ライフサイエンスコーパス: sp. nov

1 & sp. nov., but dinophytes that exhibit a partiform hypoth

2 sp. nov., from the Middle Jurassic Daohugou biota of Chi

3 & sp. nov., which has a cladopyxidoid tabulation.

4 sp. nov., with a rectricial fan combined with an elongat

5 We propose Clostridium aldenense sp. nov. and Clostridium citroniae sp. nov. as names for

6 bed in 2022 was Pseudochrobactrum algeriense sp. nov., a member of the Brucellaceae family, isolated

7 f the fossil species Proptomaphaginus alleni sp. nov., and one fossil and two extant species of Colum

8 Mycoplasma alligatoris sp. nov. was cultured from multiple organs, peripheral b

9 le species, which we name Borrelia americana sp. nov.

10 saurid, Dineobellator notohesperus, gen. and sp. nov., consisting of a partial skeleton from the Uppe

11 berculate, Yubaartar zhongyuanensis gen. and sp. nov., is reported from the Upper Cretaceous of Luanc

12 described as Emarellia grisea gen. nov. and sp. nov; the sixth isolate represents a sister species i

13 species designations (Fusobacterium animalis sp. nov.

14 new species, namely as Micromonospora arida sp. nov. and Micromonospora inaquosa sp. nov., respectiv

15 H. attractiva sp. nov., H. belgica sp. nov., H. parva sp. nov., H. pse

16 inct species of mud terrapin Pelusios awashi sp. nov.

17 The paleoecology of Pelusios awashi sp. nov.

18 , for which the name Neisseria bacilliformis sp. nov. is proposed.

19 Interestingly, V. bathopelagicus sp. nov.

20 support strong toxicity of V. bathopelagicus sp. nov.

21 V. bathopelagicus sp. nov.

22 V. bathopelagicus sp. nov., isolated from a remote Mediterranean bathypela

23 ine bacterial species, Vibrio bathopelagicus sp. nov., isolated from warm bathypelagic waters (3309 m

24 garinii, B. burgdorferi, and B. bavariensis sp. nov.

25 H. attractiva sp. nov., H. belgica sp. nov., H. parva sp. nov., H. pseudomongolica sp. nov.

26 and they are described here as R. bellissima sp. nov.

27 Calumma and a new species, Calumma benovskyi sp. nov., is erected for it.

28 g the following species: Flavonora boliviana sp. nov., F. inversa comb.

29 s.s., C. occultus sp. nov., and C. borealis sp. nov., which are described herein.

30 ssettii, Borrelia carolinensis, and Borrelia sp. nov.

31 oci from seven samples representing Borrelia sp. nov. isolated from nymphal Ixodes minor collected in

32 n and the gene p66 clearly separate Borrelia sp. nov. isolates from South Carolina into two subgroups

33 We propose that seven Borrelia sp. nov. isolates from South Carolina and two California

34 neophyton lignieri: Palaeoglomus boullardii (sp. nov. Glomeromycota) colonizes parenchyma in a discon

35 nically significant Staphylococcus brunensis sp. nov., as well as Streptococcus suis subsp.

36 Combresomyces caespitosus sp. nov. consists of spherical oogonia bearing densely s

37 genus included Campylobacter californiensis sp. nov., recovered from bovine feces during a raw milk-

38 ce and mean ( SD) intensity of C. camanchaco sp. nov.

39 al body length of Carcinonemertes camanchaco sp. nov.

40 The type strain of Varibaculum cambriensis sp. nov. is CCUG 44998(T) = CIP 107344(T).

41 a novel species; the name Penicillium canis sp. nov. is proposed.

42 d as a new species, Actinomyces cardiffensis sp. nov.

43 ., K. marcocurinii sp. nov., K. carlosrochai sp. nov. and K. ulfjondeliusi sp. nov.

44 es, V. viridianus is redescribed, V. celatus sp. nov.

45 The L-ASNase expressed by P. cerradense sp. nov may have promising antineoplastic properties.

46 production enzyme by Penicillium cerradense sp. nov.

47 Helicobacter cetorum sp. nov. has been cultured from the stomach of Atlantic

48 with the proposed name Helicobacter cetorum, sp. nov. (type strain MIT 99-5656; GenBank accession num

49 myitthanensis sp. nov. and R. chindwinensis sp. nov. were recorded from the Chindwin Basin, and R. m

50 aldenense sp. nov. and Clostridium citroniae sp. nov. as names for these new species.

