"INSUL BRIONI" (As H. marginatum brionicum: Schulze and Schlottke 1930. Totze 1933. Gossel 1935). RUSSIA: NOTE: According to Delpy (19498), Soviet authors have frequently confused H. excavatum (= H. anatolicum) under H. marginatum (= H. savignyi). Most Russian reports of "H. savignyi" appear to apply to H. excavatum (H.H.). Most Soviet records for H. anatolicum subspp. since 1948 can be considered as applying to H. excavatum and most records for H. marginatum (and in 1950 for H. p. plumbeum) as referring to what is herein called H. marginatum. After an intensive study of all available Soviet literature on ticks and tick-borne diseases, it is concluded that Delpy's remarks in this respect apply chiefly if not entirely to reports by Galuzo (1941 and 1944) and by Galuzo, Bolditzina, and Kaitmazova (1944) on ticks of Kazakstan and control of piroplasmosis vectors in that area. Correspondence with Dr. Delpy concerning this matter has not elicited a reply. On biological grounds, it appears that Galuzo's "H. savignyi anatolicum applies to H. excavatum (= H. anatolicum of Soviet workers). It is possible that the use of the name H. savignyi by Zotova and Bolditzina (1943), who reported on work with H. marginatum and H. savignyi in relation to attempts to infect ticks with brucellosis in the laboratory, also applies to H. excavatum. H. As H. marginatum: Olenev 1934. Pomerantzev 1934,1946. Pavlovsky and Pomerantzev 1934. Lototsky and Popov 1934. Galuzo 1935,1941. Galuzo and Bespalov 1935. Arginsky 1937. Bernadskaia 1939. Kurchatov 1939A,B,1940A,B,C,D,E,F,G,1941A,B,C. Pomerant zev, Matikashvily, and Lototsky 1940. Kurchatov and Sokolov 1940. Grobov 1946. Blagoveshchensky and Serdyukova 1946. Enigk 1947. Chumakov 1948A,B. Markov, Gildenblat, Kurchatov, and Petunin 1948. Piontkovskaia 1949. Gajdusek 1953,1956. Pritulin 1954. As H. marginatum marginatum: Serdyukova 1941. Grobov 1946. Piontkovskaia 1947,1949. Pavlovsky 1948. Korshunova and Petrova Piontkovskaia 1949A. Pervomaisky 1949,1950. Pervomaisky 1949,1950. Gajdusek 1953. Tselishcheva 1953. As both H. marginatum and H. savignyi: Zolotarev 1934. Galuzo 1935,1941,1944. Zotova and Bolditzina 1943. Galuzo, Bol ditzina and Kaitmazova 1944. See two paragraphs above. As H. marginatum balcanicum and H. marginatum olenevi: Schulze and Schlottke 1930. Olenev 1929A,1931A,C. Kratz 1940. As H. marginatum bacuense (apparently of Schulze, ms.): Olenev 1931A,C. As H. marginatum caspium (apparently of Schulze, ms.): Noted by Olenev 1931A,C, but described by Kratz 1940. As H. plumbeum plumbeum: Pomerantzev 1950. Piontkovskaia 1951. Melnikova 1953. As H. plumbeum: Shatas 1952. Shatas and Bustrova 1954. Pavlovsky, Pervomaisky, and Chagin 1954. Arakian and Lebedev 1955. Pillipenko and Derevianchenko 1955. Petrishe hevo 1955. Abramov 1955. Zhmaeva, Pchelkina, Mishchenko, and Karulin 1955. MIDDLE EAST: INDIA (As H. aegyptium f. typica: Sharif 1928). INDOCHINA (As H. dromedarii indosinensis: Toumanoff 1944). FAR EAST: ?CHINA: The "H. impressum rufipes" of Chodziesner (1924) is probably H. marginatum according to Kratz (1940, p. 554).7 HOSTS The common hosts of adult H. marginatum are any domestic animals, especially cattle and horses; also goats, sheep, and camels often serve. In the Crimea, horses have been stressed as hosts by Kurchatov and Sokolov (1940). A typical female taken from a dog at Amman, Trans jordan, by Dr. B. Babudieri, has been seen (Hoogstraal, ms.). Nymphs may also attack domestic animals but are much more frequent on small wild mammals and birds, while larvae feed only on these small animals. Host preferences, especially of immature stages undoubtedly vary somewhat from locality to locality, but the impression of considerable variation between areas appears to be due to incomplete observations by various workers. In Transcaucasia, birds are said to be the chief hosts of immature stages (Pomerantzev, Matikashvily, and Lototsky 1940). In the laboratory, chickens have been used (Zhmaeva, Pchelkina, Mishchenko, and Karulin 1955). In Anatolia, adults have been reared from nymphs from hares, hedgehogs, and partridges (Hoogstraal, ms.). Nuttall lot 3278 in BMNH consists of adults reared from nymphs from a hare on the River Tigris, 32°N., November 1917, by Captain P. A. Buxton; H.H. det. A single nymph has been reported from a hare in Iraq (Hubbard 1955). Hosts in Tunisia