. Botany for agricultural students. Plants. ASPERGILLUS 375 higher Red Algae, such as Polysiphonia, for as the ascogenous hyphae develop from the ascogoniuin, sterile hyphae, growing up from below the ascogonium, form a compact hard wall which makes a case for the asci and ascospores, just as the filaments growing up from below the carpogonium produce a case for the carpospores in Poly- siphonia. The Blue and Green Molds (Plectascales). — S u p e r fi- cially these Molds resemble the true Molds discussed under the Mucorales, but their spore masses are gen- erally green or blue, while those of Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/botany-for-agricultural-students-plants-aspergillus-375-higher-red-algae-such-as-polysiphonia-for-as-the-ascogenous-hyphae-develop-from-the-ascogoniuin-sterile-hyphae-growing-up-from-below-the-ascogonium-form-a-compact-hard-wall-which-makes-a-case-for-the-asci-and-ascospores-just-as-the-filaments-growing-up-from-below-the-carpogonium-produce-a-case-for-the-carpospores-in-poly-siphonia-the-blue-and-green-molds-plectascales-s-u-p-e-r-fi-cially-these-molds-resemble-the-true-molds-discussed-under-the-mucorales-but-their-spore-masses-are-gen-erally-green-or-blue-while-those-of-image234383966.html
RMRH933X–. Botany for agricultural students. Plants. ASPERGILLUS 375 higher Red Algae, such as Polysiphonia, for as the ascogenous hyphae develop from the ascogoniuin, sterile hyphae, growing up from below the ascogonium, form a compact hard wall which makes a case for the asci and ascospores, just as the filaments growing up from below the carpogonium produce a case for the carpospores in Poly- siphonia. The Blue and Green Molds (Plectascales). — S u p e r fi- cially these Molds resemble the true Molds discussed under the Mucorales, but their spore masses are gen- erally green or blue, while those of
. Botany for agricultural students . Botany. ASPERGILLUS 375 higher Red Algae, such as Polysiphonia, for as the ascogenous hyphae develop from the ascogonium, sterile hyphae, growing up from below the ascogonium, form a compact hard wall which makes a case for the asci and ascospores, just as the filaments growing up from below the carpogonium produce a case for the carpospores in Poly- siphonia. The Blue and Green Molds (Plectascales). — S u p e r fi- cially these Molds resemble the true Molds discussed under the Mucorales, but their spore masses are gen- erall)' green or blue, while those of Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/botany-for-agricultural-students-botany-aspergillus-375-higher-red-algae-such-as-polysiphonia-for-as-the-ascogenous-hyphae-develop-from-the-ascogonium-sterile-hyphae-growing-up-from-below-the-ascogonium-form-a-compact-hard-wall-which-makes-a-case-for-the-asci-and-ascospores-just-as-the-filaments-growing-up-from-below-the-carpogonium-produce-a-case-for-the-carpospores-in-poly-siphonia-the-blue-and-green-molds-plectascales-s-u-p-e-r-fi-cially-these-molds-resemble-the-true-molds-discussed-under-the-mucorales-but-their-spore-masses-are-gen-erall-green-or-blue-while-those-of-image232010245.html
RMRDCYC5–. Botany for agricultural students . Botany. ASPERGILLUS 375 higher Red Algae, such as Polysiphonia, for as the ascogenous hyphae develop from the ascogonium, sterile hyphae, growing up from below the ascogonium, form a compact hard wall which makes a case for the asci and ascospores, just as the filaments growing up from below the carpogonium produce a case for the carpospores in Poly- siphonia. The Blue and Green Molds (Plectascales). — S u p e r fi- cially these Molds resemble the true Molds discussed under the Mucorales, but their spore masses are gen- erall)' green or blue, while those of
. Botany, with agricultural applications. Botany. ASPERGILLUS 375 higher Red Algae, such as Polysiphbnia, for as the ascogenous hyphae develop from the ascogonium, sterile hyphae, growing up from below the ascogonium, form a compact hard wall which makes a case for the asci and ascospores, just as the filaments growing up from below the carpogonium produce a case for the carpospores in Poly- siphonia. The Blue and Green Molds (Plectascales). — S u p e r fi- ciaUy these Molds resemble the true Molds discussed under the Mucorales, but their spore masses are gen- erally green or blue, while those Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/botany-with-agricultural-applications-botany-aspergillus-375-higher-red-algae-such-as-polysiphbnia-for-as-the-ascogenous-hyphae-develop-from-the-ascogonium-sterile-hyphae-growing-up-from-below-the-ascogonium-form-a-compact-hard-wall-which-makes-a-case-for-the-asci-and-ascospores-just-as-the-filaments-growing-up-from-below-the-carpogonium-produce-a-case-for-the-carpospores-in-poly-siphonia-the-blue-and-green-molds-plectascales-s-u-p-e-r-fi-ciauy-these-molds-resemble-the-true-molds-discussed-under-the-mucorales-but-their-spore-masses-are-gen-erally-green-or-blue-while-those-image232284373.html
