RFP83YC8–Side view of Freshwater copepod (Cyclops) with eggs. Darkfield illumination.
RMEP7YEA–Pondlife, darkfield photomicrograph, Cyclops with egg sacks
RFJ57PJF–Microscopic view of freshwater copepod (Cyclops). Side view. Rheinberg illumination.
RF2HCDHNY–Inferior crustacean under the microscope magnification.
RFP6NPK5–Microscopic view of freshwater copepod (Cyclops). View from above. Oblique Rheinberg illumination.
RMABBEDC–Nauplius larva of Cyclops Live Anoptral Contrast Flash
RFP83YB5–Microscopic view of algae covered Freshwater copepod (Cyclops). View from above. Darkfield illumination.
RMPFM660–Cyclops
RMHRJMMW–Copepods, Nauplius Larvae
RM2GP7085–Bernhard Luginbuehl, Small Cyclops, Kunsthalle Hamburg, Glockengiesserwall, Hamburg, Germany
RF2JA1BXN–Ostracod and Copepod Cyclops is small crustacean found in freshwater pond. Zooplankton, micro crustacean under the light microscope. Magnification of
RF2BHER0M–Freshwater copepod (Cyclops sp)
RF2FYDNFM–Copepod Cyclops is small crustacean found in freshwater pond. Zooplankton, micro crustacean under the light microscope. Magnification of 100 times, mi
RMAM7M7G–Copepod Larvae Cyclops sp. UK
RFEW9061–Freshwater Copepod or Cyclops sp., vintage engraved illustration. Le Magasin Pittoresque - Larive and Fleury - 1874
RF2PMRE2Y–man looking at smart phone or taking selfie picture with camear mobile
RMGK45NE–46413 Early Nauplius larva of a copepod (Cyclops)
RMA3C8W1–Freshwater Copepod, Cyclops sp. Female with eggs
RF2HCDHTB–Inferior crustacean under the microscope magnification.
RMFJ6691–cyclop (Cyclops spec.), zoological plankton, Cyclops and Daphnia
RMP6H9TT–Four horned monoculus, Monoculus quadricornis. Illustration drawn and engraved by Richard Polydore Nodder. Handcoloured copperplate engraving from George Shaw and Frederick Nodder's 'The Naturalist's Miscellany,' London, 1809.
RFP83YC5–Microscopic view of algae covered Freshwater copepod (Cyclops). Back part with eggs, above view. Darkfield illumination.
RMPFP9GJ–Model of cyclops
RMG16EF9–Limnetis (unidentifiable). Cyclops is one of the most common genera of freshwater copepods, comprising over 400 species. Liernaeocera (Lernaeocera) is a genus of marine copepods in the family Pennellidae. Lepas is a genus of goose barnacles in the family
RMG5X7J1–zoology / animals, crustacea, oar-footed crustaceans (Copepoda), colour lithograph, out of: Ernst Haeckel, 'Kunstformen der Natur', Leipzig - Vienna, 1899 - 1904, Additional-Rights-Clearences-Not Available
RM2BE0J0B–Entitled: 'Nauplius - Youth form of six Crab fish.', plate X from 'The History of Creation' by Ernst Heinrich Philipp August Haeckel, 1884. The genus name Nauplius was published posthumously by Otto Friedrich Müller in 1785 for animals now known to be the larvae of copepods. The nauplius stage (plural: nauplii) is characterized by the use of the appendages of the head (the antennae) for swimming. The nauplius is also the stage at which a simple, unpaired eye first appears. The eye is known for that reason as the naupliar eye, and is often absent in later developmental stages, although it is re
RF2BHER57–Freshwater copepod (Cyclops sp)
RF2HD4PKD–Copepod Cyclops is small crustacean found in freshwater pond. Zooplankton, micro crustacean under the light microscope. Magnification of 100 times, mi
RMAM7MDX–Copepod Larvae Cyclops sp. UK
RFEW9FXK–Freshwater Copepod or Cyclops sp., vintage engraved illustration. Le Magasin Pittoresque - Larive and Fleury - 1874
RMGK45N0–46399 Cyclops albidus, a species of Copepod founr in fresh water
RMA40YE0–Freshwater Copepod, Cyclops sp. Female with eggs
RFEW4G08–Larva Cyclops, vintage engraved illustration. Natural History of Animals, 1880.
