bird's-nest orchid (Neottia nidus-avis), two individuals in bud, Germany Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-birds-nest-orchid-neottia-nidus-avis-two-individuals-in-bud-germany-58155504.html
RMDAH5X8–bird's-nest orchid (Neottia nidus-avis), two individuals in bud, Germany
A woman's hand holds white yellow orchid flower bud on a coastline background. Rest in tropical countries. Beauty of nature. Sandy beach and sea. Sand Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/a-womans-hand-holds-white-yellow-orchid-flower-bud-on-a-coastline-background-rest-in-tropical-countries-beauty-of-nature-sandy-beach-and-sea-sand-image619832472.html
RM2Y0BPJ0–A woman's hand holds white yellow orchid flower bud on a coastline background. Rest in tropical countries. Beauty of nature. Sandy beach and sea. Sand
Clove (Syzygium aromaticum), fresh cloves in a hand, Tanzania, Sansibar Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-clove-syzygium-aromaticum-fresh-cloves-in-a-hand-tanzania-sansibar-76028002.html
RMEBKADP–Clove (Syzygium aromaticum), fresh cloves in a hand, Tanzania, Sansibar
STUTTGART, GERMANY, JUN 30th 2018: Riccardo Pizzuti (Actor in Terence Hill/Bud Spencer Italo Westerns) is happy to meet fans at Comic Con Germany Stut Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stuttgart-germany-jun-30th-2018-riccardo-pizzuti-actor-in-terence-hillbud-spencer-italo-westerns-is-happy-to-meet-fans-at-comic-con-germany-stut-image619200572.html
RM2XYB0J4–STUTTGART, GERMANY, JUN 30th 2018: Riccardo Pizzuti (Actor in Terence Hill/Bud Spencer Italo Westerns) is happy to meet fans at Comic Con Germany Stut
pasque flower (Pulsatilla vulgaris), silhouette in the twilight, Germany Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-pasque-flower-pulsatilla-vulgaris-silhouette-in-the-twilight-germany-76106755.html
RMEBPXXB–pasque flower (Pulsatilla vulgaris), silhouette in the twilight, Germany
Family holding young green tree in spring. Ecology concept Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/family-holding-young-green-tree-in-spring-ecology-concept-image619610090.html
RM2Y01JYP–Family holding young green tree in spring. Ecology concept
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RFAP04XD–Mature couple, woman holding rose bud
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RM2XYM1CH–Child and senior man holding green plant in hands. Ecology concept
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RM2K0TK7E–Beautiful Musikkpaviljongen / Music Pavillion in Bergen Norway
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RM2XYHYX1–Young boy holding sprout in his hands isolated on white
The Tanganyika problem; an account of the researches undertaken concerning the existence of marine animals in Central Africa . ith endo-derm. final stages of their evolution seems to be the same asthat witnessed in the case of the sessile buds. Returning now to the consideration of the life-history ofLimnocnida, it has been seen that at the end of the wetseason, that is in March, there are a few adult medusae inthe lake which are only to be found with great difficulty.Such individuals begin about this time to bud, asexually, inthe manner I have just described, and the buds thus formed,themselv Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-tanganyika-problem-an-account-of-the-researches-undertaken-concerning-the-existence-of-marine-animals-in-central-africa-ith-endo-derm-final-stages-of-their-evolution-seems-to-be-the-same-asthat-witnessed-in-the-case-of-the-sessile-buds-returning-now-to-the-consideration-of-the-life-history-oflimnocnida-it-has-been-seen-that-at-the-end-of-the-wetseason-that-is-in-march-there-are-a-few-adult-medusae-inthe-lake-which-are-only-to-be-found-with-great-difficultysuch-individuals-begin-about-this-time-to-bud-asexually-inthe-manner-i-have-just-described-and-the-buds-thus-formedthemselv-image339093449.html
RM2AKK149–The Tanganyika problem; an account of the researches undertaken concerning the existence of marine animals in Central Africa . ith endo-derm. final stages of their evolution seems to be the same asthat witnessed in the case of the sessile buds. Returning now to the consideration of the life-history ofLimnocnida, it has been seen that at the end of the wetseason, that is in March, there are a few adult medusae inthe lake which are only to be found with great difficulty.Such individuals begin about this time to bud, asexually, inthe manner I have just described, and the buds thus formed,themselv
Closeup picture of beautiful rose Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/closeup-picture-of-beautiful-rose-image619685340.html
RM2Y052Y8–Closeup picture of beautiful rose
. Zoology : for students and general readers . Zoology. DEVELOPMENT OF ASGIDIANS. 203 Huxley, merely as a kind of stalk, from -which new zooids bud out, and this process, in his opinion, "leads to the still more singular process of development in Pyrosoma, in which the first formed embryo attains only an imperfect develop- ment, and disappears after having given rise to four ascidio- zooids." In Clavellina and PerojjJiora the original parent Ascidian throws ofE branches or stolons from which develop new individuals. The usual mode of development in the simple and com- pound Ascidians Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/zoology-for-students-and-general-readers-zoology-development-of-asgidians-203-huxley-merely-as-a-kind-of-stalk-from-which-new-zooids-bud-out-and-this-process-in-his-opinion-quotleads-to-the-still-more-singular-process-of-development-in-pyrosoma-in-which-the-first-formed-embryo-attains-only-an-imperfect-develop-ment-and-disappears-after-having-given-rise-to-four-ascidio-zooidsquot-in-clavellina-and-perojjjiora-the-original-parent-ascidian-throws-ofe-branches-or-stolons-from-which-develop-new-individuals-the-usual-mode-of-development-in-the-simple-and-com-pound-ascidians-image216394298.html
RMPG1H3P–. Zoology : for students and general readers . Zoology. DEVELOPMENT OF ASGIDIANS. 203 Huxley, merely as a kind of stalk, from -which new zooids bud out, and this process, in his opinion, "leads to the still more singular process of development in Pyrosoma, in which the first formed embryo attains only an imperfect develop- ment, and disappears after having given rise to four ascidio- zooids." In Clavellina and PerojjJiora the original parent Ascidian throws ofE branches or stolons from which develop new individuals. The usual mode of development in the simple and com- pound Ascidians
Seedling green plant on a white background. Isolated Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/seedling-green-plant-on-a-white-background-isolated-image619203612.html
RM2XYB4EM–Seedling green plant on a white background. Isolated
. Elementary physiology . Fig. 113.—Section through the middle of a taste bud. CRanvier.) /, gustatory pore ; 5, gustatory cell ; r, sustentacular cell; m, lymph cell, containing fatty granules ; e, superficial ceils of the stratified epithelium ; «, nerve fibres. no taste sensations whatever can be appreciated on the tip of the tongue; while other individuals can only taste sweet sub- stances in this region. The distribution of the different kinds of taste sensation is not uniform, and varies in different indi- viduals. Most usually, sweet substances are tasted at the tip, and bitter substanc Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/elementary-physiology-fig-113section-through-the-middle-of-a-taste-bud-cranvier-gustatory-pore-5-gustatory-cell-r-sustentacular-cell-m-lymph-cell-containing-fatty-granules-e-superficial-ceils-of-the-stratified-epithelium-nerve-fibres-no-taste-sensations-whatever-can-be-appreciated-on-the-tip-of-the-tongue-while-other-individuals-can-only-taste-sweet-sub-stances-in-this-region-the-distribution-of-the-different-kinds-of-taste-sensation-is-not-uniform-and-varies-in-different-indi-viduals-most-usually-sweet-substances-are-tasted-at-the-tip-and-bitter-substanc-image178403468.html
RMMA6YCC–. Elementary physiology . Fig. 113.—Section through the middle of a taste bud. CRanvier.) /, gustatory pore ; 5, gustatory cell ; r, sustentacular cell; m, lymph cell, containing fatty granules ; e, superficial ceils of the stratified epithelium ; «, nerve fibres. no taste sensations whatever can be appreciated on the tip of the tongue; while other individuals can only taste sweet sub- stances in this region. The distribution of the different kinds of taste sensation is not uniform, and varies in different indi- viduals. Most usually, sweet substances are tasted at the tip, and bitter substanc
New life concept, parent and child hands holding small green plant sprout leaf growth at dirt soil heap white isolated Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/new-life-concept-parent-and-child-hands-holding-small-green-plant-sprout-leaf-growth-at-dirt-soil-heap-white-isolated-image619536545.html
RM2XYX955–New life concept, parent and child hands holding small green plant sprout leaf growth at dirt soil heap white isolated
Elementary text-book of zoology (1884) Elementary text-book of zoology elementarytextbo0101clau Year: 1884 CONJUGATION OF CILIATA. 203 nected by their ventral surfaces ; other Infusoria with a flat body like Oxytrichina, Chilodon, by their sides; while Enchelys, Halteria, Coleps, join together the anterior extremi- ties of their bodies, giving the appear- ance of transverse fission. A lateral conjugation also takes place not un- frequently in Vorti- cella, Trichodina, etc., between individuals of unequal size, the smaller one having the appearance of a bud (bud-like conju- gation) (tig. 143, Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/elementary-text-book-of-zoology-1884-elementary-text-book-of-zoology-elementarytextbo0101clau-year-1884-conjugation-of-ciliata-203-nected-by-their-ventral-surfaces-other-infusoria-with-a-flat-body-like-oxytrichina-chilodon-by-their-sides-while-enchelys-halteria-coleps-join-together-the-anterior-extremi-ties-of-their-bodies-giving-the-appear-ance-of-transverse-fission-a-lateral-conjugation-also-takes-place-not-un-frequently-in-vorti-cella-trichodina-etc-between-individuals-of-unequal-size-the-smaller-one-having-the-appearance-of-a-bud-bud-like-conju-gation-tig-143-image239616368.html
RMRWRD3C–Elementary text-book of zoology (1884) Elementary text-book of zoology elementarytextbo0101clau Year: 1884 CONJUGATION OF CILIATA. 203 nected by their ventral surfaces ; other Infusoria with a flat body like Oxytrichina, Chilodon, by their sides; while Enchelys, Halteria, Coleps, join together the anterior extremi- ties of their bodies, giving the appear- ance of transverse fission. A lateral conjugation also takes place not un- frequently in Vorti- cella, Trichodina, etc., between individuals of unequal size, the smaller one having the appearance of a bud (bud-like conju- gation) (tig. 143,
pasque flower (Pulsatilla vulgaris), silhouette in the twilight, Germany Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-pasque-flower-pulsatilla-vulgaris-silhouette-in-the-twilight-germany-76106753.html
RMEBPXX9–pasque flower (Pulsatilla vulgaris), silhouette in the twilight, Germany
greenhouse with seedlings in a nursery, roguing, Germany Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/greenhouse-with-seedlings-in-a-nursery-roguing-germany-image255211953.html
RMTR5WCH–greenhouse with seedlings in a nursery, roguing, Germany
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RM2K0TK76–Beautiful Musikkpaviljongen / Music Pavillion in Bergen Norway
A reference handbook of the medical sciences, embracing the entire range of scientific and practical medicine and allied science . was brought to the attentionof the scientific world by the epoch-making researchesof Trembley (1744) on Hydra. The present articlerefers to the process in animals only. Budding may result in the multiplication of freeindividuals, or in the formation of colonies consistingof individuals more or less intimately connected.When there is complete separation, the bud may befreed (1) in a condition differing little from that ofits parent except in size, as in Hydra, Fig. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/a-reference-handbook-of-the-medical-sciences-embracing-the-entire-range-of-scientific-and-practical-medicine-and-allied-science-was-brought-to-the-attentionof-the-scientific-world-by-the-epoch-making-researchesof-trembley-1744-on-hydra-the-present-articlerefers-to-the-process-in-animals-only-budding-may-result-in-the-multiplication-of-freeindividuals-or-in-the-formation-of-colonies-consistingof-individuals-more-or-less-intimately-connectedwhen-there-is-complete-separation-the-bud-may-befreed-1-in-a-condition-differing-little-from-that-ofits-parent-except-in-size-as-in-hydra-fig-image338477711.html
RM2AJJYNK–A reference handbook of the medical sciences, embracing the entire range of scientific and practical medicine and allied science . was brought to the attentionof the scientific world by the epoch-making researchesof Trembley (1744) on Hydra. The present articlerefers to the process in animals only. Budding may result in the multiplication of freeindividuals, or in the formation of colonies consistingof individuals more or less intimately connected.When there is complete separation, the bud may befreed (1) in a condition differing little from that ofits parent except in size, as in Hydra, Fig.