51 adapiform skeletons (Ignacius clarkforkensis sp. nov.; Dryomomys szalayi, gen. et sp. nov.), and the

52 tinct species of spruce (Picea critchfieldii sp. nov.) was widespread in eastern North America during

53 nov., C. pseudojurassica sp. nov., C. dayana sp. nov.

54 Microbacterium deferre sp. nov.

55 ell as the pxmABC operon in M. denitrificans sp. nov. strain FJG1(T) in response to hypoxia.

56 ate reductase NarGH serving M. denitrificans sp. nov. strain FJG1(T) to conserve energy during oxygen

57 rial methanotroph Methylomonas denitrificans sp. nov. strain FJG1(T) couples methane oxidation to nit

58 ose the new species Cellulomonas denverensis sp. nov., with the type strain W6929 (ATCC BAA-788(T) or

59 hominin species (Australopithecus deyiremeda sp. nov.) from 3.3-3.5-million-year-old deposits in the

60 ed species, Physalia minuta Church and Dunn, sp. nov.

61 es of Proptomaphaginus: Columnomyces electri sp. nov. associated with the fossil Proptomaphaginus all

62 ibe them as a new species, Strychnos electri sp. nov, in the plant family Loganiaceae (Gentianales).

63 Yaukthwa elongatula sp. nov., a peculiar species, conchologically resembling

64 nov., Tunturibacter empetritectus sp. nov., Tunturibacter gelidoferens sp. nov., and Tuntu

65 8) is described here as Blastomyces emzantsi sp. nov.

66 AA-781(T) = CCUG 47861(T)); and Enterococcus sp. nov. CDC PNS-E3, type strain SS-1730(T) (= ATCC BAA-

67 s were provisionally designated Enterococcus sp. nov. CDC Proposed New Species of Enterococcus 1 (CDC

68 CC BAA-780(T) = CCUG 47860(T)); Enterococcus sp. nov. CDC PNS-E2, type strain SS-1729(T) (= ATCC BAA-

69 et sp. nov, from the Upper Ordovician (Katian) Beecher's Tr

70 et sp. nov.) from the Cambrian Chengjiang Biota, China, rev

71 et sp. nov., a dolphin from the Miocene proto-Amazonia of P

72 et sp. nov., an early-diverging theropod, which supports th

73 et sp. nov., an exquisitely preserved fossil species from t

74 et sp. nov., an inconspicuous, free-living heterotrophic pr

75 et sp. nov., based on a new skeleton from the Middle Jurass

76 et sp. nov., based on a specimen recovered from the Upper C

77 et sp. nov., based on unique characters in the dentition.

78 et sp. nov., because it shows a unique combination of chara

79 et sp. nov., exhibiting ontogeny and exceptional preservati

80 et sp. nov., from lower Upper Cretaceous deposits of Mongol

81 et sp. nov., from mid-Cretaceous Burmese amber.

82 et sp. nov., from the Carboniferous (Mississippian) Bear Gu

83 et sp. nov., from the Dengying Formation (around 551-539 mi

84 et sp. nov., from the Francis Creek Shale (309-307 million

85 et sp. nov., from the Late Triassic epoch of Argentina that

86 et sp. nov., from the lower Cambrian Sirius Passet Lagersta

87 et sp. nov., from the Lower Cretaceous Jiufotang Formation

88 et sp. nov., from the Lower Cretaceous Khuren Dukh Formatio

89 et sp. nov., from the lower Silurian of China that pre-date

90 et sp. nov., has strong dental affinities with Asian Africa

91 et sp. nov., is a brachystelechid recumbirostran, a group a

92 et sp. nov., is generally similar to the well-known Mesozoi

93 et sp. nov., is one of very few structurally complex euphyl

94 et sp. nov., preserved in three dimensions, that helps brid

95 et sp. nov., preserving internal tissue, from Albian-Cenoma

96 et sp. nov., was comparable in size to the smallest-known p

97 et sp. nov., which is a basal member of the Bothremydidae.

