RM2RA8KFK–Egyptian migratory grasshopper, Camargue, Provence, South of France (Anacridium aegypticum), Egyptian cricket
RM2AN44TD–Handbook of medical entomology . 141. Hyalomma aegypticum. Capitulum of female;(a) dorsal, (6) ventral aspect. 226 Arthropods as Essential Hosts of Pathogenic Protozoa to infest vertebrates and in all the cases where the method has beenworked out it has been found that the conveyal was by ticks. Weshall not consider the cases more fully here, as we are concernedespecially with the method of transfer of human diseases. Ticks and Rocky Mountain Spotted Fever of Man—Ever since1873 there has been known in Montana and Idaho a peculiar febriledisease of man, which has gained the name of Rocky Mounta
RMDTWF7D–Egyptian Grasshopper
RFBCDPEC–Dwarf St John's Wort, Hypericum aegypticum, Clusiaceae. Mediterranean
RMAWK24D–Close-up of Migratory locust (Locusta migratoria) on wood
RMAYA1EH–Dwarf St Johns Wort Hypericum aegypticum Guttiferae Mediterranean
RMA9G5JR–Egyptian grasshopper (Anacridium aegypticum), on girls arm, Greece
RM2AN40AM–Handbook of medical entomology . 152. Monieziella (Histiogaster) emtomophaga-spermatica, ventral aspect,male and female. After Trouessart, ii. Very short palpi, ridged dorsally and laterally; slightlychitinized; unfed adults of smaller size; coxae I bifid;male with adanal and accessor} adanal shields (fig. 139). B, annulatus Boophilus Curtis ff. Palpi longer than broad (fig. 157). g. Male with pair of adanal shields, and two posterior abdominalprotrusions capped by chitinized points; festoons present orabsent. Several species, among them H. aegypticum (fig. 140) from the old world Hyalomma Koc
RMAWK24C–Close-up of Migratory locust (Locusta migratoria) on stone
RMRE41FK–. Handbook of medical entomology. Insect pests; Insects as carriers of disease; Medical parasitology. 141. Hyalomma aegypticum. Capitulum of female; (a) dorsal, (b) ventral aspect.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Riley, William A. (William Albert), b. 1876; Johanssen, Oskar Augustus, 1870-. Ithaca, N. Y. , The Comstock Publishing Company
RMRGJH2R–. Bulletin of the British Museum (Natural History) Botany. STUDIES IN THE GENUS HYPERICUML. (GUTTIFERAE) 50* 199. Fig. 68 Distribution of sects 23. Triadenioides -- 24. Heterophylla (excluding H. aegypticum in part)•••• . • and 25. Adenotrias. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. British Museum (Natural History). London : BM(NH)
RMRJWRNK–. Atoll research bulletin. Coral reefs and islands; Marine biology; Marine sciences. The most interesting discovery at Twin Cays was of a new species of Synnotum (Fig. 9) attached to mangrove roots among ascidians and sponges. Morphologically this delicate branching species is similar to the wide-spread tropical species Synnotum aegypticum, but the free ends of the branches of the new species writhe and twist into knots when touched, with a mobility that is completely lacking in its congener. Movements by zooids and branches of colonies are not unknown in bryozoans but most have been reported
RMEBKWJ8–Egyptian grasshopper, Egyptian Locust (Anacridium aegyptium, Anacridium aegypticum), sitting on a branch
RMRJWRN5–. Atoll research bulletin. Coral reefs and islands; Marine biology; Marine sciences. The most interesting discovery at Twin Cays was of a new species of Synnotum (Fig. 9) attached to mangrove roots among ascidians and sponges. Morphologically this delicate branching species is similar to the wide-spread tropical species Synnotum aegypticum, but the free ends of the branches of the new species writhe and twist into knots when touched, with a mobility that is completely lacking in its congener. Movements by zooids and branches of colonies are not unknown in bryozoans but most have been reported
RMEBKWJD–Egyptian grasshopper, Egyptian Locust (Anacridium aegyptium, Anacridium aegypticum), sitting on a branch
RMRGK09C–. Bulletin of the British Museum (Natural History) Botany. . Fig. 31 Pollination of specialised Hypericum flowers (one sepal and two petals removed): (a) H. aegypticum (short-styled); (b) H. aegypticum (long-styled); (c) H. elodes (homostyled) (all x 4). the base of the ovary, where it would be deflected laterally to a space between two of the three hypogynous 'scales'. These are entire in Adenotrias, bilobed in Elodes; and, whatever their morphological status may be (see p. 102 and Robson, 1972a), these act as lodicules, by swelling during development, thus helping to expand the flower (Hochr
RMEBKWJ3–Egyptian grasshopper, Egyptian Locust (Anacridium aegyptium, Anacridium aegypticum), sitting on a branch
RMRGK01E–. Bulletin of the British Museum (Natural History) Botany. N. K. B. ROBSON. Fig. 40 Plan of toral vasculature of a 4-carpellary flower of H. natalense (sect. 26), showing that the trace to carpel 4 is derived from that of carpel 1 of a 3-carpellary gynoecium. organs. In smaller-flowered species (H. pulchrum (Figs 39, 47e) and H. aethiopicum subsp. sonderi), the vascular plan is essentially similar but simpler, as it is in the species with fasciclodes, H. aegypticum and H. elodes (Robson, 1972a : figs 8,9). (e) Sect. Humifusoideum Saunders (1937) investigated Hypericum peplidifolium because it
RMEBKWJ5–Egyptian grasshopper, Egyptian Locust (Anacridium aegyptium, Anacridium aegypticum), sitting on a branch
RMRGJHR6–. Bulletin of the British Museum (Natural History) Botany. Fig. 45 Plan of toral vasculature of//, goyanesii (sect. 29). Note how five carpel traces serve three carpels (1,2+4, 3 + 5).. Fig. 46 Plan of toral vasculature of//, canadense (sect. 30). Note the extreme 'dissection' of the carpel traces. (g) The 'Elodes' group Hypericum aegypticum and H. elodes have toral vasculature that is typical of '3 + 3' Hypericum species. The fasciclodes have no vascular connections with the stele (cf. Robson, 1972 : figs 8, 9). In H. aegypticum but not H. elodes, however, there are obscure vestigial vascular
RMEBKWJA–Egyptian grasshopper, Egyptian Locust (Anacridium aegyptium, Anacridium aegypticum), sitting on a branch
RMEBKWJB–Egyptian grasshopper, Egyptian Locust (Anacridium aegyptium, Anacridium aegypticum), sitting on a branch flapping wings