. Plant propagation : greenhouse and nursery practice . Plant propagation. 184 J'l.ANT rROPA(;ATION (lividiialily of orcliard trees and tlie necessity (if iirupagatinK fmi i individuals having the best eliaraetcrs. The speaker does not he Heve in "pedigreed trees", timUng hut little in either theory or fact to substantiate the claim of those who heliee they can improNc varieties by bud selection. The multitude of trees in any ariety, all from one seed, it seems paradoxical to say, are morphologically one individual. A plant variety propagated by buds is essentially complete in its Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/plant-propagation-greenhouse-and-nursery-practice-plant-propagation-184-jlant-rropaation-lividiialily-of-orcliard-trees-and-tlie-necessity-if-iirupagatink-fmi-i-individuals-having-the-best-eliaraetcrs-the-speaker-does-not-he-heve-in-quotpedigreed-treesquot-timung-hut-little-in-either-theory-or-fact-to-substantiate-the-claim-of-those-who-heliee-they-can-impronc-varieties-by-bud-selection-the-multitude-of-trees-in-any-ariety-all-from-one-seed-it-seems-paradoxical-to-say-are-morphologically-one-individual-a-plant-variety-propagated-by-buds-is-essentially-complete-in-its-image216403817.html
RMPG217N–. Plant propagation : greenhouse and nursery practice . Plant propagation. 184 J'l.ANT rROPA(;ATION (lividiialily of orcliard trees and tlie necessity (if iirupagatinK fmi i individuals having the best eliaraetcrs. The speaker does not he Heve in "pedigreed trees", timUng hut little in either theory or fact to substantiate the claim of those who heliee they can improNc varieties by bud selection. The multitude of trees in any ariety, all from one seed, it seems paradoxical to say, are morphologically one individual. A plant variety propagated by buds is essentially complete in its
. Elementary biology; an introduction to the science of life . Fig. no. Grafts A bud or twig of one plant is made to grow by means of nourishment supplied by the root or stem of another plant. The root or stem supplying the nourishment is called the stock; the bud or twig grafted on the stock is called the scion. The figure shows stem, bud, and root grafts experimental grafts have been produced with two halves from different individuals. The most interesting grafts, from a practical point of view, are the fairly common skin grafts. More far-reaching are the experiments of recent years, in whic Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/elementary-biology-an-introduction-to-the-science-of-life-fig-no-grafts-a-bud-or-twig-of-one-plant-is-made-to-grow-by-means-of-nourishment-supplied-by-the-root-or-stem-of-another-plant-the-root-or-stem-supplying-the-nourishment-is-called-the-stock-the-bud-or-twig-grafted-on-the-stock-is-called-the-scion-the-figure-shows-stem-bud-and-root-grafts-experimental-grafts-have-been-produced-with-two-halves-from-different-individuals-the-most-interesting-grafts-from-a-practical-point-of-view-are-the-fairly-common-skin-grafts-more-far-reaching-are-the-experiments-of-recent-years-in-whic-image178409330.html
RMMA76WP–. Elementary biology; an introduction to the science of life . Fig. no. Grafts A bud or twig of one plant is made to grow by means of nourishment supplied by the root or stem of another plant. The root or stem supplying the nourishment is called the stock; the bud or twig grafted on the stock is called the scion. The figure shows stem, bud, and root grafts experimental grafts have been produced with two halves from different individuals. The most interesting grafts, from a practical point of view, are the fairly common skin grafts. More far-reaching are the experiments of recent years, in whic
Elementary text-book of zoology . elementarytextbo0101clau Year: 1884 CONJUGATION OF CILIATA. 203 nected by their ventral surfaces ; other Infusoria with a flat body like Oxytrichina, Chilodon, by their sides; while Enchelys, Halteria, Coleps, join together the anterior extremi- ties of their bodies, giving the appear- ance of transverse fission. A lateral conjugation also takes place not un- frequently in Vorti- cella, Trichodina, etc., between individuals of unequal size, the smaller one having the appearance of a bud (bud-like conju- gation) (tig. 143, c). The alterations which the nucleus Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/elementary-text-book-of-zoology-elementarytextbo0101clau-year-1884-conjugation-of-ciliata-203-nected-by-their-ventral-surfaces-other-infusoria-with-a-flat-body-like-oxytrichina-chilodon-by-their-sides-while-enchelys-halteria-coleps-join-together-the-anterior-extremi-ties-of-their-bodies-giving-the-appear-ance-of-transverse-fission-a-lateral-conjugation-also-takes-place-not-un-frequently-in-vorti-cella-trichodina-etc-between-individuals-of-unequal-size-the-smaller-one-having-the-appearance-of-a-bud-bud-like-conju-gation-tig-143-c-the-alterations-which-the-nucleus-image241001776.html
RMT02G68–Elementary text-book of zoology . elementarytextbo0101clau Year: 1884 CONJUGATION OF CILIATA. 203 nected by their ventral surfaces ; other Infusoria with a flat body like Oxytrichina, Chilodon, by their sides; while Enchelys, Halteria, Coleps, join together the anterior extremi- ties of their bodies, giving the appear- ance of transverse fission. A lateral conjugation also takes place not un- frequently in Vorti- cella, Trichodina, etc., between individuals of unequal size, the smaller one having the appearance of a bud (bud-like conju- gation) (tig. 143, c). The alterations which the nucleus
greenhouse with seedlings in a nursery, roguing, Germany Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/greenhouse-with-seedlings-in-a-nursery-roguing-germany-image255211954.html
RMTR5WCJ–greenhouse with seedlings in a nursery, roguing, Germany
common snowdrop (Galanthus nivalis), bud in ice Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/common-snowdrop-galanthus-nivalis-bud-in-ice-image418489473.html
RM2F8RRGH–common snowdrop (Galanthus nivalis), bud in ice
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RM2K0TK8A–Beautiful Musikkpaviljongen / Music Pavillion in Bergen Norway
common beech (Fagus sylvatica), seedling of beech protected in the hand of a woman Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-common-beech-fagus-sylvatica-seedling-of-beech-protected-in-the-hand-76158740.html
RMEBW970–common beech (Fagus sylvatica), seedling of beech protected in the hand of a woman
The royal natural history . 5o8 CCELENTERA TES. buds. Each bud is a living, feeding, coral-animal, surrounded by its crown oftentacles. These madrepores play no small part in building up coral-reefs, andthe many different elegant forms which they assume (while keeping to theirmethod of budding) is astounding. Some corals, again, do not form true branches,but may cover the ground like a field of corn,—a good example of this type beingfound in Cladocora ccespitosa, which inhabits the Mediterranean and Adriatic seas.Here the single individuals form somewhat long tubes, and the buds ariselaterally Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-royal-natural-history-5o8-ccelentera-tes-buds-each-bud-is-a-living-feeding-coral-animal-surrounded-by-its-crown-oftentacles-these-madrepores-play-no-small-part-in-building-up-coral-reefs-andthe-many-different-elegant-forms-which-they-assume-while-keeping-to-theirmethod-of-budding-is-astounding-some-corals-again-do-not-form-true-branchesbut-may-cover-the-ground-like-a-field-of-corna-good-example-of-this-type-beingfound-in-cladocora-ccespitosa-which-inhabits-the-mediterranean-and-adriatic-seashere-the-single-individuals-form-somewhat-long-tubes-and-the-buds-ariselaterally-image339980846.html
RM2AN3D12–The royal natural history . 5o8 CCELENTERA TES. buds. Each bud is a living, feeding, coral-animal, surrounded by its crown oftentacles. These madrepores play no small part in building up coral-reefs, andthe many different elegant forms which they assume (while keeping to theirmethod of budding) is astounding. Some corals, again, do not form true branches,but may cover the ground like a field of corn,—a good example of this type beingfound in Cladocora ccespitosa, which inhabits the Mediterranean and Adriatic seas.Here the single individuals form somewhat long tubes, and the buds ariselaterally
loquat, Japanese plum (Eriobotrya japonica), seedling in a crock Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-loquat-japanese-plum-eriobotrya-japonica-seedling-in-a-crock-76067934.html
RMEBN5BX–loquat, Japanese plum (Eriobotrya japonica), seedling in a crock
. Zoology : for students and general readers . Zoology. 54 ZOOLOGY. The process of budding is but a modification of tliat in- volved in natural self-division, and it is carried on to a great extent in Hydra, a mucli larger number of individuals being produced in this way than from eggs. Our figure (3G) shows two individuals budding out from the parent Hydra ; the smaller bud («) is a simple bulging out of the body-walls, the bud enveloping a por- tion of the stomach, until it becomes con- stricted and drops off, the tentacles mean- while budding out from the distal end, and a mouth-opening ari Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/zoology-for-students-and-general-readers-zoology-54-zoology-the-process-of-budding-is-but-a-modification-of-tliat-in-volved-in-natural-self-division-and-it-is-carried-on-to-a-great-extent-in-hydra-a-mucli-larger-number-of-individuals-being-produced-in-this-way-than-from-eggs-our-figure-3g-shows-two-individuals-budding-out-from-the-parent-hydra-the-smaller-bud-is-a-simple-bulging-out-of-the-body-walls-the-bud-enveloping-a-por-tion-of-the-stomach-until-it-becomes-con-stricted-and-drops-off-the-tentacles-mean-while-budding-out-from-the-distal-end-and-a-mouth-opening-ari-image216404709.html
RMPG22BH–. Zoology : for students and general readers . Zoology. 54 ZOOLOGY. The process of budding is but a modification of tliat in- volved in natural self-division, and it is carried on to a great extent in Hydra, a mucli larger number of individuals being produced in this way than from eggs. Our figure (3G) shows two individuals budding out from the parent Hydra ; the smaller bud («) is a simple bulging out of the body-walls, the bud enveloping a por- tion of the stomach, until it becomes con- stricted and drops off, the tentacles mean- while budding out from the distal end, and a mouth-opening ari
