RMH81685–Wolf's-milk (Lycogala terrestre), a pink to orange slime mould common on decaying wood.
RF2R76RXC–Wolf's Milk or Groening's Slime (Lycogala epidendrum)
RF2K29X21–Wolf's milk Lycogala epidendrum on a fallen trunk.
RMCT3E1Y–MALARIA, ILLUSTRATION
RM2BNHMC2–Slime mold (Fuligo septica) plasmodia slime mold on dead wood, Buckinghamshire, England, UK, November . Focus stacked image
RF2C71H1H–Slime mold plasmodia creep about over the surfaces of materials, engulfing bacteria, spores of fungi and plants.
RMHRH4HX–Malaria parasite in blood cell, TEM
RM2AWP5N0–Text-book of botany, morphological and physiological . and considerationsthere stated may be repeated here mutatis mutandis. Particular stress must be laidon the fact that movements are induced in protoplasm by the action of gravitationjust as by the action of light. Thus Rosanoff showed^ that the plasmodia oi ^tha-lium sepiicum are negatively geotropic, creeping, under the influence of gravitation,over steep moist walls, and turning, under the action of centrifugal force, towardsthe centre of rotation ; they take therefore those directions which would beleast expected from their apparently fl
RMA9PTE9–Photomicrograph plasmodium malariae
RMRA3TDP–Dog sick slime mould, Muscilago crustacea, on pasture, early on warm damp winter morning, Berkshire, December
RFRDACBW–Yellow slime mold, Badhamia utricularis, feeding on a red mushroom called red scarlet splash fungus, Cytidia salicina
RMH8168C–Wolf's-milk (Lycogala terrestre), a pink to orange slime mould common on decaying wood.
RF2R76RXJ–Wolf's Milk or Groening's Slime (Lycogala epidendrum)
RMCT3E3X–MALARIA, ILLUSTRATION
RMW1RPY5–Archive image from page 74 of The cytoplasm of the plant. The cytoplasm of the plant cell cytoplasmofplant00guil Year: 1941 In the Myxomycetes and Plasmodiophoraceae in which CoWDRY, Lewitsky, and Milovidov have studied the chondriosomes in all stages of development (spores, zoospores, myxamoebae, plasmodia), these elements remain constantly in the state of mitochondria or short rods and never become chondrioconts. During sporogenesis they are distributed among the spores (Fig. 24). The development of the chondriome in one of the Blastocladia- ceae, Allomyces arbusculus, is known from a recen
RM2JKFTMY–Electron micrograph of red blood cells infected with Plasmodium falciparum, the parasite responsible for malaria in humans. During its development, the parasite forms projections called and quot
RMHRH4HY–Malaria parasite in blood cell, TEM
RMCRYEW5–PLASMODIUM
RMRA3TDN–Dog sick slime mould, Muscilago crustacea, on pasture, early on warm damp winter morning, Berkshire, December
RM2AJE0WJ–Clinical diagnosis : the bacteriological, chemical, and microscopical evidence of disease . he plasmodia of the eestivo-autuninal 02 THE BLOOD Eoman fever are devoid of pigment, and retain their motility for a long-time {Celli and Marcliiafava). [Kanthack279 has described a micro-organism derived from a case of malariaacquired in Ashanti. It resembled the Heemamceba prsecox. It was ovoid, witha curved axis, and centrally pigmented.] In the varieties of Eoman fever just noticed are often to be foundthe crescentic and sickle-shaped bodies which were first described byLaveran. According to Celli
RMW18GRJ–A large mass of Chocolate Tube Slime Mold (Stemonaria longa) on the side of a tree. The mass is approximately 150mm high.
RMPG1F8P–. Comparative morphology and biology of the fungi, mycetozoa and bacteria . Plant morphology; Fungi; Myxomycetes; Bacteriology. CH.VIII.—MORPHOLOGY AND COURSE OF DEVELOPMENT.—MrXOMYCETES. 433 these movements the branches of the plasmodia all change their previous distribution through the whole of the thickness of the body and creep to the periphery, where they form a net-work stretching only in the direction of the surface and formed of threads which become successively broader and meshes growing narrower and narrower (Fig. 188 a). The whole is covered on the outside by a thin layer of the hya
RMT8J9FG–Wolf's Milk (Lycogala epidendrum)
RFAEN0P3–Slime mold (Fuligo septica)
RMPET2D8–Chocolate Tube Slime Mold (Stemonitis sp.) brown fruiting bodies (sporangia) growing on a rotting log.
RFR3GCM6–Macro of Yellow Slime Mould (Physarum polycephalum) Growing and Network Forming in Agar Petri Dish. Biology Laboratory Project, Scotland, UK.
