-basidia-usually-cover-a-special-area-as-they-do-in-the-common-jews-ear-fungus-in-the-young-basidium-a-fusion-o-image232053506.htmlRMRDEXH6–. Minnesota plant diseases. Plant diseases. Minnesota Plant Diseases. 167 fungi is in almost all cases of a gelatinous consistency, especial- ly in the interior, and this is due to the gelatinization of the outer portion of the fungus threads, which compose it. The threads, therefore, appear as a very loose network in a great mass of gelatine. Near the surface of the fruiting body the thread walls do not gelatinize but, by the dense network there produced, form a tough covering. The basidia usually cover a special area as they do in the common Jews' ear fungus. In the young basidium a fusion o
. A manual of determinative bacteriology. Bacteria. THE MORPHOLOGY OF BACTERIA 5 tococcus ntesenterioides, the capsules become enormously swollen by the imbibition of water. The capsules of adjacent individuals also coalesce, forming a common gelatinous envelope surround- ing a number of individuals, as in A and D, Fig. 2. When these individuals are arranged in chains we have forms, as. Fig. 3. — Showing false branching. A. in Cladothrix dichotoma after Fischer. B. a fungus filament. C. Mycobact. tuberculosis after A. Coppen Jones. D. Mycobact. tnjluenzce after Grassberger. E. bacteroid bodies Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/a-manual-of-determinative-bacteriology-bacteria-the-morphology-of-bacteria-5-tococcus-ntesenterioides-the-capsules-become-enormously-swollen-by-the-imbibition-of-water-the-capsules-of-adjacent-individuals-also-coalesce-forming-a-common-gelatinous-envelope-surround-ing-a-number-of-individuals-as-in-a-and-d-fig-2-when-these-individuals-are-arranged-in-chains-we-have-forms-as-fig-3-showing-false-branching-a-in-cladothrix-dichotoma-after-fischer-b-a-fungus-filament-c-mycobact-tuberculosis-after-a-coppen-jones-d-mycobact-tnjluenzce-after-grassberger-e-bacteroid-bodies-image232427895.htmlRMRE4047–. A manual of determinative bacteriology. Bacteria. THE MORPHOLOGY OF BACTERIA 5 tococcus ntesenterioides, the capsules become enormously swollen by the imbibition of water. The capsules of adjacent individuals also coalesce, forming a common gelatinous envelope surround- ing a number of individuals, as in A and D, Fig. 2. When these individuals are arranged in chains we have forms, as. Fig. 3. — Showing false branching. A. in Cladothrix dichotoma after Fischer. B. a fungus filament. C. Mycobact. tuberculosis after A. Coppen Jones. D. Mycobact. tnjluenzce after Grassberger. E. bacteroid bodies
. Comparative morphology and biology of the fungi, mycetozoa and bacteria . Plant morphology; Fungi; Myxomycetes; Bacteriology. Fig. 177. Ephibe pubescetis, Fr. A branched Blifonu thallus of Stigonema with the hyphae of the Fungus ^towing thrbugh its gelatinous membranes. Extremity of a branch of the thallus with a young lateral branch a; h hyphae, g cells of the Alga, gs the apex of the thallus After Sachs. Magn. 500 times. Fig. 178. Eptube pubtsUHS, Fr. A branched filiform thallus of Siigonema with hyphae of the Fungus growing through its gelatinous membranes, a tip of the thallus after bein Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/comparative-morphology-and-biology-of-the-fungi-mycetozoa-and-bacteria-plant-morphology-fungi-myxomycetes-bacteriology-fig-177-ephibe-pubescetis-fr-a-branched-blifonu-thallus-of-stigonema-with-the-hyphae-of-the-fungus-towing-thrbugh-its-gelatinous-membranes-extremity-of-a-branch-of-the-thallus-with-a-young-lateral-branch-a-h-hyphae-g-cells-of-the-alga-gs-the-apex-of-the-thallus-after-sachs-magn-500-times-fig-178-eptube-pubtsuhs-fr-a-branched-filiform-thallus-of-siigonema-with-hyphae-of-the-fungus-growing-through-its-gelatinous-membranes-a-tip-of-the-thallus-after-bein-image232000290.htmlRMRDCEMJ–. Comparative morphology and biology of the fungi, mycetozoa and bacteria . Plant morphology; Fungi; Myxomycetes; Bacteriology. Fig. 177. Ephibe pubescetis, Fr. A branched Blifonu thallus of Stigonema with the hyphae of the Fungus ^towing thrbugh its gelatinous membranes. Extremity of a branch of the thallus with a young lateral branch a; h hyphae, g cells of the Alga, gs the apex of the thallus After Sachs. Magn. 500 times. Fig. 178. Eptube pubtsUHS, Fr. A branched filiform thallus of Siigonema with hyphae of the Fungus growing through its gelatinous membranes, a tip of the thallus after bein