RMRDWD2D–. Botany, with agricultural applications. Botany. ASPERGILLUS 375 higher Red Algae, such as Polysiphbnia, for as the ascogenous hyphae develop from the ascogonium, sterile hyphae, growing up from below the ascogonium, form a compact hard wall which makes a case for the asci and ascospores, just as the filaments growing up from below the carpogonium produce a case for the carpospores in Poly- siphonia. The Blue and Green Molds (Plectascales). — S u p e r fi- ciaUy these Molds resemble the true Molds discussed under the Mucorales, but their spore masses are gen- erally green or blue, while those
. Removal of nitrate by an algal system. Water; Nitrates; Water; Algae. This is especially true in the case of pond mixing. Results demonstrated that in- organic carbon addition may be more important than mixing. Predicted seasonal variation in flows and nitro- gen concentrations of tile drainage from the San Joaquin Valley (see Figure 58) and climatic factors such as temperature and sunlight indi- cated that April was the criti- cal month for sizing the growth units. During this month, flows will be high, nitrogen con- centration should be about 30 mg/l, and sunlight and temper- ature conditi Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/removal-of-nitrate-by-an-algal-system-water-nitrates-water-algae-this-is-especially-true-in-the-case-of-pond-mixing-results-demonstrated-that-in-organic-carbon-addition-may-be-more-important-than-mixing-predicted-seasonal-variation-in-flows-and-nitro-gen-concentrations-of-tile-drainage-from-the-san-joaquin-valley-see-figure-58-and-climatic-factors-such-as-temperature-and-sunlight-indi-cated-that-april-was-the-criti-cal-month-for-sizing-the-growth-units-during-this-month-flows-will-be-high-nitrogen-con-centration-should-be-about-30-mgl-and-sunlight-and-temper-ature-conditi-image234359649.html
RMRH803D–. Removal of nitrate by an algal system. Water; Nitrates; Water; Algae. This is especially true in the case of pond mixing. Results demonstrated that in- organic carbon addition may be more important than mixing. Predicted seasonal variation in flows and nitro- gen concentrations of tile drainage from the San Joaquin Valley (see Figure 58) and climatic factors such as temperature and sunlight indi- cated that April was the criti- cal month for sizing the growth units. During this month, flows will be high, nitrogen con- centration should be about 30 mg/l, and sunlight and temper- ature conditi
. Ecological and systematic studies of the Ceylon species of Caulerpa. Marine algae. THE CEYLON SPECIES OF CAULERPA. Vi:i in my opinion, to have really hit upon the true character of this type. For, if we examine Harvey',s type-specimen (Friendly Isl. Alg. No. 77, at least the examples which are preserved in the Herbarium in the R. Riksmuseum in Stockholm) we shall find that, in reality, there are very few discs which are crenulate, and not in a single case have I been able to verify that a new stalk grows out from the crenule of the disc. Every time I thought I had found such a case the stalk Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/ecological-and-systematic-studies-of-the-ceylon-species-of-caulerpa-marine-algae-the-ceylon-species-of-caulerpa-vii-in-my-opinion-to-have-really-hit-upon-the-true-character-of-this-type-for-if-we-examine-harveys-type-specimen-friendly-isl-alg-no-77-at-least-the-examples-which-are-preserved-in-the-herbarium-in-the-r-riksmuseum-in-stockholm-we-shall-find-that-in-reality-there-are-very-few-discs-which-are-crenulate-and-not-in-a-single-case-have-i-been-able-to-verify-that-a-new-stalk-grows-out-from-the-crenule-of-the-disc-every-time-i-thought-i-had-found-such-a-case-the-stalk-image232351568.html
RMRE0EP8–. Ecological and systematic studies of the Ceylon species of Caulerpa. Marine algae. THE CEYLON SPECIES OF CAULERPA. Vi:i in my opinion, to have really hit upon the true character of this type. For, if we examine Harvey',s type-specimen (Friendly Isl. Alg. No. 77, at least the examples which are preserved in the Herbarium in the R. Riksmuseum in Stockholm) we shall find that, in reality, there are very few discs which are crenulate, and not in a single case have I been able to verify that a new stalk grows out from the crenule of the disc. Every time I thought I had found such a case the stalk