RFRBCHRM–Yellow slime mold, Badhamia utricularis, feeding on a red mushroom called red scarlet splash fungus, Cytidia salicina
RMW1RR0W–Archive image from page 74 of The cytoplasm of the plant. The cytoplasm of the plant cell cytoplasmofplant00guil Year: 1941 Chapter VII 59 The Chondriome In the Myxomycetes and Plasmodiophoraceae in which CoWDRY, Lewitsky, and Milovidov have studied the chondriosomes in all stages of development (spores, zoospores, myxamoebae, plasmodia), these elements remain constantly in the state of mitochondria or short rods and never become chondrioconts. During sporogenesis they are distributed among the spores (Fig. 24). The development of the chondriome in one of the Blastocladia- ceae, Allomyces
RMHRH4HW–Malaria parasite in blood cell, TEM
RMCRYEW9–PLASMODIUM VIVAX MALARIA
RMRA3TDK–Dog sick slime mould, Muscilago crustacea, on pasture, early on warm damp winter morning, Berkshire, December
RM2AFNDX7–. Plant anatomy from the standpoint of the development and functions of the tissues, and handbook of micro-technic. expansion, resulting inmarked change of form inEuglena and plasmodia, and inthe thrashing back and forth ofthe cilia of swarm spores; andthe circulation and rotation ofthe cytoplasm spoken of above isprobably caused by contractionand expansion in its differentparts. The power of contractionand expansion is usually compre-hended in the term contractility. (/) Perception and Response.—The protoplast is capable of per-ceiving external stimuli and responding to them in a definite way
RMD3H8E2–PLASMODIUM VIVAX MALARIA
RMPFK7Y5–. The cytoplasm of the plant cell. Plant cells and tissues; Protoplasm. Chapter VII 59 The Chondriome. In the Myxomycetes and Plasmodiophoraceae in which CoWDRY, Lewitsky, and Milovidov have studied the chondriosomes in all stages of development (spores, zoospores, myxamoebae, plasmodia), these elements remain constantly in the state of mitochondria or short rods and never become chondrioconts. During sporogenesis they are distributed among the spores (Fig. 24). The development of the chondriome in one of the Blastocladia- ceae, Allomyces arbusculus, is known from a recent study of WlNS- Low H
RMPET2D7–Chocolate Tube Slime Mold (Stemonitis sp.) brown fruiting bodies (sporangia) growing on a rotting log.
RFR3GCNK–Macro of Yellow Slime Mould (Physarum polycephalum) Growing and Network Forming in Agar Petri Dish. Biology Laboratory Project, Scotland, UK.
RMPD5KBB–Scrambled Egg Slime Mold (Fuligo septica) on a rotting pine tree log.
RMPET2DA–Slime mold (Arcyria cinerea) fruiting bodies (sporangia) grow on a rotting tree.
RFRBCHT2–Yellow slime mold, Badhamia utricularis, feeding on a red mushroom called red scarlet splash fungus, Cytidia salicina
RMPEKD99–Chocolate Tube Slime Mold (Stemonitis sp.) brown fruiting bodies (sporangia) grow on a rotting log.
RFT1DRG3–Yellow slime mold, Badhamia utricularis, a fresh specimen from Finland
RMRWPDPK–Elements of biology, with special Elements of biology, with special reference to their rôle in the lives of animals elementsofbiolog00buch Year: 1933 RESERVOIR CONTRACTILE VACUOLE FLA6ELLUM MASTICOPHOPA- EUCLENA FIG. 30. INFUSORIA-PARAMOECIUM PLASMODIA
RMHRH4HT–Malaria parasite in blood cell, TEM
RM2AXAJMC–The malarial fevers, haemoglobinuric fever and the blood protozoa of man . ry numerous quotidian aestivo-autumnal plasmodia.Ring-forms and pigmented forms were common, and upon one occasion twosegmenting forms were observed in the peripheral blood. The organismsappeared to be most numerous during the latter portion of the paroxysm.The ring-forms were very minute, indistinct in outline, and actively amoeboid.The pigmented forms were circular or oval in shape, and contained one or twonearly black pigment dots. The segmenting forms were intracorpuscular andin one instance the segments numbered si
RMD3H8HH–PLASMODIUM
RMPG4B6A–. Botany for agricultural students . Botany. BACTERIA 341 of the organism, develop abnormally, producing scabby formations which constitute the scabby areas on the tuber or root. The Plasmodia are finally transformed into spores which are liberated as powdery masses as the infected tissues die and the spore masses break open. It has been found that the spores can live in the ground for a num- ber of years and may also live adhering to the rind of the Potato. Treating seed Potatoes with weak solu- tions of formaldehyde or corrosive subhmate to kill the spores adhering to the tubers, and rotatin
RMCRYRK8–PLASMODIUM MALARIA
RFR3GE2P–Yellow Slime Mould (Physarum polycephalum) Growing and Network Forming in Agar Petri Dish. Biology Laboratory Project, Scotland, UK.
RFR3GBCP–Yellow Slime Mould Trail (Physarum polycephalum) Growing and Network Forming in Agar Petri Dish. Biology Laboratory Project, Scotland, UK.