. Lichens. Lichens. MM SS. as 9a. Fig. 33. Prasiola parieiinaWiWe X ;,oo {s,{tex West). B. Changes induced in the Alga a. Myxophyceae. Though, as a general rule, the alga is less affected by its altered life-conditions than the fungus, yet in many instances it becomes considerably modified in appearance. In species of the genus Pyrenopsis—small gelatinous lichens—the alga is a Gloeocapsa very similar to G. magma. In the open it forms small colonies of blue-green cells surrounded by a gelatinous sheath which is coloured red with gloeocapsin. As a gonidium lying towards or on the outside of the Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/lichens-lichens-mm-ss-as-9a-fig-33-prasiola-parieiinawiwe-x-oo-stex-west-b-changes-induced-in-the-alga-a-myxophyceae-though-as-a-general-rule-the-alga-is-less-affected-by-its-altered-life-conditions-than-the-fungus-yet-in-many-instances-it-becomes-considerably-modified-in-appearance-in-species-of-the-genus-pyrenopsissmall-gelatinous-lichensthe-alga-is-a-gloeocapsa-very-similar-to-g-magma-in-the-open-it-forms-small-colonies-of-blue-green-cells-surrounded-by-a-gelatinous-sheath-which-is-coloured-red-with-gloeocapsin-as-a-gonidium-lying-towards-or-on-the-outside-of-the-image232270066.htmlRMRDTPRE–. Lichens. Lichens. MM SS. as 9a. Fig. 33. Prasiola parieiinaWiWe X ;,oo {s,{tex West). B. Changes induced in the Alga a. Myxophyceae. Though, as a general rule, the alga is less affected by its altered life-conditions than the fungus, yet in many instances it becomes considerably modified in appearance. In species of the genus Pyrenopsis—small gelatinous lichens—the alga is a Gloeocapsa very similar to G. magma. In the open it forms small colonies of blue-green cells surrounded by a gelatinous sheath which is coloured red with gloeocapsin. As a gonidium lying towards or on the outside of the
. Minnesota plant diseases. Plant diseases. 548 Minnesota Plant Diseases. The fungus passes the winter in this diseased portion of the cedar and in the following year the winter spores are produced in early spring. They are formed in a large number of cone- shaped groups arising from little saucer-like depressions, scat- tered all over the surface of the cedar apple. Each spore is provided with a long stalk which swells up in rainy weather. Since the winter spores are produced in large numbers there are formed long (G. macropus) or short (G. globosum) beak- like, gelatinous masses with a brigh Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/minnesota-plant-diseases-plant-diseases-548-minnesota-plant-diseases-the-fungus-passes-the-winter-in-this-diseased-portion-of-the-cedar-and-in-the-following-year-the-winter-spores-are-produced-in-early-spring-they-are-formed-in-a-large-number-of-cone-shaped-groups-arising-from-little-saucer-like-depressions-scat-tered-all-over-the-surface-of-the-cedar-apple-each-spore-is-provided-with-a-long-stalk-which-swells-up-in-rainy-weather-since-the-winter-spores-are-produced-in-large-numbers-there-are-formed-long-g-macropus-or-short-g-globosum-beak-like-gelatinous-masses-with-a-brigh-image232035156.htmlRMRDE35T–. Minnesota plant diseases. Plant diseases. 548 Minnesota Plant Diseases. The fungus passes the winter in this diseased portion of the cedar and in the following year the winter spores are produced in early spring. They are formed in a large number of cone- shaped groups arising from little saucer-like depressions, scat- tered all over the surface of the cedar apple. Each spore is provided with a long stalk which swells up in rainy weather. Since the winter spores are produced in large numbers there are formed long (G. macropus) or short (G. globosum) beak- like, gelatinous masses with a brigh
