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Re::Ferences 202 RE::FERENCES 202 RBPSREMCSS ABOLARIN/M.O. (1970) A note on the trypanosomes of the African fresh \vater fishes and some comments on the possible relationship between' taxonomy and pathology in trypanosomes. Bull.gpizoot. Pis. Afr.,., 18 : 221 - 228. ACHOLONU,A.D. (1974) Haemogreqarina pseudemydis n.sp. (Apicomplexa : Ifeemogregarinidae)^ and PSrhemocyton chelo* nanrni n.sp. in turtles from Louisiana. J. Protozool.,21; 659 - 654. ARAI'JTES,J.B. & FCNSECA,P.DA. (1931) Pesquisas sobre trypanosomas. Mems. Inst. Butantan^, 6_ :• 215 - 229. MPJJ\,S.C. (1970) Two nevr trypanosomes from California toads and lizards. J.Protozool.,17 t 370 - 373. (1971) Trypanosomes in v/ild California sandflies' and extrinsic stages:in Trypanosoma bufophle- botomi . J.Protozool.,18 : 433 - 436. BAICER,J.R. (1960) Trypanosomes and dactylosomes from the blood of fresh v/ater fish in East Africa. Parasitology, 50;- 515 - 526. (1969) Parasitic protozoa. Hutichinson Uniyersity Library,London.. 9 - 176. (1977) Some trypanosomes of African Anuran. Ptoto- zooloqy, 3^: 75 - 82. 203 BALFOUR,A. (1905) A haemogregarlne of mammals,H.j aculi (H.balfouri Lave ran) . J.trrop. Medi. Hyq., § : 241 - 244. (1908) Miscellaneous notes Khartoum. Rep. Wellcome. trop.Res.Labs,, 3 : 59. BPJJ^,G.H. (1958) A haemoqreqarine from a water snake,Matrix piscator taken in the vicinity Of Bombay,India. J.Protozool.,5:274 - 281. (1967) Some blood sporosoans from East African reptiles.J.Protozool.,14;198 - 210. __, CIIAO,J. & TELFORD,,3.R.Jr. (1967) The life history °^ Hepatozoon rarefaciens (Sambon S Seligmann,1907) from Dr^Tnarchon corasis (colubridae) and its expe­ rimental transfer to Constrictor constrictor (Boidae). J.Parasitol.,53 : 897 - 909. ',. S (1969) Hepatozoon fusifex sp.n. a haemoqreqarine from Boa constrictor producing marked morphological chanqes in infected erythrocytes. £. Parasitol., 55 :• 800 - 813, & CHAO, J.(1973) The complete development of the sporogonous stages of Hepatozoon rarefaciens cultured in a Culex piioiens cell line. J.Parasitol., 59 : 513 - 515. 204' BARDSIiEr,J.E.. (1969) "A preliminary study of the Trypanosoma rotatorium complex in the BullfrogyRana cates- beiana Shaw"M.Sc. Thesis,Queen's University, Kingston,Canada. & HfiRMSEN,R. (1973) 'The Trypanosomes of Anura' IN :: Advances in Parasitology, 11 ; 1-73. Academic press,liondon and New York, BECKER,C.D,(1967) Trypanosoma occidentalis sp,n. from fresh water teleosts in Washington State. J.Protozool., 14 ::. 15 3 - 156. (1970) H&ematozoa of fishes,with emphasis on North American records.Spl. Publ.No.50 :82 - 100 Anerican fish Society,Washington,D.C. (1977) Flagellate parasites of fish; Parasitic protozoa (ed) J.P. Kreier Academic Press pp.357-416. BENTLEY,C.A. (1905) Preliminary note upon a Leucocytozoon of the dog. Br, ,tted.J., 1_^ r 988. BERESTNEPP^N". (1903) "Imer einen neuen Blutparasiten der indischen Prosche". Arch.protistenk., 2 y 343 •" 348. BHAriA,B.L. (1936) The fauna of British India.. Taylor and Francis,London. BILLET, A..(1895) Sur les hematozoaires des pphidiens du Haut- Tonkin. C.r.Soc.Biol.,j:0; 29 - 31.. (1904) Culture d'-tin trypanosome de la grenouille Chez une hirudinee; relation ontogenique possible de ce trypanosome avec une Hemogregarine. C.r.Acad. Sci., 139 : 574 - 576. 