98 et sp. nov., with conical, hollow chitinous sclerites and a

99 et sp. nov.-from the Ediacaran of Charnwood Forest (557-562

100 uangia, the new taxon Daihua sanqiong gen et sp. nov., and Dinomischus venustus, informally referred

101 rhomaleosaurids (Stratesaurus taylori gen et sp. nov.; Avalonnectes arturi gen. et sp. nov) and the m

102 gen et sp. nov.; Avalonnectes arturi gen. et sp. nov) and the most basal plesiosauroid, Eoplesiosauru

103 which we name Yilingia spiciformis (gen. et sp. nov).

104 ezsaurian, Shishugounykus inexpectus gen. et sp. nov, based on a specimen recovered from the Middle-U

105 ich we name Oculudentavis khaungraae gen. et sp. nov.

106 a new taxon, Elektorornis chenguangi gen. et sp. nov.

107 fen Archipelago, Alcmonavis poeschli gen. et sp. nov.

108 go) of Scotland: Albalimulus bottoni gen. et sp. nov.

109 est known myodocope, Luprisca incuba gen. et sp. nov.

110 rmally describe Rhizosmilodon fiteae gen. et sp. nov.

111 et sp. nov., and Ampezzoa triassica gen. et sp. nov.

112 siosauroid, Eoplesiosaurus antiquior gen. et sp. nov.

113 mall bolosaurid, Eudibamus cursoris, gen. et sp. nov. and confirms the widespread distribution of Bol

114 he cochleosaurid Nigerpeton ricqlesi gen. et sp. nov. and the stem edopoid Saharastega moradiensis ge

115 c analysis places Asilisaurus kongwe gen. et sp. nov. as an avian-line archosaur and a member of the

116 Savannasaurus elliottorum gen. et sp. nov. comprises one of the most complete Cretaceous s

117 a tubular fossil Yuganotheca elegans gen. et sp. nov. from the Cambrian (Stage 3) Chengjiang Lagersta

118 Nidelric pugio gen. et sp. nov. from the Cambrian Series 2 Heilinpu Formation,

119 Here, we describe Ikaria wariootia gen. et sp. nov. from the Ediacara Member, South Australia, a sm

120 Cyathinema digermulense gen. et sp. nov. from the Nyborg Formation, Vestertana Group, Di

121 scribe Notocolossus gonzalezparejasi gen. et sp. nov. from the Upper Cretaceous of Mendoza Province,

122 Protoclaviger trichodens gen. et sp. nov. is a stem-group member of Clavigeritae, a speci

123 Here, Aragomantispa lacerata gen. et sp. nov. is described from ca. 105-million-year-old San

124 Namapoikia rietoogensis gen. et sp. nov. is up to 1 meter in diameter and bears a comple

125 Pampaphoneus biccai gen. et sp. nov. was a dinocephalian "mammal-like reptile" membe

126 Tubes of Funisia dorothea gen. et sp. nov. were anchored within the shallow, sandy sea bed

127 Martialis heureka (gen. et sp. nov.) also constitutes the sole representative of a

128 d pollinarium (of Meliorchis caribea gen. et sp. nov.) attached to the mesoscutellum of an extinct st

129 atheroidan mammal (Gurbanodelta kara gen. et sp. nov.) discovered at the South Gobi locality in China

130 early ornithodiran (Kongonaphon kely gen. et sp. nov.) from the Mid-to-Upper Triassic of Madagascar t

131 om South Carolina (Cotylocara macei, gen. et sp. nov.) that has several features suggestive of echolo

132 rkensis sp. nov.; Dryomomys szalayi, gen. et sp. nov.), and the most plesiomorphic extant tree shrew,

133 t the cultivation of Lenisia limosa, gen. et sp. nov., a newly discovered breviate colonized by relat

134 Here we describe Parmastega aelidae gen. et sp. nov., a tetrapod from Russia dated to the earliest F

135 Here we present Janusiscus schultzei gen. et sp. nov., an Early Devonian (approximately 415 Myr ago)

136 pecies of mites, Triasacarus fedelei gen. et sp. nov., and Ampezzoa triassica gen. et sp. nov.