![. Plants; a text-book of botany. Botany. 74 PLANT STEUCTUKES 61), and the mushroom-like Boleti (Figs. 02, 63). The " ear-fungi" form gelatinous, dark-brown, shell-shaped masses, and the " coral fungi " resemble branching corals (Pig. 64). The Hydnum forms have spinous processes instead of gills (Fig. 65). The pufiballs or- ganize globular bodies (Fig. CiH), within which the spores develops, and are not liberated until ripe; and with them belong also the "bird's nest fungus," the "earth star," the ill-smelling "stink-horn," etc. OTHER THALLOPHTT Stock Photo](https://c8.alamy.com/comp/RDWAWM/plants-a-text-book-of-botany-botany-74-plant-steuctukes-61-and-the-mushroom-like-boleti-figs-02-63-the-quot-ear-fungiquot-form-gelatinous-dark-brown-shell-shaped-masses-and-the-quot-coral-fungi-quot-resemble-branching-corals-pig-64-the-hydnum-forms-have-spinous-processes-instead-of-gills-fig-65-the-pufiballs-or-ganize-globular-bodies-fig-cih-within-which-the-spores-develops-and-are-not-liberated-until-ripe-and-with-them-belong-also-the-quotbirds-nest-fungusquot-the-quotearth-starquot-the-ill-smelling-quotstink-hornquot-etc-other-thallophtt-RDWAWM.jpg ". Plants; a text-book of botany. Botany. 74 PLANT STEUCTUKES 61), and the mushroom-like Boleti (Figs. 02, 63). The " ear-fungi" form gelatinous, dark-brown, shell-shaped masses, and the " coral fungi " resemble branching corals (Pig. 64). The Hydnum forms have spinous processes instead of gills (Fig. 65). The pufiballs or- ganize globular bodies (Fig. CiH), within which the spores develops, and are not liberated until ripe; and with them belong also the "bird's nest fungus," the "earth star," the ill-smelling "stink-horn," etc. OTHER THALLOPHTT Stock Photo")
. Plants; a text-book of botany. Botany. 74 PLANT STEUCTUKES 61), and the mushroom-like Boleti (Figs. 02, 63). The " ear-fungi" form gelatinous, dark-brown, shell-shaped masses, and the " coral fungi " resemble branching corals (Pig. 64). The Hydnum forms have spinous processes instead of gills (Fig. 65). The pufiballs or- ganize globular bodies (Fig. CiH), within which the spores develops, and are not liberated until ripe; and with them belong also the "bird's nest fungus," the "earth star," the ill-smelling "stink-horn," etc. OTHER THALLOPHTT Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/plants-a-text-book-of-botany-botany-74-plant-steuctukes-61-and-the-mushroom-like-boleti-figs-02-63-the-quot-ear-fungiquot-form-gelatinous-dark-brown-shell-shaped-masses-and-the-quot-coral-fungi-quot-resemble-branching-corals-pig-64-the-hydnum-forms-have-spinous-processes-instead-of-gills-fig-65-the-pufiballs-or-ganize-globular-bodies-fig-cih-within-which-the-spores-develops-and-are-not-liberated-until-ripe-and-with-them-belong-also-the-quotbirds-nest-fungusquot-the-quotearth-starquot-the-ill-smelling-quotstink-hornquot-etc-other-thallophtt-image232282672.htmlRMRDWAWM–. Plants; a text-book of botany. Botany. 74 PLANT STEUCTUKES 61), and the mushroom-like Boleti (Figs. 02, 63). The " ear-fungi" form gelatinous, dark-brown, shell-shaped masses, and the " coral fungi " resemble branching corals (Pig. 64). The Hydnum forms have spinous processes instead of gills (Fig. 65). The pufiballs or- ganize globular bodies (Fig. CiH), within which the spores develops, and are not liberated until ripe; and with them belong also the "bird's nest fungus," the "earth star," the ill-smelling "stink-horn," etc. OTHER THALLOPHTT
![. Plant studies; an elementary botany. Botany. 20(1 PLANT STUDIES 261), and the mushroom-like Boleti (Figs. 262, 263). The " ear-fungi" form gelatinous, dark-brown, shell-shaped masses, and the " coral fungi" resemble branching corals (Fig. 264). The Hydnum forms have spinous processes instead of gills (Fig. 265). The puffballs or- ganize globular bodies (Fig. 266), within which the spores develop, and are not liberated until ripe; and with them. belong also nest fungus," star," the "stink-horn, the "bird's ' the "earth ill-smelling etc. Fig. 266. P Stock Photo](https://c8.alamy.com/comp/RE1JE6/plant-studies-an-elementary-botany-botany-201-plant-studies-261-and-the-mushroom-like-boleti-figs-262-263-the-quot-ear-fungiquot-form-gelatinous-dark-brown-shell-shaped-masses-and-the-quot-coral-fungiquot-resemble-branching-corals-fig-264-the-hydnum-forms-have-spinous-processes-instead-of-gills-fig-265-the-puffballs-or-ganize-globular-bodies-fig-266-within-which-the-spores-develop-and-are-not-liberated-until-ripe-and-with-them-belong-also-nest-fungusquot-starquot-the-quotstink-horn-the-quotbirds-the-quotearth-ill-smelling-etc-fig-266-p-RE1JE6.jpg ". Plant studies; an elementary botany. Botany. 20(1 PLANT STUDIES 261), and the mushroom-like Boleti (Figs. 262, 263). The " ear-fungi" form gelatinous, dark-brown, shell-shaped masses, and the " coral fungi" resemble branching corals (Fig. 264). The Hydnum forms have spinous processes instead of gills (Fig. 265). The puffballs or- ganize globular bodies (Fig. 266), within which the spores develop, and are not liberated until ripe; and with them. belong also nest fungus," star," the "stink-horn, the "bird's ' the "earth ill-smelling etc. Fig. 266. P Stock Photo")