205 BOODEN^T., CHAO,J. & BJikLL^G.H. (1970) Transfer of Hfepatozoon- sp. from Boa constrictor to a lizard/Anolis caroli- nensiS/by mosquito vectors. iT.Parasitol./56;832-833. BORNER^C. (19011) Utitersuchungen uber Hamosporidien^I. Ein Beitrag zur kenntnis des genus Haemoqreqarina Danilewsky, '^'^wiss.Zool. / 69 : 398 - 416. BOTELHO,C.(1907) Sur Seux nouveaux trypanosomes des poissons. C.r.Soc.Biol./63 ; 28 - 29. BOUET, G. (1909'^) Sur quelques trypanosomes des vertebres a sang froid de 1"Afrique occidentale Francaise. C.r.Soc.Biol.,^6i 609 - 611. BRAY,R.S. (1964) A check-list of the parasitic protozoa of West Africa with some notes on their classification'. Bull. Inst. Francais: Afrique Noire^,- 26 : 238 - 315. BRUMPT,E., (19Crff); Sur quelques especes nouvelles de trypanosomes parasites des poissons d'eau douce;leur mode d' evolution . C.r.Soc.Biol., 60 : 160 - 164x (1914) Le j^enodiagnostic. Application du diagnostic de quelques infections parasitaires et en particulier . ' a la trypanosome de Chagas. Bull. Soc. Path. exot.,7 : 706 - 710. BYKHOVSKATA-PAyLOVSKAYA, I.E.,GUSEV, A. V. , DUBINnm,M.N. , IZYUMOVA, N .A., SI4IRN0VA, T .S . /SOKOLOVSKAYA, I.L. , STEm,G .A. , SCPiUIJlAN, S.S. & EPSTEIN,V.M.(1962) Identification key for parasites of the fresh water fish of the U.S.S.R. Opred.Faune SSR_ KP. 80_ : 1 - 770. 206 CARIMr,A. (1910) Sobre uma Haemogregarina da Phylodrias schotti Schleg. Sau. Paulo ---Rev.Med. No. 17. CJiSTELLMri,A. & WILLEy,A. (1904): Observations on the haematozoa of vertebrates in Ceylon. Spolia Zfeylan^y 2^. •78-92. SL ( 1905 - 1906) Observations on haema­ tozoa in Ceylon. Q.Jl.microsc.Sci.,49: 383-402. CHAO,J. &: BALL,G.H. (1969) Transfer of Hepatozoon razEfaciens (Sambon & Seligmann,1907) from the indigo sna>:e to a gopher snake by a mosquito vector . J.Parasito1., 55_ : 681 - 682. CHATTERJEE, A., CHi^ZTTERJEE, D. & DASGUPTA, B. (1970) Multiplicity of blood infection in the Himalayan flying squirrel. J.Beng.nat.Hist.Soc, 36 : 88. CHOUDHURY,A, Mi'iNDAL,D. & CHOUI}HURY,B. (1978) Redescription of a haemogregarine from an Indian ti^thon, Python molurus L. and morphometric determination of host-cell deformities. Proc.Asian.Cong.Parasitology,Sec,4. p. 186 - 187. CLARK,G.M.(1958) Hfepatozoon qriseisciuri n.sp.,a new species of itepatozoon from the grey squirrel (Sclurus^ caroli- nensis Gmelin,1788) with studies on the life cycle. J.Parasito1.,44 ; 52 - 63. & BRADFORD,J. (1969) Blood parasites of some reptiles of the Pacific North«r West. dT.Protozool., 16;478-481". COLES,A.C. (1914) Blood parasites found in mammals,birds and fishes in England. Parasitology, 7_^ :" 17 - 61. * CHAUSSAT,J.B.(1850) Des hematoaoaires ( Thesis for the doctorate degree in Medicine) Paris, 207 COMMES,C.H. (1919)) ETemogre'ciarine et trypanosome d'un chelonien (cinixis homeana)» Blxll»Soc.Path.exot«, 12: 14-16. CONOR,A. (19121 Sur une hemogregarine karyolysante de Haja hajae C.r.Soc.Biol.,72 : 374 - 376. CUENOD/A. (1909) Sur une Hemogregarine karyolysante de Mthorhyn- chus diadem a. Archs. Inst. Pasteur Tunis, 4^ : 43 - 44, DANILEWSKY,.B. (1885a) Zur parasitologie des blutes. Biol.2ibl., 5_ :, 529 - 5 36. (1885b) Die Hamattozoon der Kaltbluter, Arch. •Biikrosk,Anat., _2i._ :. 