are cattle, sheep, porcupines, and hares. Adults are also found in gerbil nests (most probably newly molted, before venturing forth to find a larger host: HH). Nymphs have been taken from "Cochevis" (Galerida cristata) (Colas Belcour and Rageau 1951). In southern Morocco, larvae and nymphs were reported from the nests of jirds, Meriones shawi (Blanc, Martin, and Maurice 1946,1947A,B), while others, presumably adults (same authors 1947B), were found on domestic animals and, at certain times of the year, on the grounds of native markets. In Egypt, including Sinai, nymphs, which have been reared to typical adults, have been found on two kinds of hedgehogs, Hemiechinus aegyptius auritus and Paraechinus aethiopicus dorsalis, on fat sandrats, Psammomys o. obesus, and on jirds, Meriones shawi and M. crassus. Equally important here are lizards, Acanthodactylus boskianus, while lesser gerbils, Gerbillus g. gerbillus are less frequently found infested by nymphs (Hoogstraal, ms.). In the Arax valley of Armenia, hosts of immature stages are stated to include reptiles and wild birds (Pomerantzev 1934). Recent Soviet workers on hemorrhagic fever in Crimea report that adults attack cattle, sheep, horses, and men. Larvae and nymphs infest the European hare, Lepus europaeus transsylvanicus, in Crimea but are not found on hedgehogs, bats, rodents, dogs, or wild carnivores. Some immature specimens were taken from gray partridges, Perdix perdix, prairie larks, Melanocoripha calandria, cranes, Grus grus, and sparrows and domestic chickens (cf. Gajdusek 1953,1956). An exceptionally interesting study of H. marginatum (= H. p. plumbeum) in the Crimean National Forest Reserve has recently been reported by Melnikova (1953), whose chart is reproduced below. No. Hosts No. Hosts Host No. No. No. No. Max. No. Mean Per As is easily seen, jays, chickens, and hares are the chief hosts of immature stages in the Crimean forest. Cattle, pigs, and red deer are important adult hosts, and hares may be of some im portance. The absence of ticks on the roe deer is noteworthy. Melnikova (loc. cit.) noted that unfed larvae enter the audi tory canals of jays and chickens and molt there to nymphs and to adults; he found 118 immature ticks in the ears of a single bird. In Eastern Anatolia (Hoogstraal, ms.) partridges with larvae and nymphs of this tick similarly tightly packed in their ears have been observed. The comparative ease with which these birds were shot or even caught by hand suggested that the heavy tick infesta tion impaired the birds' keenness. Infested birds seemed muddled and confused and ran in staggering circles rather than flying or dashing off as did most of the flock. BIOLOGY Life Cycle Life cycle studies of "H. aegyptium" reported by Nuttall (1913B) were undertaken with H. marginatum. Specimens resulting from this work are at present in the Nuttall collection at the British Museum (Natural History). Nuttall found that H. margi natum may act as a two-host or as a three host tick; he believed that the "peculiar" two-host life cycle, when nymphs were fed on hedgehogs, was due to larvae remaining entangled among the spines. This is, however, probably the typical life cycle in nature. This period Nuttall believed to be the shortest time required for completion of the life cycle. From 4300 to 15500 eggs were laid by single females; the higher number probably approximates the more common figure in nature. Females may remain alive as long as 26 days after oviposition; males live much longer. The longevity of the various stages, presumably unfed, in these experiments was 345 days for larvae, 89 days for nymphs, and over 421 days for some adults. Hosts were hedgehogs, guinea pigs, and rams. Subsequently, Nuttall (1915) noted that some adults were still alive 759 days after emerging. Females that had fasted for 817 days were fed on a ram, mated with males that had fasted over 210 days, and were ovipositing when the report was written. Three times as many females (253) as males (83) were counted in the progeny of a single female. Four years later, Nuttall (1919) observed that males may remain attached to one spot of the host for as long as 122 days. More commonly, however, after preliminary feeding for periods ranging from five to 29 days, they start wandering about in search of females. After mating, when females leave the host, males do |