Common poppy, Corn poppy, Red poppy (Papaver rhoeas), blooming poppy in front of black background Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/common-poppy-corn-poppy-red-poppy-papaver-rhoeas-blooming-poppy-in-front-of-black-background-image418489885.html
RM2F8RT39–Common poppy, Corn poppy, Red poppy (Papaver rhoeas), blooming poppy in front of black background
loquat, Japanese plum (Eriobotrya japonica), seedling cutted out Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-loquat-japanese-plum-eriobotrya-japonica-seedling-cutted-out-76067935.html
RMEBN5BY–loquat, Japanese plum (Eriobotrya japonica), seedling cutted out
First lesson in zoology : adapted for use in schools . ts former stomach-lining having now become its skin.The Hydra reproduces by budding as well as by eggs. The process of budding is but a modification of that in-volved in natural self-division, and it is carried on to agreat extent in Hydra, a much larger number of individualsbeing produced in this way than from eggs. Our figure(^1) shows two individuals budding out from the parent 28 FIRST LESSONS IN ZOOLOGY. Hydra; the smaller bud (q) is a simple bulging out of thebody-wallsj the bud enTeloping a portion of the stomach,until it becomes co Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/first-lesson-in-zoology-adapted-for-use-in-schools-ts-former-stomach-lining-having-now-become-its-skinthe-hydra-reproduces-by-budding-as-well-as-by-eggs-the-process-of-budding-is-but-a-modification-of-that-in-volved-in-natural-self-division-and-it-is-carried-on-to-agreat-extent-in-hydra-a-much-larger-number-of-individualsbeing-produced-in-this-way-than-from-eggs-our-figure1-shows-two-individuals-budding-out-from-the-parent-28-first-lessons-in-zoology-hydra-the-smaller-bud-q-is-a-simple-bulging-out-of-thebody-wallsj-the-bud-enteloping-a-portion-of-the-stomachuntil-it-becomes-co-image339273013.html
RM2AKY659–First lesson in zoology : adapted for use in schools . ts former stomach-lining having now become its skin.The Hydra reproduces by budding as well as by eggs. The process of budding is but a modification of that in-volved in natural self-division, and it is carried on to agreat extent in Hydra, a much larger number of individualsbeing produced in this way than from eggs. Our figure(^1) shows two individuals budding out from the parent 28 FIRST LESSONS IN ZOOLOGY. Hydra; the smaller bud (q) is a simple bulging out of thebody-wallsj the bud enTeloping a portion of the stomach,until it becomes co
loquat, Japanese plum (Eriobotrya japonica), seedling cutted out Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-loquat-japanese-plum-eriobotrya-japonica-seedling-cutted-out-76067928.html
RMEBN5BM–loquat, Japanese plum (Eriobotrya japonica), seedling cutted out
. The Tanganyika problem; an account of the researches undertaken concerning the existence of marine animals in Central Africa . do-derm. final stages of their evolution seems to be the same asthat witnessed in the case of the sessile buds. Returning now to the consideration of the life-history ofLhnnocnida, it has been seen that at the end of the wetseason, that is in March, there are a few adult medus^t^ inthe lake which are only to be found with great difficulty.Such individuals begin about this time to bud, asexually, inthe manner I have just described, and the buds thus formed,themselves Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-tanganyika-problem-an-account-of-the-researches-undertaken-concerning-the-existence-of-marine-animals-in-central-africa-do-derm-final-stages-of-their-evolution-seems-to-be-the-same-asthat-witnessed-in-the-case-of-the-sessile-buds-returning-now-to-the-consideration-of-the-life-history-oflhnnocnida-it-has-been-seen-that-at-the-end-of-the-wetseason-that-is-in-march-there-are-a-few-adult-medust-inthe-lake-which-are-only-to-be-found-with-great-difficultysuch-individuals-begin-about-this-time-to-bud-asexually-inthe-manner-i-have-just-described-and-the-buds-thus-formedthemselves-image369681959.html
RM2CDCD33–. The Tanganyika problem; an account of the researches undertaken concerning the existence of marine animals in Central Africa . do-derm. final stages of their evolution seems to be the same asthat witnessed in the case of the sessile buds. Returning now to the consideration of the life-history ofLhnnocnida, it has been seen that at the end of the wetseason, that is in March, there are a few adult medus^t^ inthe lake which are only to be found with great difficulty.Such individuals begin about this time to bud, asexually, inthe manner I have just described, and the buds thus formed,themselves
loquat, Japanese plum (Eriobotrya japonica), seedling cutted out Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-loquat-japanese-plum-eriobotrya-japonica-seedling-cutted-out-76067933.html
RMEBN5BW–loquat, Japanese plum (Eriobotrya japonica), seedling cutted out
young plants in hands Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-young-plants-in-hands-47871620.html
RMCNTMMM–young plants in hands
. Heredity and evolution in plants . FIG. 60.—A plant of the evening-primrose ((Enothera biennis) which,by bud sporting, has given rise (at the left) to a branch having thecharacters of another species. the power, at least in the case of several individuals, ofdeveloping small capsules with a few fertile seeds. Theother was a smooth-leaved form with much prettier foliagethan O. Lamarckiana, and remarkable for the fact thatsome of its petals are smaller than those of the parent type,and lack the emarginate form which gives the petals of n6 HEREDITY AND EVOLUTION IN PLANTS Lamarckiana their cord Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/heredity-and-evolution-in-plants-fig-60a-plant-of-the-evening-primrose-enothera-biennis-whichby-bud-sporting-has-given-rise-at-the-left-to-a-branch-having-thecharacters-of-another-species-the-power-at-least-in-the-case-of-several-individuals-ofdeveloping-small-capsules-with-a-few-fertile-seeds-theother-was-a-smooth-leaved-form-with-much-prettier-foliagethan-o-lamarckiana-and-remarkable-for-the-fact-thatsome-of-its-petals-are-smaller-than-those-of-the-parent-typeand-lack-the-emarginate-form-which-gives-the-petals-of-n6-heredity-and-evolution-in-plants-lamarckiana-their-cord-image372290134.html
RM2CHK7T6–. Heredity and evolution in plants . FIG. 60.—A plant of the evening-primrose ((Enothera biennis) which,by bud sporting, has given rise (at the left) to a branch having thecharacters of another species. the power, at least in the case of several individuals, ofdeveloping small capsules with a few fertile seeds. Theother was a smooth-leaved form with much prettier foliagethan O. Lamarckiana, and remarkable for the fact thatsome of its petals are smaller than those of the parent type,and lack the emarginate form which gives the petals of n6 HEREDITY AND EVOLUTION IN PLANTS Lamarckiana their cord
. Everything for the garden : 1906 . PETER HENDERSON & CO., NEW YORK- 101. BEDDING PETUNIA. Large Single Blotched and Striped. Bedding Petunias are almost indispensable for garden decoration. Theyflower in a few weeks time from seed and continue to grow, bud and bloomin such luxuriance until killed by frost, and are so brilliantly effective, whethermassed in beds, borders or grown as individuals, that they are deservedly popular.The strain of seed we herewith offer is our very finest selection from this typeof Petunia, producing large, single flowers, hieroglyphically blotched, striped,flecked Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/everything-for-the-garden-1906-peter-henderson-co-new-york-101-bedding-petunia-large-single-blotched-and-striped-bedding-petunias-are-almost-indispensable-for-garden-decoration-theyflower-in-a-few-weeks-time-from-seed-and-continue-to-grow-bud-and-bloomin-such-luxuriance-until-killed-by-frost-and-are-so-brilliantly-effective-whethermassed-in-beds-borders-or-grown-as-individuals-that-they-are-deservedly-popularthe-strain-of-seed-we-herewith-offer-is-our-very-finest-selection-from-this-typeof-petunia-producing-large-single-flowers-hieroglyphically-blotched-stripedflecked-image372197061.html
RM2CHF145–. Everything for the garden : 1906 . PETER HENDERSON & CO., NEW YORK- 101. BEDDING PETUNIA. Large Single Blotched and Striped. Bedding Petunias are almost indispensable for garden decoration. Theyflower in a few weeks time from seed and continue to grow, bud and bloomin such luxuriance until killed by frost, and are so brilliantly effective, whethermassed in beds, borders or grown as individuals, that they are deservedly popular.The strain of seed we herewith offer is our very finest selection from this typeof Petunia, producing large, single flowers, hieroglyphically blotched, striped,flecked
. Plant propagation; greenhouse and nursery practice. -tice i)crmits, a stock is better for having been transplanted beforebuclding or grafting. 232. Pedigreed trees.—The selection of stocks leads straight tothe center of another problem. We hear much about the in- 184 PLANT rROPAGATION (lividualily nf nrclianl trees and the necessity of propagating froi ]individuals having the ))esl characters. The speaker does not hc-hevc in pedigreed trees, fnuHng but Httle in either theory or factto sul)stantiate the chiim of those who beheve they can improvevarieties by bud selection. The multitude of tre Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/plant-propagation-greenhouse-and-nursery-practice-tice-icrmits-a-stock-is-better-for-having-been-transplanted-beforebuclding-or-grafting-232-pedigreed-treesthe-selection-of-stocks-leads-straight-tothe-center-of-another-problem-we-hear-much-about-the-in-184-plant-rropagation-lividualily-nf-nrclianl-trees-and-the-necessity-of-propagating-froi-individuals-having-the-esl-characters-the-speaker-does-not-hc-hevc-in-pedigreed-trees-fnuhng-but-httle-in-either-theory-or-factto-sulstantiate-the-chiim-of-those-who-beheve-they-can-improvevarieties-by-bud-selection-the-multitude-of-tre-image370391359.html