RF2WEAE69–Diaptomus cyclops (Cyclopidae, Copepoda, Diaptomus) in a spring snow melt water. Hydrobionts, microplankton. Eastern of the Ladoga Lake, Pasha river.
RMRE0C1K–. Senescence and rejuvenescence. Age; Reproduction. Figs. 143, 144.—First and second division in egg of Cyclops, showing at one pole of spindle the granules which mark the" germ path. From Amma, '11. become the nuclei of germ cells is determined, not primarily by the nuclei themselves, but by the soma of the cell; the germ plasm is not then an independent entity, but is determined by correlative factors, like any other part of the organism, except the apical or head region. Hacker ('97, '02) has described a germ path for Cyclops and other copepod Crustacea, and his observations have been
RM2B7JJTE–Cyclops sp. a common pond water flea
RF2HCAYHP–Inferior crustacean under the microscope magnification. High quality photo
RMFJ6690–cyclop (Cyclops spec.), zoological plankton, Cyclops and Daphnia
RMRWRJFH–Elements of comparative zoology (1904) Elements of comparative zoology elementsofcompar1904king Year: 1904 CRUSTACEA. 223 they pass through a free-swimming nauplius stage, then attach themselves to a fish, after which the retrogression cat 4.. FIG. 50.—A Copepod (Cyclops). From Hertwig. sets in. It is noticeable that the female becomes much more degenerate than the male.
RMGYKDW8–Water flea (Leptodora kindtii), feeds a copepod, Lake Chiemsee
RMPFM0J5–Freshwater Copepods (Cyclops bicuspidatus) in water
RMEBRN4F–brown European hydra (Hydra vulgaris), colony eith caught Cyclops
RF2FYDNE3–Copepod Cyclops is small crustacean found in freshwater pond. Zooplankton, micro crustacean under the light microscope. Magnification of 40 times, mic
RF2BHER05–Freshwater copepod (Cyclops sp)
RM2BE10K9–Entitled: 'Nauplius - Youth form of six Crab fish.', plate X from 'The History of Creation' by Ernst Heinrich Philipp August Haeckel, 1884. The genus name Nauplius was published posthumously by Otto Friedrich Müller in 1785 for animals now known to be the larvae of copepods. The nauplius stage (plural: nauplii) is characterized by the use of the appendages of the head (the antennae) for swimming. The nauplius is also the stage at which a simple, unpaired eye first appears. The eye is known for that reason as the naupliar eye, and is often absent in later developmental stages, although it is re
RMPG3YGP–. A manual of zoology. Zoology. 70 ARTllROrOOA scu'iiientalion ir the lolknving fealnres: (r) Most of them liae the t}-|neal Copepod egg-sacs attached to the hinder end. ^J') A conipk'le series ol intermediate forms allows one to trace, ,ste|) In- step, the alterations of form from the freediving species to the most modil'ied parasites. 13^ Ontogcnv is conincing. Most parasitic Copepoda leave the egg as a nauplius and pass through a Cyclops-stage before attaching themselves. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readabi
RMRHK9C6–. A biology of Crustacea. Crustacea. GROWTH AND LIFE HISTORIES 73. Fig. 33. A, first nauplius of Cyclops fuscus (Copepoda), dorsal view. towards the adult form, as found in the Notostraca and Anostraca (figs. 34A-B) or there may be a number of very different stages involved. The nauplius of a copepod, such as Calanus, may moult five times, still retaining the nauplius form. At the next moult it will change into a copepodid, which is similar to the adult, except that it is not sexually mature, and the limbs are not fully developed.. Please note that these images are extracted from scanned page
RM2B7JJX9–Cyclops sp. a common pond water flea
RF2HCAYH5–Inferior crustacean under the microscope magnification. High quality photo
RMRWTAXN–Elements of Comparative Anatomy (1878) Elements of Comparative Anatomy elementsofcompar78gege Year: 1878 Fig. 117. Nauplius of a Copepod (Cyclops), a h c Appendages. Form of the Body. § 183. Among the Crustacea tlie simplest stage of tlie Arthropod body- is seen in the Nauplius-form (Fig. 117). The unsegmented body carries several pairs of appendages. The body only becomes segmented by a gradual process of gem- matiouj which has many points of resem- blance to the process which brings about metamerism in most of the Annulata. The most anterior portion of the body of the Nauplius which carries