588 - 598. (l'889):'La parasitologie comparee du sang. l.Nouvelles recherches sur les parasites du sang des oiseaux, Kharkoff. DALY,J.J. & DEGIUSTI^L.D. (19711) Trypanosoma catostomi n.sp. from the white sucker Catostomus catostomus commersoni (Lao.): J.Protozool., 18 r 414 - 417^. DAMAYANTHI,K. & RAO,S.B. (.197a| The occurrence of Trypanosoma ranarum in the heart muscle and the change in the total muscle proteins of the heart. Proc. 2nd. Natl« Cong. Parasitology^. Varanasi,Seci2, p. 13. DASGUPTA,B, (1965) Blood parasites in the Himalayan flying squirrel Trans.R.Soc.trop.Med.Hyg./ 59 r 716, (1967)! A new malarial parasite in the flying squirrel. Parasitology, 57 : 467 - 474. &•: CHaTTERJEE/A. (1969) Further observations on the malaria parasite of the Himalayan flying squirrel. Parasitology, 59 j; 733 - 736. 208 DASGUPTA,B:. S PAL,N. (1974): Lung as a site of development of the malaria parasite. Tirans. R.Soc.trop. Med.Hyg;./ 68 ;: 173. ,, BANERJEE^M. & CHATTERJEE,D. (1967) Filarial infec­ tion in Himalayan flying squirrel. Trans.R. Soc. trop. Med. Hyg., 59 : 441. ,, CHATTERJEE,A. &' RAY,H.N. (1970) Comparative account of the merocy?ts;seen in the Himalayan flying squirrels,with a note on the identityy of the parasites. Parasitology, 61 : 411 - 415, , PAL,N. ,CHATTERJEE, A. & CimTTERJEE, D , (1971") A new malaria parasite in Hylopetes alboniger Hodgson. Parasitology, 62; 195 - 197. DASGUPTA, S., DASGUPTA, B., CHATTER JEE, A., DE, W . C., NANDI, J., SAHA, K., ROY,R.,GHOSH,M., &MAJUMDAR,G. (1978) Dipetalonema laemmleri sp.nov. (Nematoda : Dipetalonematidae) from the Himalayan flying squirrel,Petaurista maqnificus. Z.Parasitenkd., 155 : 195 -.198. DE -MELLO,l.P. & VALLES,C.E. (1936) On the Trypanosoma found in the blood of the Indian fresh water fish, CI arias; batrachus {Linn,}. Prpc. Indian Acad.Sci.,3B 120 - 124. DESSER,S.S. ; : -->': (1973) A description of intraerythrocytic schizonts and gametocytes of a haemogregarine of the snapping turtle Chelydra serpentina.. Can.jjf. Zool., 51 :; 432 - 432. * DASGUPTA,B.,DASGUPTA,S. & SINHA,C.K. (1982) Case of an Indian python in hill conditions at the Padmaja Naidu Zoological Park,Darjeeling. Jbur.Beng, nat,Hist,soc,,Jl:85-8ff. 209 DIJyyiONDy L.S., (1950) A new trypanosome^Trypanosoma pipientis n.sp. from the leopard frog Rana pipiens> £.• Parasitol., 36 (Suppl.) : 24 - 25. (1958) " A study of morphology,biology and taxonomy of the trypanosomes of Anura.' Doctoral Thesis, University of Minnesota, U.S.A. (1965): Trypanosomes of Anura. Wildj.. Pis.,44; 1-77 DIAS,J.A.T.S. (19511 Duas novas especies'de tripanossomas parasitas da tartaruga "Pelusios sinuatus zuluensis" Hewitt, 1927. Mocambique, 6B s 97 - 1113?, (1952) Uma nova especie de tripanosoma,parasita do Clarias gariepienus (Burchell,1882) piexe Africano de ague doce. An. Inst. Med.Trop. Lisbon, 9 i: 167 - 179. (1955) Estudos sobre os hematozoairos dos peixes de aqua doce de Mocambique, I. Descsicao de algu- mas novas especies de tripanossomas parasites da Tilapia mossambica(Peters/. 1852). Mocambique, 82 : 47 - 63. DOBELL,C.C. (1908) Some notes on the haemogregarines parasitic in snakes-. Parasitology, 1' :: 288 - 295. DOPLEIN,F. (1901) Die protozoen als parasiten und krankheitserr- eger. Jena. DOUCLOUX, L. (1904) Sur une Hfemogregarine de Emys leprosa. C.r. „. Soc.piol.,56 £.564 - 565. ______ *DIAS,E. &" PREITAS>L.DE(1943) Ihtroducao ao estudo biometrico dos hemeflage1ados do genero ffehizotrypanum I. Intro- ducao,material e tecnica,problema e metodos estat- istico •. Mem. Tnst.
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