RM2CEGNXR–. Plant propagation; greenhouse and nursery practice. -tice i)crmits, a stock is better for having been transplanted beforebuclding or grafting. 232. Pedigreed trees.—The selection of stocks leads straight tothe center of another problem. We hear much about the in- 184 PLANT rROPAGATION (lividualily nf nrclianl trees and the necessity of propagating froi ]individuals having the ))esl characters. The speaker does not hc-hevc in pedigreed trees, fnuHng but Httle in either theory or factto sul)stantiate the chiim of those who beheve they can improvevarieties by bud selection. The multitude of tre
. Pathogenic micro-organisms, including bacteria and Protozoa; a practical manual for students, physicians and health officers. /fn JCn. Lei/denia eemmipo)-o (a phase of chlamydophrys stercorea. A, single ameba; B, Plasmodia andbudding; n, nucleus; n, nucleus dividing; cv, contractile vacuole; v, vacuole; er, red blood cell;Kn, buds; Ka, ameba developed from bud. organisms remained motile in the ascitic fluid seven days after removal.The organism possesses a pulsating vacuole and one vesicular nucleus;it divides directly and by budding. The individuals seem readily tofuse (plastogamy). Schaudi Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/pathogenic-micro-organisms-including-bacteria-and-protozoa-a-practical-manual-for-students-physicians-and-health-officers-fn-jcn-leidenia-eemmipo-o-a-phase-of-chlamydophrys-stercorea-a-single-ameba-b-plasmodia-andbudding-n-nucleus-n-nucleus-dividing-cv-contractile-vacuole-v-vacuole-er-red-blood-cellkn-buds-ka-ameba-developed-from-bud-organisms-remained-motile-in-the-ascitic-fluid-seven-days-after-removalthe-organism-possesses-a-pulsating-vacuole-and-one-vesicular-nucleusit-divides-directly-and-by-budding-the-individuals-seem-readily-tofuse-plastogamy-schaudi-image370354011.html
RM2CEF28Y–. Pathogenic micro-organisms, including bacteria and Protozoa; a practical manual for students, physicians and health officers. /fn JCn. Lei/denia eemmipo)-o (a phase of chlamydophrys stercorea. A, single ameba; B, Plasmodia andbudding; n, nucleus; n, nucleus dividing; cv, contractile vacuole; v, vacuole; er, red blood cell;Kn, buds; Ka, ameba developed from bud. organisms remained motile in the ascitic fluid seven days after removal.The organism possesses a pulsating vacuole and one vesicular nucleus;it divides directly and by budding. The individuals seem readily tofuse (plastogamy). Schaudi
. Senescence and rejuvenescence. Age; Reproduction. 146 SENESCENCE AND REJUVENESCENCE newly developed individuals are distinctly more susceptible than the parents, i.e., they are physiologically younger. In the earlier stages of the bud, however, while it is still attached to the parent body and before it has developed the capacity for motor activity, its susceptibility is not appreciably different from that of adjoining regions of the parent body, or it may be even less susceptible than these regions. The fact that the increased susceptibility appears only after the asexually produced individ Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/senescence-and-rejuvenescence-age-reproduction-146-senescence-and-rejuvenescence-newly-developed-individuals-are-distinctly-more-susceptible-than-the-parents-ie-they-are-physiologically-younger-in-the-earlier-stages-of-the-bud-however-while-it-is-still-attached-to-the-parent-body-and-before-it-has-developed-the-capacity-for-motor-activity-its-susceptibility-is-not-appreciably-different-from-that-of-adjoining-regions-of-the-parent-body-or-it-may-be-even-less-susceptible-than-these-regions-the-fact-that-the-increased-susceptibility-appears-only-after-the-asexually-produced-individ-image232349515.html
RMRE0C4Y–. Senescence and rejuvenescence. Age; Reproduction. 146 SENESCENCE AND REJUVENESCENCE newly developed individuals are distinctly more susceptible than the parents, i.e., they are physiologically younger. In the earlier stages of the bud, however, while it is still attached to the parent body and before it has developed the capacity for motor activity, its susceptibility is not appreciably different from that of adjoining regions of the parent body, or it may be even less susceptible than these regions. The fact that the increased susceptibility appears only after the asexually produced individ
. The biology of the Protozoa. Protozoa; Protozoa. 36 BIOLOGY OF THE PROTOZOA polythalamous or many-chambered Foraminifera depending upon the position assumed b}' the bud (Nodosarine, Frondicularian, Rotah'ne t.^^pes, etc.). In colonial types the form of the aggregate is determined by the manner in which the individuals are held together after division. The different types are described as spheroid, catenoid, arboroid and gregaloid colonies. In the majority of spheroid colonies, the associated cells are held together b' a gelatinous matrix secreted. Please note that these images are extracted Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-biology-of-the-protozoa-protozoa-protozoa-36-biology-of-the-protozoa-polythalamous-or-many-chambered-foraminifera-depending-upon-the-position-assumed-b-the-bud-nodosarine-frondicularian-rotahne-tpes-etc-in-colonial-types-the-form-of-the-aggregate-is-determined-by-the-manner-in-which-the-individuals-are-held-together-after-division-the-different-types-are-described-as-spheroid-catenoid-arboroid-and-gregaloid-colonies-in-the-majority-of-spheroid-colonies-the-associated-cells-are-held-together-b-a-gelatinous-matrix-secreted-please-note-that-these-images-are-extracted-image234604960.html
RMRHK50G–. The biology of the Protozoa. Protozoa; Protozoa. 36 BIOLOGY OF THE PROTOZOA polythalamous or many-chambered Foraminifera depending upon the position assumed b}' the bud (Nodosarine, Frondicularian, Rotah'ne t.^^pes, etc.). In colonial types the form of the aggregate is determined by the manner in which the individuals are held together after division. The different types are described as spheroid, catenoid, arboroid and gregaloid colonies. In the majority of spheroid colonies, the associated cells are held together b' a gelatinous matrix secreted. Please note that these images are extracted
. A textbook in general zoology. Zoology. XVIII. UROCHORDA AND VERTEBRATA Branch XII. — Choedata (continued) Class —UEOOHORDA (with notochord) Sea Squirts Sea squirts. — The animals of this class are not well known to most of us. They are called ascidians as well as tunicates. They are marine animals, some species of which live a free-swimming life, while others are attached to rocks and are unable to move from place to place any more than the sponges. Like the sponges, many of them reproduce by bud- ding, thus forming large colonies of individuals. Other species pass a soli- tary existence. I Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/a-textbook-in-general-zoology-zoology-xviii-urochorda-and-vertebrata-branch-xii-choedata-continued-class-ueoohorda-with-notochord-sea-squirts-sea-squirts-the-animals-of-this-class-are-not-well-known-to-most-of-us-they-are-called-ascidians-as-well-as-tunicates-they-are-marine-animals-some-species-of-which-live-a-free-swimming-life-while-others-are-attached-to-rocks-and-are-unable-to-move-from-place-to-place-any-more-than-the-sponges-like-the-sponges-many-of-them-reproduce-by-bud-ding-thus-forming-large-colonies-of-individuals-other-species-pass-a-soli-tary-existence-i-image232113444.html
RMRDHK1T–. A textbook in general zoology. Zoology. XVIII. UROCHORDA AND VERTEBRATA Branch XII. — Choedata (continued) Class —UEOOHORDA (with notochord) Sea Squirts Sea squirts. — The animals of this class are not well known to most of us. They are called ascidians as well as tunicates. They are marine animals, some species of which live a free-swimming life, while others are attached to rocks and are unable to move from place to place any more than the sponges. Like the sponges, many of them reproduce by bud- ding, thus forming large colonies of individuals. Other species pass a soli- tary existence. I
. Practical text-book of plant physiology. Plant physiology. CARPOTROPIC MOVEMENTS OF AQUATICS 307 and curvatures of petioles of some species are examples of this action. 392. Carpotropic and Gamotropic Movements of Peduncles and Other Organs. Cultivate a number of individuals of any species of Fragaria, or any member of the poppy family and note the positions assumed by the flower bud, open flower and developing fruit. Determine position of motor zone producing movement.. 1 A B CD Fig. 144. Carpotropic movements of Allium Neapolitanum. D, inflorescence emerging from bracts, in which stage the Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/practical-text-book-of-plant-physiology-plant-physiology-carpotropic-movements-of-aquatics-307-and-curvatures-of-petioles-of-some-species-are-examples-of-this-action-392-carpotropic-and-gamotropic-movements-of-peduncles-and-other-organs-cultivate-a-number-of-individuals-of-any-species-of-fragaria-or-any-member-of-the-poppy-family-and-note-the-positions-assumed-by-the-flower-bud-open-flower-and-developing-fruit-determine-position-of-motor-zone-producing-movement-1-a-b-cd-fig-144-carpotropic-movements-of-allium-neapolitanum-d-inflorescence-emerging-from-bracts-in-which-stage-the-image232417044.html
RMRE3E8M–. Practical text-book of plant physiology. Plant physiology. CARPOTROPIC MOVEMENTS OF AQUATICS 307 and curvatures of petioles of some species are examples of this action. 392. Carpotropic and Gamotropic Movements of Peduncles and Other Organs. Cultivate a number of individuals of any species of Fragaria, or any member of the poppy family and note the positions assumed by the flower bud, open flower and developing fruit. Determine position of motor zone producing movement.. 1 A B CD Fig. 144. Carpotropic movements of Allium Neapolitanum. D, inflorescence emerging from bracts, in which stage the
. Anatomischer Anzeiger. Anatomy, Comparative; Anatomy, Comparative. 6/ which represents the corresponding normal leg of the other side of the same crab. In this same series the first, or chelate legs of other individuals were operated upon. Fig. 7 represents one of these in which the distal parts are regenerating. The leg is the larger of the first two. The new bud arises from the middle of the large cut- surface. The leg had been cut off between the fourth and fifth seg- ments. In the same figure there is seen (near the base to the right) the wound made by the scissors in cutting the muscles Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/anatomischer-anzeiger-anatomy-comparative-anatomy-comparative-6-which-represents-the-corresponding-normal-leg-of-the-other-side-of-the-same-crab-in-this-same-series-the-first-or-chelate-legs-of-other-individuals-were-operated-upon-fig-7-represents-one-of-these-in-which-the-distal-parts-are-regenerating-the-leg-is-the-larger-of-the-first-two-the-new-bud-arises-from-the-middle-of-the-large-cut-surface-the-leg-had-been-cut-off-between-the-fourth-and-fifth-seg-ments-in-the-same-figure-there-is-seen-near-the-base-to-the-right-the-wound-made-by-the-scissors-in-cutting-the-muscles-image236813280.html