. Practical botany. Botany. THE GREEN AhGM (CHLOEOPHYCE^) 207 From high-tide mark to a Utile belo^A- low-water mark Fncus and AseophyUiim (kno^')l as rockweeds) often form dense coat- ings upon rocks. At low tide these rockweeds hang loosely over the exposed rocks. Such masses exhibit the dark olive-green color that is characteristic of the group. 190. Sargassum and the Sargasso seas. Some of the brown algae may become detached and be carried hun- dreds or even thousands of miles from their original growing places. This is true in the case of Sargassum, some species of which thrive along the Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/practical-botany-botany-the-green-ahgm-chloeophyce-207-from-high-tide-mark-to-a-utile-beloa-low-water-mark-fncus-and-aseophyuiim-knol-as-rockweeds-often-form-dense-coat-ings-upon-rocks-at-low-tide-these-rockweeds-hang-loosely-over-the-exposed-rocks-such-masses-exhibit-the-dark-olive-green-color-that-is-characteristic-of-the-group-190-sargassum-and-the-sargasso-seas-some-of-the-brown-algae-may-become-detached-and-be-carried-hun-dreds-or-even-thousands-of-miles-from-their-original-growing-places-this-is-true-in-the-case-of-sargassum-some-species-of-which-thrive-along-the-image232414654.html
RMRE3B7A–. Practical botany. Botany. THE GREEN AhGM (CHLOEOPHYCE^) 207 From high-tide mark to a Utile belo^A- low-water mark Fncus and AseophyUiim (kno^')l as rockweeds) often form dense coat- ings upon rocks. At low tide these rockweeds hang loosely over the exposed rocks. Such masses exhibit the dark olive-green color that is characteristic of the group. 190. Sargassum and the Sargasso seas. Some of the brown algae may become detached and be carried hun- dreds or even thousands of miles from their original growing places. This is true in the case of Sargassum, some species of which thrive along the
. The algae. Algae. /Mineral salts + /% / glucose-diffuse daylight y-Mineral salts + ,' /% glucose-dark Mineral salts - diffuse daylight 15 20 Fig. 203 Growth of the soil alga, Scenedesmus, under different conditions of nutrition and Hght. (After Roach.) maxanga in the Belgian Congo yielded a flora almost entirely com- posed of Myxophyceae, though in true savanna algae were rare, probably because of space and light competition. The growth of the soil algae has been a source of interest and ex - periment for a nimiber of years. Roach (1926) has found that ordinary growth in Scenedesmus costulat Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-algae-algae-mineral-salts-glucose-diffuse-daylight-y-mineral-salts-glucose-dark-mineral-salts-diffuse-daylight-15-20-fig-203-growth-of-the-soil-alga-scenedesmus-under-different-conditions-of-nutrition-and-hght-after-roach-maxanga-in-the-belgian-congo-yielded-a-flora-almost-entirely-com-posed-of-myxophyceae-though-in-true-savanna-algae-were-rare-probably-because-of-space-and-light-competition-the-growth-of-the-soil-algae-has-been-a-source-of-interest-and-ex-periment-for-a-nimiber-of-years-roach-1926-has-found-that-ordinary-growth-in-scenedesmus-costulat-image237821570.html
RMRPWKRE–. The algae. Algae. /Mineral salts + /% / glucose-diffuse daylight y-Mineral salts + ,' /% glucose-dark Mineral salts - diffuse daylight 15 20 Fig. 203 Growth of the soil alga, Scenedesmus, under different conditions of nutrition and Hght. (After Roach.) maxanga in the Belgian Congo yielded a flora almost entirely com- posed of Myxophyceae, though in true savanna algae were rare, probably because of space and light competition. The growth of the soil algae has been a source of interest and ex - periment for a nimiber of years. Roach (1926) has found that ordinary growth in Scenedesmus costulat
. The algae. Algae. Fig. 130 Gelidium corneum: a, plant ( x|); b, apex; c, section of thallus; d, carpogonial branch; e, carpospores (ca) and nutritive cells (nu). (a, after Oltmanns; b-e, after Kylin.) primary pericentral cells, with a peripheral zone of small cells with interspersed hyphae. There is no true auxihary cell, but the presence of nutrient cells in the vicinity of the carpogonial branch results in the production of a complex structure composed of several carpo- gonia with small nutrient cells in short branches, and only one of these carpogonia needs to be fertiUzed. After fertihza Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/the-algae-algae-fig-130-gelidium-corneum-a-plant-x-b-apex-c-section-of-thallus-d-carpogonial-branch-e-carpospores-ca-and-nutritive-cells-nu-a-after-oltmanns-b-e-after-kylin-primary-pericentral-cells-with-a-peripheral-zone-of-small-cells-with-interspersed-hyphae-there-is-no-true-auxihary-cell-but-the-presence-of-nutrient-cells-in-the-vicinity-of-the-carpogonial-branch-results-in-the-production-of-a-complex-structure-composed-of-several-carpo-gonia-with-small-nutrient-cells-in-short-branches-and-only-one-of-these-carpogonia-needs-to-be-fertiuzed-after-fertihza-image237822820.html