RMPEKD98–Carnival Candy Slime Mold (Arcyria denudata) fruiting bodies (sporangia) grow on a rotting tree.
RFT82T1E–Coral slime mold or mould, Ceratiomyxa fruticulosa
RMRWPDPH–Elements of biology, with special Elements of biology, with special reference to their rôle in the lives of animals elementsofbiolog00buch Year: 1933 RESERVOIR CONTRACTILE VACUOLE FLA6ELLUM MASTICOPHOPA- EUCLENA FIG. 30. INFUSORIA-PARAMOECIUM PLASMODIA RED BLOOD CORPUSCLE FIG. 3/. SPOROZOA-PLASMODIUM (MALARIA) Figs. 28, 29, 30, and 31.—Examples of the four classes of Protozoa. (Fiji. 29 from various sources; Fig. 31 re-drawn after Calkins: Biology, published by Henry Holt and Co.)
RF2T93G44–Physarum virescens, a yellow slime mold from Finland, no common English name
RMHRF840–Malaria Parasite in Blood Cell, TEM
RM2AXB1YW–The malarial fevers, haemoglobinuric fever and the blood protozoa of man . val and later round in form, after which4 50 THE ETIOLOGY OF THE MALARIAL FEVERS. the microgametes or flagella are developed as in the other malarial plasmodia(see Fig. lo). Fresh Preparations.—The crescentic gametes of the aestivo-autumnalPlasmodia are developed within the red corpuscles and during their intra-corpuscular stage are distinguished from the schizonts by their limited amoeboidmotion, the early development of a greater amount of pigment within them,the crescentic or ovoid form acquired during the latter sta
RMPG2T6X–. Comparative morphology and biology of the fungi, mycetozoa and bacteria . Plant morphology; Fungi; Myxomycetes; Bacteriology. CH.VIII.—MORPHOLOGY AND COURSE OF DEVELOPMENT.—MrXOMVCETES. 425 forming somewhat large roundish bodies with a delicate outline in which one or more lime granules are imbedded; it is soluble in alcohol at least in Fuligo and Didymium Serpula. Nuclei were not at first observed in the plasmodia. Cienkowski even stated expressly that the nuclei present in the swarm-cells disappear when they coalesce. But Schmitz' and Strasburger^ have recently established the presence of
RMCRYRK4–PLASMODIUM FALCIPARUM MALARIA
RMD3H8GJ–PLASMODIUM FALCIPARUM MALARIA
RMCT4B0F–MALARIA, ILLUSTRATION
RFR3EPY5–Yellow Slime Mould (Physarum polycephalum) Growing and Network Out of Agar Petri Dish. Biology Laboratory Project, Scotland, UK.
RMD3H8H9–PLASMODIUM FALCIPARUM MALARIA
RMPEKD95–Wolf's Milk Slime (Lycogala epidendrum) globular fruiting bodies grow on a rotting tree.
RF2WFDBWM–Physarum virescens, a yellow slime mold from Finland, no common English name
RM2AXAFG7–The malarial fevers, haemoglobinuric fever and the blood protozoa of man . s, however, the curve muchresembles that of typhoid fever, there being slight daily remissions; this is es-pecially true of the subcontinued fevers due to the quotidian Plasmodium.The chart shown is fairly typical of such a fever. (Chart No. i6.) The duration of the subcontinued or remittent fevers may be severalweeks, but usually spontaneous recovery or death occurs within three weeks.If properly treated, the symptoms are easily controlled within a week, althoughin very rare instances the plasmodia may be very resistan
RMPFK7Y2–. The cytoplasm of the plant cell. Plant cells and tissues; Protoplasm. In the Myxomycetes and Plasmodiophoraceae in which CoWDRY, Lewitsky, and Milovidov have studied the chondriosomes in all stages of development (spores, zoospores, myxamoebae, plasmodia), these elements remain constantly in the state of mitochondria or short rods and never become chondrioconts. During sporogenesis they are distributed among the spores (Fig. 24). The development of the chondriome in one of the Blastocladia- ceae, Allomyces arbusculus, is known from a recent study of WlNS- Low Hatch. In the mycelium the chond
RFR3G9F4–Yellow Slime Mould Trail (Physarum polycephalum) Growing and Network Forming in Agar Petri Dish. Biology Laboratory Project, Scotland, UK.
RMD3H8HE–PLASMODIUM
RMPEKD9A–Carnival Candy Slime Mold (Arcyria denudata) fruiting bodies (sporangia) grow on a rotting tree.
RMCRYRK0–PLASMODIUM FALCIPARUM MALARIA
RMPE5EW1–Stalked fruiting bodies of Multigoblet Slime Mold (Metatrichia vesparium) grow on the side of a rotting dead tree.
RMPD9A11–Fruiting bodies of Multigoblet Slime Mold (Metatrichia vesparium) grow on the side of a rotting dead tree.
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