RMRN7NN4–. Anatomischer Anzeiger. Anatomy, Comparative; Anatomy, Comparative. 6/ which represents the corresponding normal leg of the other side of the same crab. In this same series the first, or chelate legs of other individuals were operated upon. Fig. 7 represents one of these in which the distal parts are regenerating. The leg is the larger of the first two. The new bud arises from the middle of the large cut- surface. The leg had been cut off between the fourth and fifth seg- ments. In the same figure there is seen (near the base to the right) the wound made by the scissors in cutting the muscles
. Botany; an elementary text for schools. Plants. CHAPTER IV PROPAGATION BY MEANS OF ROOTS AND STEMS 48. The primary office of roots and stems is to support and maintain the plant; hut these parts may also serve to propagate the plant, or to produce new individuals. 49. PROPAGATION BY MEANS OF RHIZOMES.—0«e office of subterranean stems or rhizomes is to propagate the plant. Each stem has a bud at its end, and from this bud a shoot arises. By the dying away of the older part of the rhizome, this shoot becomes a separate plant, although the rhizome maintains its connection for years in some plan Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/botany-an-elementary-text-for-schools-plants-chapter-iv-propagation-by-means-of-roots-and-stems-48-the-primary-office-of-roots-and-stems-is-to-support-and-maintain-the-plant-hut-these-parts-may-also-serve-to-propagate-the-plant-or-to-produce-new-individuals-49-propagation-by-means-of-rhizomes0e-office-of-subterranean-stems-or-rhizomes-is-to-propagate-the-plant-each-stem-has-a-bud-at-its-end-and-from-this-bud-a-shoot-arises-by-the-dying-away-of-the-older-part-of-the-rhizome-this-shoot-becomes-a-separate-plant-although-the-rhizome-maintains-its-connection-for-years-in-some-plan-image234395766.html
RMRH9J5A–. Botany; an elementary text for schools. Plants. CHAPTER IV PROPAGATION BY MEANS OF ROOTS AND STEMS 48. The primary office of roots and stems is to support and maintain the plant; hut these parts may also serve to propagate the plant, or to produce new individuals. 49. PROPAGATION BY MEANS OF RHIZOMES.—0«e office of subterranean stems or rhizomes is to propagate the plant. Each stem has a bud at its end, and from this bud a shoot arises. By the dying away of the older part of the rhizome, this shoot becomes a separate plant, although the rhizome maintains its connection for years in some plan
. The cell; outlines of general anatomy and physiology. Cells; Anatomy; Physiology; Cells; Anatomy; Physiology. THE VITAL PROPERTIES OF THE CELL 303 rotating on its own longitudinal axis. After this liad been going on for several minutes, and had been repeated with several fixed individuals one after the other, the bud at last attached itself to one of them, generally at the aboral end, near the stalk. After a few minutes the fusion might be definitely observed to be taking place." In connection with the above-mentioned description, Engelmann remarks: " At another time I observed a s Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-cell-outlines-of-general-anatomy-and-physiology-cells-anatomy-physiology-cells-anatomy-physiology-the-vital-properties-of-the-cell-303-rotating-on-its-own-longitudinal-axis-after-this-liad-been-going-on-for-several-minutes-and-had-been-repeated-with-several-fixed-individuals-one-after-the-other-the-bud-at-last-attached-itself-to-one-of-them-generally-at-the-aboral-end-near-the-stalk-after-a-few-minutes-the-fusion-might-be-definitely-observed-to-be-taking-placequot-in-connection-with-the-above-mentioned-description-engelmann-remarks-quot-at-another-time-i-observed-a-s-image235049838.html
RMRJBCD2–. The cell; outlines of general anatomy and physiology. Cells; Anatomy; Physiology; Cells; Anatomy; Physiology. THE VITAL PROPERTIES OF THE CELL 303 rotating on its own longitudinal axis. After this liad been going on for several minutes, and had been repeated with several fixed individuals one after the other, the bud at last attached itself to one of them, generally at the aboral end, near the stalk. After a few minutes the fusion might be definitely observed to be taking place." In connection with the above-mentioned description, Engelmann remarks: " At another time I observed a s
. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. EFFECT OF TEMPERATURE ON ANIMAL TISSUES. 45 temperature of 4°C. a fusion of the partially divided halves takes place. Among Hydra the formation of buds, which finally become distinct individuals, may be considered analogous to the process of cell division among Protozoa. It was found that if a Hydra in the earlier stages of the process of budding be placed. FIG. 2. The same Hydra as in Fig. I, after an exposure of six days to a tem- perature of 6°C. The absorption of the tentacles and bud is nearly complete. at a temperature Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-biological-bulletin-biology-zoology-biology-marine-biology-effect-of-temperature-on-animal-tissues-45-temperature-of-4c-a-fusion-of-the-partially-divided-halves-takes-place-among-hydra-the-formation-of-buds-which-finally-become-distinct-individuals-may-be-considered-analogous-to-the-process-of-cell-division-among-protozoa-it-was-found-that-if-a-hydra-in-the-earlier-stages-of-the-process-of-budding-be-placed-fig-2-the-same-hydra-as-in-fig-i-after-an-exposure-of-six-days-to-a-tem-perature-of-6c-the-absorption-of-the-tentacles-and-bud-is-nearly-complete-at-a-temperature-image234698262.html
RMRHRC0P–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. EFFECT OF TEMPERATURE ON ANIMAL TISSUES. 45 temperature of 4°C. a fusion of the partially divided halves takes place. Among Hydra the formation of buds, which finally become distinct individuals, may be considered analogous to the process of cell division among Protozoa. It was found that if a Hydra in the earlier stages of the process of budding be placed. FIG. 2. The same Hydra as in Fig. I, after an exposure of six days to a tem- perature of 6°C. The absorption of the tentacles and bud is nearly complete. at a temperature
. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. HEREDITY AND ORGANIC SYMMETRY IN ARMADILLO. 2"J and are the secondary bud derivatives of II. and IV. respectively, are exact symmetrical reversals of each other, I. having the anomaly only on the left and III. only on the right. Fetuses II. and IV., the two primary bud individuals, both show the anomaly bilaterally, but are also reversals, in that II. has the more extensive doubling 9-9 on the right and IV. has the. more extensive doubling 9-8 on the left. It is interesting to note that the primary individuals II. and I Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-biological-bulletin-biology-zoology-biology-marine-biology-heredity-and-organic-symmetry-in-armadillo-2quotj-and-are-the-secondary-bud-derivatives-of-ii-and-iv-respectively-are-exact-symmetrical-reversals-of-each-other-i-having-the-anomaly-only-on-the-left-and-iii-only-on-the-right-fetuses-ii-and-iv-the-two-primary-bud-individuals-both-show-the-anomaly-bilaterally-but-are-also-reversals-in-that-ii-has-the-more-extensive-doubling-9-9-on-the-right-and-iv-has-the-more-extensive-doubling-9-8-on-the-left-it-is-interesting-to-note-that-the-primary-individuals-ii-and-i-image234704189.html
RMRHRKGD–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. HEREDITY AND ORGANIC SYMMETRY IN ARMADILLO. 2"J and are the secondary bud derivatives of II. and IV. respectively, are exact symmetrical reversals of each other, I. having the anomaly only on the left and III. only on the right. Fetuses II. and IV., the two primary bud individuals, both show the anomaly bilaterally, but are also reversals, in that II. has the more extensive doubling 9-9 on the right and IV. has the. more extensive doubling 9-8 on the left. It is interesting to note that the primary individuals II. and I
. The Protozoa. Protozoa. 96 THE PROTOZOA formed by the same animal. The history of the buds is different in different individuals. In the simplest cases, the bud merely drops off the parent and remains on the bottom for some days in an amoeboid state. In other cases, fiagella are formed, and the buds move about like swarm-spores, although after a couple of days these, too, become amoeboid. A few days later silicious spicules appear in the vicinity of the nucleus, and soon after make their way to the periphery, where the shell is formed (Fig. 53). Clathrulina also forms buds in a similar manne Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-protozoa-protozoa-96-the-protozoa-formed-by-the-same-animal-the-history-of-the-buds-is-different-in-different-individuals-in-the-simplest-cases-the-bud-merely-drops-off-the-parent-and-remains-on-the-bottom-for-some-days-in-an-amoeboid-state-in-other-cases-fiagella-are-formed-and-the-buds-move-about-like-swarm-spores-although-after-a-couple-of-days-these-too-become-amoeboid-a-few-days-later-silicious-spicules-appear-in-the-vicinity-of-the-nucleus-and-soon-after-make-their-way-to-the-periphery-where-the-shell-is-formed-fig-53-clathrulina-also-forms-buds-in-a-similar-manne-image232351609.html
RMRE0ERN–. The Protozoa. Protozoa. 96 THE PROTOZOA formed by the same animal. The history of the buds is different in different individuals. In the simplest cases, the bud merely drops off the parent and remains on the bottom for some days in an amoeboid state. In other cases, fiagella are formed, and the buds move about like swarm-spores, although after a couple of days these, too, become amoeboid. A few days later silicious spicules appear in the vicinity of the nucleus, and soon after make their way to the periphery, where the shell is formed (Fig. 53). Clathrulina also forms buds in a similar manne