RMRPWNC4–. The algae. Algae. Fig. 130 Gelidium corneum: a, plant ( x|); b, apex; c, section of thallus; d, carpogonial branch; e, carpospores (ca) and nutritive cells (nu). (a, after Oltmanns; b-e, after Kylin.) primary pericentral cells, with a peripheral zone of small cells with interspersed hyphae. There is no true auxihary cell, but the presence of nutrient cells in the vicinity of the carpogonial branch results in the production of a complex structure composed of several carpo- gonia with small nutrient cells in short branches, and only one of these carpogonia needs to be fertiUzed. After fertihza
. Diseases of plants induced by cryptogamic parasites; introduction to the study of pathogenic Fungi, slime-Fungi, bacteria, & Algae. Plant diseases; Parasitic plants; Fungi. 24 REACTION OF HOST TO PARASITKJ ATTACK. True atrophy is best seen in those cases where flower-forma- tion is suppressed. This effect of parasitic fungi on their host is by no means uncommon, the fungus alone reproducing itself, while the assimilating host-plant remains sterile. This atrophy is found not only in annual plants, but also in those where the symbiosis might be designated as perennial. The last-mentioned c Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/diseases-of-plants-induced-by-cryptogamic-parasites-introduction-to-the-study-of-pathogenic-fungi-slime-fungi-bacteria-amp-algae-plant-diseases-parasitic-plants-fungi-24-reaction-of-host-to-parasitkj-attack-true-atrophy-is-best-seen-in-those-cases-where-flower-forma-tion-is-suppressed-this-effect-of-parasitic-fungi-on-their-host-is-by-no-means-uncommon-the-fungus-alone-reproducing-itself-while-the-assimilating-host-plant-remains-sterile-this-atrophy-is-found-not-only-in-annual-plants-but-also-in-those-where-the-symbiosis-might-be-designated-as-perennial-the-last-mentioned-c-image231401200.html
RMRCD6GG–. Diseases of plants induced by cryptogamic parasites; introduction to the study of pathogenic Fungi, slime-Fungi, bacteria, & Algae. Plant diseases; Parasitic plants; Fungi. 24 REACTION OF HOST TO PARASITKJ ATTACK. True atrophy is best seen in those cases where flower-forma- tion is suppressed. This effect of parasitic fungi on their host is by no means uncommon, the fungus alone reproducing itself, while the assimilating host-plant remains sterile. This atrophy is found not only in annual plants, but also in those where the symbiosis might be designated as perennial. The last-mentioned c
. Elements of plant anatomy;. Botany -- Anatomy. ANATOMY OF TISSUES. 79 name, though it was given them before the true nature of their rehition to the hyphae threads was known. The hyphae com- posing pith and rind are not at all different from those of other fungi ; their w^alls consist of fungous cellulose. The algae which are found in the lichens are similar to those wdiich exist as separate plants ; they occur either in chains or as single cells. They contain chlorophyll, and in some instances. Fig. 38. Tissue of Ixocella tlnctora, teased out with needles to sliow tlie form of the elements. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/elements-of-plant-anatomy-botany-anatomy-anatomy-of-tissues-79-name-though-it-was-given-them-before-the-true-nature-of-their-rehition-to-the-hyphae-threads-was-known-the-hyphae-com-posing-pith-and-rind-are-not-at-all-different-from-those-of-other-fungi-their-walls-consist-of-fungous-cellulose-the-algae-which-are-found-in-the-lichens-are-similar-to-those-wdiich-exist-as-separate-plants-they-occur-either-in-chains-or-as-single-cells-they-contain-chlorophyll-and-in-some-instances-fig-38-tissue-of-ixocella-tlnctora-teased-out-with-needles-to-sliow-tlie-form-of-the-elements-image231436554.html
RMRCERK6–. Elements of plant anatomy;. Botany -- Anatomy. ANATOMY OF TISSUES. 79 name, though it was given them before the true nature of their rehition to the hyphae threads was known. The hyphae com- posing pith and rind are not at all different from those of other fungi ; their w^alls consist of fungous cellulose. The algae which are found in the lichens are similar to those wdiich exist as separate plants ; they occur either in chains or as single cells. They contain chlorophyll, and in some instances. Fig. 38. Tissue of Ixocella tlnctora, teased out with needles to sliow tlie form of the elements.