. Plant studies; an elementary botany. Botany. 20(1 PLANT STUDIES 261), and the mushroom-like Boleti (Figs. 262, 263). The " ear-fungi" form gelatinous, dark-brown, shell-shaped masses, and the " coral fungi" resemble branching corals (Fig. 264). The Hydnum forms have spinous processes instead of gills (Fig. 265). The puffballs or- ganize globular bodies (Fig. 266), within which the spores develop, and are not liberated until ripe; and with them. belong also nest fungus," star," the "stink-horn, the "bird's ' the "earth ill-smelling etc. Fig. 266. P Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/plant-studies-an-elementary-botany-botany-201-plant-studies-261-and-the-mushroom-like-boleti-figs-262-263-the-quot-ear-fungiquot-form-gelatinous-dark-brown-shell-shaped-masses-and-the-quot-coral-fungiquot-resemble-branching-corals-fig-264-the-hydnum-forms-have-spinous-processes-instead-of-gills-fig-265-the-puffballs-or-ganize-globular-bodies-fig-266-within-which-the-spores-develop-and-are-not-liberated-until-ripe-and-with-them-belong-also-nest-fungusquot-starquot-the-quotstink-horn-the-quotbirds-the-quotearth-ill-smelling-etc-fig-266-p-image232376430.htmlRMRE1JE6–. Plant studies; an elementary botany. Botany. 20(1 PLANT STUDIES 261), and the mushroom-like Boleti (Figs. 262, 263). The " ear-fungi" form gelatinous, dark-brown, shell-shaped masses, and the " coral fungi" resemble branching corals (Fig. 264). The Hydnum forms have spinous processes instead of gills (Fig. 265). The puffballs or- ganize globular bodies (Fig. 266), within which the spores develop, and are not liberated until ripe; and with them. belong also nest fungus," star," the "stink-horn, the "bird's ' the "earth ill-smelling etc. Fig. 266. P
. Botany of the living plant. Botany. Mc. 372. A=^Xiuiiliona {Fanmhaj panciina, the coiiiiiiou foliaLCOUb- y(. lli.)v Lit^lien. B = Clad(ynia rangifera, a fruticose Lichen- Both hc-ar ascus-truits, and are shown natural size, (.fter Strasburger.) (Chapter XL). The Lichens are verv various in form. In simple cases they may be filamentous, as m Ephebe, which is like a filamentous Alga with a fungus growing in its mucilaginous walls. Some appear as flat gelatinous thalli, readilv swelling with water, as in Colleina, wliieh is based upon the gelatinous Alga, A'Osloc. Others are more firm in text Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/botany-of-the-living-plant-botany-mc-372-a=xiuiiliona-fanmhaj-panciina-the-coiiiiiiou-folialcoub-y-lliv-litlien-b-=-cladynia-rangifera-a-fruticose-lichen-both-hc-ar-ascus-truits-and-are-shown-natural-size-fter-strasburger-chapter-xl-the-lichens-are-verv-various-in-form-in-simple-cases-they-may-be-filamentous-as-m-ephebe-which-is-like-a-filamentous-alga-with-a-fungus-growing-in-its-mucilaginous-walls-some-appear-as-flat-gelatinous-thalli-readilv-swelling-with-water-as-in-colleina-wliieh-is-based-upon-the-gelatinous-alga-aosloc-others-are-more-firm-in-text-image232322819.htmlRMRDY63F–. Botany of the living plant. Botany. Mc. 372. A=^Xiuiiliona {Fanmhaj panciina, the coiiiiiiou foliaLCOUb- y(. lli.)v Lit^lien. B = Clad(ynia rangifera, a fruticose Lichen- Both hc-ar ascus-truits, and are shown natural size, (.fter Strasburger.) (Chapter XL). The Lichens are verv various in form. In simple cases they may be filamentous, as m Ephebe, which is like a filamentous Alga with a fungus growing in its mucilaginous walls. Some appear as flat gelatinous thalli, readilv swelling with water, as in Colleina, wliieh is based upon the gelatinous Alga, A'Osloc. Others are more firm in text
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