. Botany, with agricultural applications. Botany. GRAFTING 229 causes they are not hardy. On the other hand, some trees are hardy but produce poor fruits. Now by grafting cions from the trees bearing delicious fruits on the hardy trees a^ stocks, one may obtain individuals that are hardy and at the same time bear. Pig. 210. — Cuttings of Sugar Cane being properly placed in the trenches, after which they are covered by dragging dirt into the trenches. After N. A. Cobb. delicious fruits. Second, it enables one to preserve bud sports, which are individual branches that show qualities strikingly d Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/botany-with-agricultural-applications-botany-grafting-229-causes-they-are-not-hardy-on-the-other-hand-some-trees-are-hardy-but-produce-poor-fruits-now-by-grafting-cions-from-the-trees-bearing-delicious-fruits-on-the-hardy-trees-a-stocks-one-may-obtain-individuals-that-are-hardy-and-at-the-same-time-bear-pig-210-cuttings-of-sugar-cane-being-properly-placed-in-the-trenches-after-which-they-are-covered-by-dragging-dirt-into-the-trenches-after-n-a-cobb-delicious-fruits-second-it-enables-one-to-preserve-bud-sports-which-are-individual-branches-that-show-qualities-strikingly-d-image232285207.html
RMRDWE47–. Botany, with agricultural applications. Botany. GRAFTING 229 causes they are not hardy. On the other hand, some trees are hardy but produce poor fruits. Now by grafting cions from the trees bearing delicious fruits on the hardy trees a^ stocks, one may obtain individuals that are hardy and at the same time bear. Pig. 210. — Cuttings of Sugar Cane being properly placed in the trenches, after which they are covered by dragging dirt into the trenches. After N. A. Cobb. delicious fruits. Second, it enables one to preserve bud sports, which are individual branches that show qualities strikingly d
. Zoology : for students and general readers . Zoology. DEVELOPMENT OF ASGIDIANS. 203 Huxley, merely as a kind of stalk, from -which new zooids bud out, and this process, in his opinion, "leads to the still more singular process of development in Pyrosoma, in which the first formed embryo attains only an imperfect develop- ment, and disappears after having given rise to four ascidio- zooids." In Clavellina and PerojjJiora the original parent Ascidian throws ofE branches or stolons from which develop new individuals. The usual mode of development in the simple and com- pound Ascidians Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/zoology-for-students-and-general-readers-zoology-development-of-asgidians-203-huxley-merely-as-a-kind-of-stalk-from-which-new-zooids-bud-out-and-this-process-in-his-opinion-quotleads-to-the-still-more-singular-process-of-development-in-pyrosoma-in-which-the-first-formed-embryo-attains-only-an-imperfect-develop-ment-and-disappears-after-having-given-rise-to-four-ascidio-zooidsquot-in-clavellina-and-perojjjiora-the-original-parent-ascidian-throws-ofe-branches-or-stolons-from-which-develop-new-individuals-the-usual-mode-of-development-in-the-simple-and-com-pound-ascidians-image231938157.html
RMRD9KDH–. Zoology : for students and general readers . Zoology. DEVELOPMENT OF ASGIDIANS. 203 Huxley, merely as a kind of stalk, from -which new zooids bud out, and this process, in his opinion, "leads to the still more singular process of development in Pyrosoma, in which the first formed embryo attains only an imperfect develop- ment, and disappears after having given rise to four ascidio- zooids." In Clavellina and PerojjJiora the original parent Ascidian throws ofE branches or stolons from which develop new individuals. The usual mode of development in the simple and com- pound Ascidians
. Zoology for high schools and colleges. Zoology. DEVELOPMENT OF A8CIDIAN8. 3as Huxley, merely as a kind of stalk, from which new zooids bud out, and this process, in his opinion, "leads to the still more singular process of development in Pyrosoma, in which the first formed embryo attains only an imperfect develop- ment, and disappears after having given rise to four ascidio- zooids." In Clavellina and Perophora the original parent Aseidian throws off branches or stolons from which develop new individuals. The usual mode of development in the simple and com- pound Ascidians (forming Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/zoology-for-high-schools-and-colleges-zoology-development-of-a8cidian8-3as-huxley-merely-as-a-kind-of-stalk-from-which-new-zooids-bud-out-and-this-process-in-his-opinion-quotleads-to-the-still-more-singular-process-of-development-in-pyrosoma-in-which-the-first-formed-embryo-attains-only-an-imperfect-develop-ment-and-disappears-after-having-given-rise-to-four-ascidio-zooidsquot-in-clavellina-and-perophora-the-original-parent-aseidian-throws-off-branches-or-stolons-from-which-develop-new-individuals-the-usual-mode-of-development-in-the-simple-and-com-pound-ascidians-forming-image232347499.html
RMRE09GY–. Zoology for high schools and colleges. Zoology. DEVELOPMENT OF A8CIDIAN8. 3as Huxley, merely as a kind of stalk, from which new zooids bud out, and this process, in his opinion, "leads to the still more singular process of development in Pyrosoma, in which the first formed embryo attains only an imperfect develop- ment, and disappears after having given rise to four ascidio- zooids." In Clavellina and Perophora the original parent Aseidian throws off branches or stolons from which develop new individuals. The usual mode of development in the simple and com- pound Ascidians (forming
. Elementary physiology. Physiology; Physiology. Fig. 113.—Section through the middle of a taste bud. CRanvier.) /, gustatory pore ; 5, gustatory cell ; r, sustentacular cell; m, lymph cell, containing fatty granules ; e, superficial ceils of the stratified epithelium ; «, nerve fibres. no taste sensations whatever can be appreciated on the tip of the tongue; while other individuals can only taste sweet sub- stances in this region. The distribution of the different kinds of taste sensation is not uniform, and varies in different indi- viduals. Most usually, sweet substances are tasted at the t Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/elementary-physiology-physiology-physiology-fig-113section-through-the-middle-of-a-taste-bud-cranvier-gustatory-pore-5-gustatory-cell-r-sustentacular-cell-m-lymph-cell-containing-fatty-granules-e-superficial-ceils-of-the-stratified-epithelium-nerve-fibres-no-taste-sensations-whatever-can-be-appreciated-on-the-tip-of-the-tongue-while-other-individuals-can-only-taste-sweet-sub-stances-in-this-region-the-distribution-of-the-different-kinds-of-taste-sensation-is-not-uniform-and-varies-in-different-indi-viduals-most-usually-sweet-substances-are-tasted-at-the-t-image231801985.html
RMRD3DP9–. Elementary physiology. Physiology; Physiology. Fig. 113.—Section through the middle of a taste bud. CRanvier.) /, gustatory pore ; 5, gustatory cell ; r, sustentacular cell; m, lymph cell, containing fatty granules ; e, superficial ceils of the stratified epithelium ; «, nerve fibres. no taste sensations whatever can be appreciated on the tip of the tongue; while other individuals can only taste sweet sub- stances in this region. The distribution of the different kinds of taste sensation is not uniform, and varies in different indi- viduals. Most usually, sweet substances are tasted at the t
. Plant propagation : greenhouse and nursery practice . Plant propagation. 184 J'l.ANT rROPA(;ATION (lividiialily of orcliard trees and tlie necessity (if iirupagatinK fmi i individuals having the best eliaraetcrs. The speaker does not he Heve in "pedigreed trees", timUng hut little in either theory or fact to substantiate the claim of those who heliee they can improNc varieties by bud selection. The multitude of trees in any ariety, all from one seed, it seems paradoxical to say, are morphologically one individual. A plant variety propagated by buds is essentially complete in its Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/plant-propagation-greenhouse-and-nursery-practice-plant-propagation-184-jlant-rropaation-lividiialily-of-orcliard-trees-and-tlie-necessity-if-iirupagatink-fmi-i-individuals-having-the-best-eliaraetcrs-the-speaker-does-not-he-heve-in-quotpedigreed-treesquot-timung-hut-little-in-either-theory-or-fact-to-substantiate-the-claim-of-those-who-heliee-they-can-impronc-varieties-by-bud-selection-the-multitude-of-trees-in-any-ariety-all-from-one-seed-it-seems-paradoxical-to-say-are-morphologically-one-individual-a-plant-variety-propagated-by-buds-is-essentially-complete-in-its-image232009043.html
RMRDCWW7–. Plant propagation : greenhouse and nursery practice . Plant propagation. 184 J'l.ANT rROPA(;ATION (lividiialily of orcliard trees and tlie necessity (if iirupagatinK fmi i individuals having the best eliaraetcrs. The speaker does not he Heve in "pedigreed trees", timUng hut little in either theory or fact to substantiate the claim of those who heliee they can improNc varieties by bud selection. The multitude of trees in any ariety, all from one seed, it seems paradoxical to say, are morphologically one individual. A plant variety propagated by buds is essentially complete in its
. Insects, their ways and means of living. Insects. THE CATERPILLAR AND THE MOTH open leaf bud was encountered, dangling in loose webs, but spinning threads everywhere. Yet, in each brood, the individuals kept within reach of one another, and the trails of silk leading back to the main branch always insured the possibility of a family reunion whenever this should be desired. One morning, the 27th, one family had gathered in its scattered members and these had already spun a little tentlike web in the crotch between the main stem of the sup- porting twig and two small branches (Fig. 145). Some Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/insects-their-ways-and-means-of-living-insects-the-caterpillar-and-the-moth-open-leaf-bud-was-encountered-dangling-in-loose-webs-but-spinning-threads-everywhere-yet-in-each-brood-the-individuals-kept-within-reach-of-one-another-and-the-trails-of-silk-leading-back-to-the-main-branch-always-insured-the-possibility-of-a-family-reunion-whenever-this-should-be-desired-one-morning-the-27th-one-family-had-gathered-in-its-scattered-members-and-these-had-already-spun-a-little-tentlike-web-in-the-crotch-between-the-main-stem-of-the-sup-porting-twig-and-two-small-branches-fig-145-some-image238054691.html