. Diseases of plants induced by cryptogamic parasites; introduction to the study of pathogenic Fungi, slime-Fungi, bacteria, & Algae. Plant diseases; Parasitic plants; Fungi. 24 REACTION OF HOST TO PARASITIC ATTACK. True atrophy is best seen in those cases where iiower-iornia- tion is suppressed. This effect of parasitic fungi on their host is by no means uncommon, the fungus alone reproducing itself, while the assimilating host-plant remains sterile. This atrophy is found not only in annual plants, but also in those where the symbiosis iniglit be designated as perennial. The last-mentione Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/diseases-of-plants-induced-by-cryptogamic-parasites-introduction-to-the-study-of-pathogenic-fungi-slime-fungi-bacteria-amp-algae-plant-diseases-parasitic-plants-fungi-24-reaction-of-host-to-parasitic-attack-true-atrophy-is-best-seen-in-those-cases-where-iiower-iornia-tion-is-suppressed-this-effect-of-parasitic-fungi-on-their-host-is-by-no-means-uncommon-the-fungus-alone-reproducing-itself-while-the-assimilating-host-plant-remains-sterile-this-atrophy-is-found-not-only-in-annual-plants-but-also-in-those-where-the-symbiosis-iniglit-be-designated-as-perennial-the-last-mentione-image231400987.html
RMRCD68Y–. Diseases of plants induced by cryptogamic parasites; introduction to the study of pathogenic Fungi, slime-Fungi, bacteria, & Algae. Plant diseases; Parasitic plants; Fungi. 24 REACTION OF HOST TO PARASITIC ATTACK. True atrophy is best seen in those cases where iiower-iornia- tion is suppressed. This effect of parasitic fungi on their host is by no means uncommon, the fungus alone reproducing itself, while the assimilating host-plant remains sterile. This atrophy is found not only in annual plants, but also in those where the symbiosis iniglit be designated as perennial. The last-mentione
. Diseases of plants induced by cryptogamuc parasites; introduction to the study of pathogenic fungi, slime-fungi, bacteria, and algae. English ed. by William G. Smith. Plant diseases; Parasitic plants. â 24 REACTION OF HOST TO PARASITIC ATTACK. True atropliy is best seen in those cases where ilower-forma- tion is suppressed. This effect of parasitic fungi on their host is by' no means uncommon, the fungus alone reproducing itself, while the assimilating host-plant remains sterile. This atrophy is found not only in annual plants, but also in those where the symbiosis might be designated as per Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/diseases-of-plants-induced-by-cryptogamuc-parasites-introduction-to-the-study-of-pathogenic-fungi-slime-fungi-bacteria-and-algae-english-ed-by-william-g-smith-plant-diseases-parasitic-plants-24-reaction-of-host-to-parasitic-attack-true-atropliy-is-best-seen-in-those-cases-where-ilower-forma-tion-is-suppressed-this-effect-of-parasitic-fungi-on-their-host-is-by-no-means-uncommon-the-fungus-alone-reproducing-itself-while-the-assimilating-host-plant-remains-sterile-this-atrophy-is-found-not-only-in-annual-plants-but-also-in-those-where-the-symbiosis-might-be-designated-as-per-image231376652.html
RMRCC37T–. Diseases of plants induced by cryptogamuc parasites; introduction to the study of pathogenic fungi, slime-fungi, bacteria, and algae. English ed. by William G. Smith. Plant diseases; Parasitic plants. â 24 REACTION OF HOST TO PARASITIC ATTACK. True atropliy is best seen in those cases where ilower-forma- tion is suppressed. This effect of parasitic fungi on their host is by' no means uncommon, the fungus alone reproducing itself, while the assimilating host-plant remains sterile. This atrophy is found not only in annual plants, but also in those where the symbiosis might be designated as per