RMTRDK37–Volvox aureus (Volvox aureus), Volvox and cyclops in Rheinfeld ligthing, x 40, Germany
RMHRF6KT–Copepods with Eggs, LM
RMRDJF4W–. A manual of zoology. Zoology. 70 ARTllROrOOA scu'iiientalion ir the lolknving fealnres: (r) Most of them liae the t}-|neal Copepod egg-sacs attached to the hinder end. ^J') A conipk'le series ol intermediate forms allows one to trace, ,ste|) In- step, the alterations of form from the freediving species to the most modil'ied parasites. 13^ Ontogcnv is conincing. Most parasitic Copepoda leave the egg as a nauplius and pass through a Cyclops-stage before attaching themselves. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readabi
RM2B7JK09–Cyclops sp. a common pond water flea
RMAM7M5P–Copepod Cyclops sp. Single Eye Male UK
RF2BHEPW1–Freshwater copepod (Cyclops sp)
RMTRDK34–Volvox aureus (Volvox aureus), Volvox and cyclops in Rheinfeld ligthing, x 40, Germany
RMK42BDJ–Copepod cyclops - with eggs sacks aquatic macro microscopic freshwater
RMRN5R00–. Animal communities in temperate America : as illustrated in the Chicago region; a study in animal ecology. Animal ecology; Zoology -- Illinois Chicago. TEMPORARY POND COMMUNITIES 177 the ostracod (Cyprois marglnata X147) (Fig. 129), and the fairy shrimp (Eubranchipus) (148) (Fig. 130), all of which are characteristic of tempo- rary ponds. Red mites (Fig. 131) are also common (149). Professor Child (unpublished) has noted that the distribution each spring of Eubranchipus and of other temporary pond species is modified. Temporary Grassy Pond Animals Fig. 127.—A temporary pond copepod {Cyclops
RM2B7JJHH–Cyclops sp. a common pond water flea
RF2BHEPN4–Freshwater copepod (Cyclops sp)
RMAGG3Y8–cyclop (Cyclops spec.), in shining-through light
RM2GDJNEF–cyclop (Cyclops spec.), female with clutches, Germany
RM2B7JJR4–Cyclops sp. a common pond water flea
RM2H7CNDX–cyclop (Cyclopoida, Cyclops spec.), female with cocoons, Germany, Bavaria
RMANK894–Water flea Daphnia pulex
RM2H7CN7N–cyclop (Cyclopoida, Cyclops spec.), female with cocoons, Germany, Bavaria
RM2C0WKB5–Daphnia pulex, waterfleas in pond water, darkfield illumination
RM2GDJNF7–cyclop (Cyclops spec.), female with cocoons, macro shot, Germany
RMANK89B–Water flea Daphnia pulex
RM2E41HA2–cyclop (Cyclops spec.), on photo cuvette, Turkey, Central Anatolia Region, Konya
RMT8F1KA–Daphnia water fleas, darkfield photomicrograph
RMCNTMY5–Perch, European perch, Redfin perch (Perca fluviatilis), larva is attacked by Cyclops
RMRN5TG8–. Animal communities in temperate America, as illustrated in the Chicago region ; a study in animal ecology. Animal ecology; Zoology. TEMPORARY POND COMMUNITIES 177 the ostraccd {Cyprois marg'niata )(i47) (Fig. 129), and the i-airy shrimp (Eubranchipus) (148) (Fig. 130), all of which are characteristic of tempo- rary ponds. Red mites (Fig. 131) are also common (149). Professor Child (unpublished) has noted that the distribution each spring of Eubranchipus and of other temporary pond species is modified. Temporary Grassy Pond Animals Fig. 127.—A temporary pond copepod {Cyclops viridis amcricanu
RF2BHER42–Freshwater copepod (Cyclops sp)
RMAB8WE6–perch, European perch, redfin perch (Perca fluviatilis), larva attacked by cyclops, Germany, Oberbayern, Isental, Apr 04.
RMRH016K–. Bulletin. Geography. TEMPORARY POND COMMUNITIES 177 the ostraccd {Cyprois marginata )(i47) (Fig. 129), and the fairy shrimp (Eubranchipus) (148) (Fig. 130), all of which are characteristic of tempo- rary ponds. Red mites (Fig. 131) are also common (149). Professor Child (unpublished) has noted that the distribution each spring of Eubranchipus and of other temporary pond species is modified. Temporary Grassy Pond Animals Fig. 127.—A temporary pond copepod (Cyclops viridis americanus Marsh); 35 times natural size (after Herrick and Turner). Fig. 128.—The red copepod [Diaptomus stagualis) from
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