RMRR8957–. Insects, their ways and means of living. Insects. THE CATERPILLAR AND THE MOTH open leaf bud was encountered, dangling in loose webs, but spinning threads everywhere. Yet, in each brood, the individuals kept within reach of one another, and the trails of silk leading back to the main branch always insured the possibility of a family reunion whenever this should be desired. One morning, the 27th, one family had gathered in its scattered members and these had already spun a little tentlike web in the crotch between the main stem of the sup- porting twig and two small branches (Fig. 145). Some
. General physiology; an outline of the science of life. . ELEMENTARY VITAL PHENOMENA 191 duction, there occurs asexual increase, by fission and gemmation. In both cases whole complexes of cells are separated off. In fission, e.g., in certain worms (Fig. 69), the whole body, after having reached a certain size by cell-division, is constricted into two or more parts which regenerate themselves again into complete individuals. In gemmation, e.g., in many coelente- rates (Fig. 70), there is formed in one part of the body by rapid cell-multiplication a bud, which contains cells from the essential Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/general-physiology-an-outline-of-the-science-of-life-elementary-vital-phenomena-191-duction-there-occurs-asexual-increase-by-fission-and-gemmation-in-both-cases-whole-complexes-of-cells-are-separated-off-in-fission-eg-in-certain-worms-fig-69-the-whole-body-after-having-reached-a-certain-size-by-cell-division-is-constricted-into-two-or-more-parts-which-regenerate-themselves-again-into-complete-individuals-in-gemmation-eg-in-many-coelente-rates-fig-70-there-is-formed-in-one-part-of-the-body-by-rapid-cell-multiplication-a-bud-which-contains-cells-from-the-essential-image232348756.html
RMRE0B5T–. General physiology; an outline of the science of life. . ELEMENTARY VITAL PHENOMENA 191 duction, there occurs asexual increase, by fission and gemmation. In both cases whole complexes of cells are separated off. In fission, e.g., in certain worms (Fig. 69), the whole body, after having reached a certain size by cell-division, is constricted into two or more parts which regenerate themselves again into complete individuals. In gemmation, e.g., in many coelente- rates (Fig. 70), there is formed in one part of the body by rapid cell-multiplication a bud, which contains cells from the essential
. Zoology : for students and general readers . Zoology. 54 ZOOLOGY. The process of budding is but a modification of tliat in- volved in natural self-division, and it is carried on to a great extent in Hydra, a mucli larger number of individuals being produced in this way than from eggs. Our figure (3G) shows two individuals budding out from the parent Hydra ; the smaller bud («) is a simple bulging out of the body-walls, the bud enveloping a por- tion of the stomach, until it becomes con- stricted and drops off, the tentacles mean- while budding out from the distal end, and a mouth-opening ari Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/zoology-for-students-and-general-readers-zoology-54-zoology-the-process-of-budding-is-but-a-modification-of-tliat-in-volved-in-natural-self-division-and-it-is-carried-on-to-a-great-extent-in-hydra-a-mucli-larger-number-of-individuals-being-produced-in-this-way-than-from-eggs-our-figure-3g-shows-two-individuals-budding-out-from-the-parent-hydra-the-smaller-bud-is-a-simple-bulging-out-of-the-body-walls-the-bud-enveloping-a-por-tion-of-the-stomach-until-it-becomes-con-stricted-and-drops-off-the-tentacles-mean-while-budding-out-from-the-distal-end-and-a-mouth-opening-ari-image231938306.html
RMRD9KJX–. Zoology : for students and general readers . Zoology. 54 ZOOLOGY. The process of budding is but a modification of tliat in- volved in natural self-division, and it is carried on to a great extent in Hydra, a mucli larger number of individuals being produced in this way than from eggs. Our figure (3G) shows two individuals budding out from the parent Hydra ; the smaller bud («) is a simple bulging out of the body-walls, the bud enveloping a por- tion of the stomach, until it becomes con- stricted and drops off, the tentacles mean- while budding out from the distal end, and a mouth-opening ari
. 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. 186 CRYPrOGAMS. â AO: Yeast plants: 1 and 2 repre- sent sLK-oessive stages in the process of bud- ding. sizes (Fig. 302). Thougli very small plants, the Yeasts are larger than most Bacteria, averaging perhaps 3-2-5-00 inch in length. Eacli cell consists of wall and protoplasmic body, generally including refractive grannies and a large sap cavity. Reproduction.âNew individuals are formed not by division into t Stock Photohttps://www.alamy.com/image-license-details/?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-186-cryprogams-ao-yeast-plants-1-and-2-repre-sent-slk-oessive-stages-in-the-process-of-bud-ding-sizes-fig-302-thougli-very-small-plants-the-yeasts-are-larger-than-most-bacteria-averaging-perhaps-3-2-5-00-inch-in-length-eacli-cell-consists-of-wall-and-protoplasmic-body-generally-including-refractive-grannies-and-a-large-sap-cavity-reproductionnew-individuals-are-formed-not-by-division-into-t-image232269221.html
RMRDTNN9–. 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. 186 CRYPrOGAMS. â AO: Yeast plants: 1 and 2 repre- sent sLK-oessive stages in the process of bud- ding. sizes (Fig. 302). Thougli very small plants, the Yeasts are larger than most Bacteria, averaging perhaps 3-2-5-00 inch in length. Eacli cell consists of wall and protoplasmic body, generally including refractive grannies and a large sap cavity. Reproduction.âNew individuals are formed not by division into t
. Zoology for high schools and colleges. Zoology. 54 ZOOLOGY. The process of bndding is but a modification of that in- volved in natural self-division, and it is carried on to a great extent in Hydra, a much larger number of individuals being produced in this way than from eggs. Our figure (36) shows two individuals budding out from the parent Hydra; the smaller bud (a) is a simple bulging out of the body-walls, the bud enveloj)ing a por- tion of the stomach, until, it becomes con- stricted and drops off, the tentacles mean- while budding out from the distal end, and a mouth-opening arising be Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/zoology-for-high-schools-and-colleges-zoology-54-zoology-the-process-of-bndding-is-but-a-modification-of-that-in-volved-in-natural-self-division-and-it-is-carried-on-to-a-great-extent-in-hydra-a-much-larger-number-of-individuals-being-produced-in-this-way-than-from-eggs-our-figure-36-shows-two-individuals-budding-out-from-the-parent-hydra-the-smaller-bud-a-is-a-simple-bulging-out-of-the-body-walls-the-bud-envelojing-a-por-tion-of-the-stomach-until-it-becomes-con-stricted-and-drops-off-the-tentacles-mean-while-budding-out-from-the-distal-end-and-a-mouth-opening-arising-be-image232348612.html
RMRE0B0M–. Zoology for high schools and colleges. Zoology. 54 ZOOLOGY. The process of bndding is but a modification of that in- volved in natural self-division, and it is carried on to a great extent in Hydra, a much larger number of individuals being produced in this way than from eggs. Our figure (36) shows two individuals budding out from the parent Hydra; the smaller bud (a) is a simple bulging out of the body-walls, the bud enveloj)ing a por- tion of the stomach, until, it becomes con- stricted and drops off, the tentacles mean- while budding out from the distal end, and a mouth-opening arising be
. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. end. ep FIG. 3. Buds borne by primary individuals (oozooid) of stage shown in Fig. 2,F. A, B, C, three stages of second bud. D, first bud. as, atrial sac; end, endostyle; ep, epidermis; ht, heart; nv, neural vesicle; pc, pharyngeal chamber; st, stomach; v, left ampullary vessel secondarily connecting bud with ampullary system of parent; vr, right ampullary vessel of parent near base of which all buds arise. Fig. 2, F and G. The three smaller examples are shown in relation to the base of the right ampullary vessel, indicating Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-biological-bulletin-biology-zoology-biology-marine-biology-end-ep-fig-3-buds-borne-by-primary-individuals-oozooid-of-stage-shown-in-fig-2f-a-b-c-three-stages-of-second-bud-d-first-bud-as-atrial-sac-end-endostyle-ep-epidermis-ht-heart-nv-neural-vesicle-pc-pharyngeal-chamber-st-stomach-v-left-ampullary-vessel-secondarily-connecting-bud-with-ampullary-system-of-parent-vr-right-ampullary-vessel-of-parent-near-base-of-which-all-buds-arise-fig-2-f-and-g-the-three-smaller-examples-are-shown-in-relation-to-the-base-of-the-right-ampullary-vessel-indicating-image234668957.html
RMRHP2J5–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. end. ep FIG. 3. Buds borne by primary individuals (oozooid) of stage shown in Fig. 2,F. A, B, C, three stages of second bud. D, first bud. as, atrial sac; end, endostyle; ep, epidermis; ht, heart; nv, neural vesicle; pc, pharyngeal chamber; st, stomach; v, left ampullary vessel secondarily connecting bud with ampullary system of parent; vr, right ampullary vessel of parent near base of which all buds arise. Fig. 2, F and G. The three smaller examples are shown in relation to the base of the right ampullary vessel, indicating
. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 8 LEONARD P. SAYLES the buds were as follows: A, 12.3 mm.; B, 9.3 mm.; C, 7.1 mm.; D, 6.4 mm. In all individuals regenerating in tap-water the tail bud is complete with well-formed swimming membrane. Tadpoles regenerating in 0.5 Ringer usually produce complete tails of the ordinary type. In some cases, however, the musculo-skeletal axis is complete but the caudal membrane is much reduced or even absent in part of the bud. A re- generate of this type is shown in Fig. 1. In straight frog Ringer about two-thirds of the short bu Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-biological-bulletin-biology-zoology-biology-marine-biology-8-leonard-p-sayles-the-buds-were-as-follows-a-123-mm-b-93-mm-c-71-mm-d-64-mm-in-all-individuals-regenerating-in-tap-water-the-tail-bud-is-complete-with-well-formed-swimming-membrane-tadpoles-regenerating-in-05-ringer-usually-produce-complete-tails-of-the-ordinary-type-in-some-cases-however-the-musculo-skeletal-axis-is-complete-but-the-caudal-membrane-is-much-reduced-or-even-absent-in-part-of-the-bud-a-re-generate-of-this-type-is-shown-in-fig-1-in-straight-frog-ringer-about-two-thirds-of-the-short-bu-image234672323.html