. Diseases of plants induced by cryptogamuc parasites; introduction to the study of pathogenic fungi, slime-fungi, bacteria, and algae. English ed. by William G. Smith. Plant diseases; Parasitic plants. EFFECT OF PARASITIC FUNGI ON THE Fol!M OF HOST-PLANT. 23 I. raminculoides under the intiuenee of Atcidivm j^'^'nctatvin. .In the simpler cases the floral leaves were narrow, elongated, and greenish, stamens were formed but not carpels; in more pro- nounced cases, the petals were only represented as snmll, simple,. Kk;. 5.—Clieirv true iu Ijlossniii, witli throe " witch (v. Tubouf phot.) Ij Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/diseases-of-plants-induced-by-cryptogamuc-parasites-introduction-to-the-study-of-pathogenic-fungi-slime-fungi-bacteria-and-algae-english-ed-by-william-g-smith-plant-diseases-parasitic-plants-effect-of-parasitic-fungi-on-the-fol!m-of-host-plant-23-i-raminculoides-under-the-intiuenee-of-atcidivm-jnctatvin-in-the-simpler-cases-the-floral-leaves-were-narrow-elongated-and-greenish-stamens-were-formed-but-not-carpels-in-more-pro-nounced-cases-the-petals-were-only-represented-as-snmll-simple-kk-5clieirv-true-iu-ijlossniii-witli-throe-quot-witch-v-tubouf-phot-ij-image231376654.html
RMRCC37X–. Diseases of plants induced by cryptogamuc parasites; introduction to the study of pathogenic fungi, slime-fungi, bacteria, and algae. English ed. by William G. Smith. Plant diseases; Parasitic plants. EFFECT OF PARASITIC FUNGI ON THE Fol!M OF HOST-PLANT. 23 I. raminculoides under the intiuenee of Atcidivm j^'^'nctatvin. .In the simpler cases the floral leaves were narrow, elongated, and greenish, stamens were formed but not carpels; in more pro- nounced cases, the petals were only represented as snmll, simple,. Kk;. 5.—Clieirv true iu Ijlossniii, witli throe " witch (v. Tubouf phot.) Ij
. Docking report manual : quide to fouling organisms and instructions regarding the docking report. Fouling organisms. |! I u iri: i Fig. V, Algae, A, D, E, green algae; B, a red alga; C, a brown alga. ALGAE (Green "Moss", Brovm "Moss") The zone of fouling just below the water line is usually composed of Algae. These are true ma- rine plants, and cLside from microscopic forms and a few flowering plants, the only members of the vegetable kingdom that occur in the sea. Since they cannot grow without light, they are seldom found on the deeper portions of the hull between the b Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/docking-report-manual-quide-to-fouling-organisms-and-instructions-regarding-the-docking-report-fouling-organisms-!-i-u-iri-i-fig-v-algae-a-d-e-green-algae-b-a-red-alga-c-a-brown-alga-algae-green-quotmossquot-brovm-quotmossquot-the-zone-of-fouling-just-below-the-water-line-is-usually-composed-of-algae-these-are-true-ma-rine-plants-and-clside-from-microscopic-forms-and-a-few-flowering-plants-the-only-members-of-the-vegetable-kingdom-that-occur-in-the-sea-since-they-cannot-grow-without-light-they-are-seldom-found-on-the-deeper-portions-of-the-hull-between-the-b-image231381249.html
RMRCC941–. Docking report manual : quide to fouling organisms and instructions regarding the docking report. Fouling organisms. |! I u iri: i Fig. V, Algae, A, D, E, green algae; B, a red alga; C, a brown alga. ALGAE (Green "Moss", Brovm "Moss") The zone of fouling just below the water line is usually composed of Algae. These are true ma- rine plants, and cLside from microscopic forms and a few flowering plants, the only members of the vegetable kingdom that occur in the sea. Since they cannot grow without light, they are seldom found on the deeper portions of the hull between the b
Download Confirmation
Please complete the form below. The information provided will be included in your download confirmation