RMRHP6XB–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 8 LEONARD P. SAYLES the buds were as follows: A, 12.3 mm.; B, 9.3 mm.; C, 7.1 mm.; D, 6.4 mm. In all individuals regenerating in tap-water the tail bud is complete with well-formed swimming membrane. Tadpoles regenerating in 0.5 Ringer usually produce complete tails of the ordinary type. In some cases, however, the musculo-skeletal axis is complete but the caudal membrane is much reduced or even absent in part of the bud. A re- generate of this type is shown in Fig. 1. In straight frog Ringer about two-thirds of the short bu
. Elementary text-book of zoology. Zoology. BRYOZOA. 75. the same animals, more rarely in different individuals. The ovaries which are filled with many ova are placed on the inner surface of the anterior part of the body wall; while the testes with their seminal capsules are developed either on the upper part of the funiculus or near the point of attachment of the latter to the body wall. Both kinds of generative products are de- hisced into the body cavity where fertilization takes place. From the body cavity the fertilized egg passes either into a bud of the body wall (AlcyoneUa), or, as in Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/elementary-text-book-of-zoology-zoology-bryozoa-75-the-same-animals-more-rarely-in-different-individuals-the-ovaries-which-are-filled-with-many-ova-are-placed-on-the-inner-surface-of-the-anterior-part-of-the-body-wall-while-the-testes-with-their-seminal-capsules-are-developed-either-on-the-upper-part-of-the-funiculus-or-near-the-point-of-attachment-of-the-latter-to-the-body-wall-both-kinds-of-generative-products-are-de-hisced-into-the-body-cavity-where-fertilization-takes-place-from-the-body-cavity-the-fertilized-egg-passes-either-into-a-bud-of-the-body-wall-alcyoneua-or-as-in-image231695995.html
RMRCXJGY–. Elementary text-book of zoology. Zoology. BRYOZOA. 75. the same animals, more rarely in different individuals. The ovaries which are filled with many ova are placed on the inner surface of the anterior part of the body wall; while the testes with their seminal capsules are developed either on the upper part of the funiculus or near the point of attachment of the latter to the body wall. Both kinds of generative products are de- hisced into the body cavity where fertilization takes place. From the body cavity the fertilized egg passes either into a bud of the body wall (AlcyoneUa), or, as in
. Elementary text-book of zoology. Zoology. the same animals, more rarely in different individuals. The ovaries which are filled with many ova are placed on the inner surface of the anterior part of the body wall; while the testes with their seminal capsules are developed either on the upper part of the funiculus or near the point of attachment of the latter to the body wall. Both kinds of generative products are de- hisced into the body cavity where fertilization takes place. From the body cavity the fertilized egg passes either into a bud of the body wall (AlcyoneUa), or, as in marine Bryozo Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/elementary-text-book-of-zoology-zoology-the-same-animals-more-rarely-in-different-individuals-the-ovaries-which-are-filled-with-many-ova-are-placed-on-the-inner-surface-of-the-anterior-part-of-the-body-wall-while-the-testes-with-their-seminal-capsules-are-developed-either-on-the-upper-part-of-the-funiculus-or-near-the-point-of-attachment-of-the-latter-to-the-body-wall-both-kinds-of-generative-products-are-de-hisced-into-the-body-cavity-where-fertilization-takes-place-from-the-body-cavity-the-fertilized-egg-passes-either-into-a-bud-of-the-body-wall-alcyoneua-or-as-in-marine-bryozo-image231695994.html
RMRCXJGX–. Elementary text-book of zoology. Zoology. the same animals, more rarely in different individuals. The ovaries which are filled with many ova are placed on the inner surface of the anterior part of the body wall; while the testes with their seminal capsules are developed either on the upper part of the funiculus or near the point of attachment of the latter to the body wall. Both kinds of generative products are de- hisced into the body cavity where fertilization takes place. From the body cavity the fertilized egg passes either into a bud of the body wall (AlcyoneUa), or, as in marine Bryozo
. Elementary text-book of zoology, general part and special part: protozoa to insecta. Animals. COKJUOATIOX OF CILIATA. 203 nected by their ventral surfaces ; other Infusoria with a flat body like Oxytrichina, Chilodon, by their sides; while EncheJijs, Ilaltcria, Coleps, join together the anterior extremi- ties of their bodies, giving the appear- ance of transverse fission. A lateral conjugation also takes place not un- frequently in Vorti- cella, Trichodina, etc., between individuals of unequal size, the smaller one having the appearance of a bud (bud-like conju- gation) (fig. 143, c). The al Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/elementary-text-book-of-zoology-general-part-and-special-part-protozoa-to-insecta-animals-cokjuoatiox-of-ciliata-203-nected-by-their-ventral-surfaces-other-infusoria-with-a-flat-body-like-oxytrichina-chilodon-by-their-sides-while-enchejijs-ilaltcria-coleps-join-together-the-anterior-extremi-ties-of-their-bodies-giving-the-appear-ance-of-transverse-fission-a-lateral-conjugation-also-takes-place-not-un-frequently-in-vorti-cella-trichodina-etc-between-individuals-of-unequal-size-the-smaller-one-having-the-appearance-of-a-bud-bud-like-conju-gation-fig-143-c-the-al-image231762862.html
RMRD1KW2–. Elementary text-book of zoology, general part and special part: protozoa to insecta. Animals. COKJUOATIOX OF CILIATA. 203 nected by their ventral surfaces ; other Infusoria with a flat body like Oxytrichina, Chilodon, by their sides; while EncheJijs, Ilaltcria, Coleps, join together the anterior extremi- ties of their bodies, giving the appear- ance of transverse fission. A lateral conjugation also takes place not un- frequently in Vorti- cella, Trichodina, etc., between individuals of unequal size, the smaller one having the appearance of a bud (bud-like conju- gation) (fig. 143, c). The al
. Elementary text-book of zoology. Zoology. CONJUGATION OF CILIATA. 203 nected by their ventral surfaces ; other Infusoria with a flat body like Oxytrichina, Chilodon, by their sides; while Enchelys, Halteria, Coleps, join together the anterior extremi- ties of their bodies, giving the appear- ance of transverse fission. A lateral conjugation also takes place not un- frequently in Vorti- cella, Trichodina, etc., between individuals of unequal size, the smaller one having the appearance of a bud (bud-like conju- gation) (tig. 143, c). The alterations which the nucleus and paranudeus un- dergo d Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/elementary-text-book-of-zoology-zoology-conjugation-of-ciliata-203-nected-by-their-ventral-surfaces-other-infusoria-with-a-flat-body-like-oxytrichina-chilodon-by-their-sides-while-enchelys-halteria-coleps-join-together-the-anterior-extremi-ties-of-their-bodies-giving-the-appear-ance-of-transverse-fission-a-lateral-conjugation-also-takes-place-not-un-frequently-in-vorti-cella-trichodina-etc-between-individuals-of-unequal-size-the-smaller-one-having-the-appearance-of-a-bud-bud-like-conju-gation-tig-143-c-the-alterations-which-the-nucleus-and-paranudeus-un-dergo-d-image231688443.html
RMRCX8Y7–. Elementary text-book of zoology. Zoology. CONJUGATION OF CILIATA. 203 nected by their ventral surfaces ; other Infusoria with a flat body like Oxytrichina, Chilodon, by their sides; while Enchelys, Halteria, Coleps, join together the anterior extremi- ties of their bodies, giving the appear- ance of transverse fission. A lateral conjugation also takes place not un- frequently in Vorti- cella, Trichodina, etc., between individuals of unequal size, the smaller one having the appearance of a bud (bud-like conju- gation) (tig. 143, c). The alterations which the nucleus and paranudeus un- dergo d
. Elementary text-book of zoology, tr. and ed. by Adam Sedgwick, with the assistance of F. G. Heathcote. CONJUGATION OF CILIATA. 203 nected by their ventral surfaces ; other Infusoria with a flat body like Oxytrichina, Ckilodon, by their sides; while Enchclys, JIaltcria, Coleps, join together the anterior extremi- ties of their bodies, giving the appear- ance of transverse fission. A lateral conjugation also takes place not un- frequently in Vorti- cella, Tric/todina, etc., between individuals of unequal size, the smaller one having the appearance of a bud (bud-like conju- gation) (fig. 143, c Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/elementary-text-book-of-zoology-tr-and-ed-by-adam-sedgwick-with-the-assistance-of-f-g-heathcote-conjugation-of-ciliata-203-nected-by-their-ventral-surfaces-other-infusoria-with-a-flat-body-like-oxytrichina-ckilodon-by-their-sides-while-enchclys-jialtcria-coleps-join-together-the-anterior-extremi-ties-of-their-bodies-giving-the-appear-ance-of-transverse-fission-a-lateral-conjugation-also-takes-place-not-un-frequently-in-vorti-cella-trictodina-etc-between-individuals-of-unequal-size-the-smaller-one-having-the-appearance-of-a-bud-bud-like-conju-gation-fig-143-c-image231731108.html
RMRD07B0–. Elementary text-book of zoology, tr. and ed. by Adam Sedgwick, with the assistance of F. G. Heathcote. CONJUGATION OF CILIATA. 203 nected by their ventral surfaces ; other Infusoria with a flat body like Oxytrichina, Ckilodon, by their sides; while Enchclys, JIaltcria, Coleps, join together the anterior extremi- ties of their bodies, giving the appear- ance of transverse fission. A lateral conjugation also takes place not un- frequently in Vorti- cella, Tric/todina, etc., between individuals of unequal size, the smaller one having the appearance of a bud (bud-like conju- gation) (fig. 143, c
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