137 stem edopoid Saharastega moradiensis gen. et sp. nov., as relicts of Carboniferous lineages that dive

138 w theropod, Yunyangosaurus puanensis gen. et sp. nov., based on a fragmentary specimen recovered from

139 a second species, Gigantotermes rex gen. et sp. nov., based on one of the largest soldier termites y

140 ne described as Krishnatermes yoddha gen. et sp. nov., comprising the worker/pseudergate, winged repr

141 uropodomorph, Irisosaurus yimenensis gen. et sp. nov., from the Early Jurassic Fengjiahe Formation of

142 a fossil, Kulindroplax perissokomos gen. et sp. nov., from the Herefordshire Lagerstatte (about 425

143 zed stem bird, Falcatakely forsterae gen. et sp. nov., from the Late Cretaceous epoch of Madagascar t

144 nantiornithine, Avimaia schweitzerae gen. et sp. nov., from the Lower Cretaceous Xiagou Formation wit

145 Asteriornis maastrichtensis, gen. et sp. nov., from the Maastrichtian age of Belgium (66.8-66

146 Rapetosaurus krausei gen. et sp. nov., from the Maevarano Formation of Madagascar, pr

147 actyloidea, Kryptodrakon progenitor, gen. et sp. nov., from the terrestrial Middle-Upper Jurassic bou

148 of a primitive bird, Rahona ostromi, gen. et sp. nov., has been discovered from the Late Cretaceous o

149 l aleocharine, Mesosymbion compactus gen. et sp. nov., in Burmese amber ( approximately 99 million ye

150 This taxon, Suskityrannus hazelae gen. et sp. nov., is a small-bodied species phylogenetically int

151 which we name Mitosporidium daphniae gen. et sp. nov., possesses a mitochondrial genome including gen

152 r from Ganzhou, Tongtianlong limosus gen. et sp. nov., represented by a remarkably well-preserved spe

153 Masiakasaurus knopfleri, gen. et sp. nov., represented by several skull elements and much

154 rmation of Myanmar, Afrasia djijidae gen. et sp. nov., that is remarkably similar to, yet dentally mo

155 w hadrosaurid, Kamuysaurus japonicus gen. et sp. nov., was discovered from the outer shelf deposits o

156 from Mongolia, Zuunia chimidtsereni gen. et sp. nov., which exhibits key characteristics of submicro

157 ay taxon, *Lessiniabatis aenigmatica gen. et sp. nov., which is unique among the myliobatiform batoid

158 ies of allosauroid--Siats meekerorum gen. et sp. nov.--providing the first evidence for the cosmopoli

159 One-Anebos phrixos gen. et sp. nov.-is of uncertain affinities, and preserves porti

160 neage of insect, Mesophthirus engeli gen et. sp. nov. within Mesophthiridae fam. nov. from the mid-Cr

161 Here we describe Kylinxia zhangi gen. et. sp. nov., a euarthropod from the early Cambrian Chengjia

162 escribed species (here named Choanoeca flexa sp. nov.) that forms multicellular cup-shaped colonies.

163 all articulated specimens of Wiwaxia foliosa sp. nov. from the Xiaoshiba fauna (Cambrian Stage 3, Hon

164 Stenotrophomonas forensis sp. nov.

165 Stenotrophomonas forensis sp. nov., derived from specimen transport medium, was de

166 itectus sp. nov., Tunturibacter gelidoferens sp. nov., and Tunturibacter psychrotolerans sp. nov.

167 to be formally named as Citrobacter gillenii sp. nov. and Citrobacter murliniae sp. nov., respectivel

168 ngs, a new species, "Bacteroides goldsteinii sp. nov," is proposed.

169 The type strains of Peptoniphilus gorbachii sp. nov., Peptoniphilus olsenii sp. nov., and Anaerococc

170 three novel species, Peptoniphilus gorbachii sp. nov., Peptoniphilus olsenii sp. nov., and Anaerococc

171 kull and mandible of Clevosaurus hadroprodon sp. nov., a new taxon of sphenodontian lepidosaur from t

172 cattle in Europe, and Moraxella haemolytica sp. nov.

173 roperties, we classify Brachyspira hampsonii sp. nov. as a unique species with genetically diverse ye

174 Dominican amber, Columnomyces hispaniolensis sp. nov.

175 A. houstonensis sp. nov. was associated with abscesses.

176 with three strains, Actinomyces houstonensis sp. nov., was phenotypically similar to A. meyeri and A.

177 One of these, Providencia huashanensis sp. nov.

178 logically earliest mysticete, Fucaia humilis sp. nov.

179 nd magnetostratigraphy places Fucaia humilis sp. nov.

180 a separate species (Tanystropheus hydroides sp. nov.).

181 a arida sp. nov. and Micromonospora inaquosa sp. nov., respectively.

182 I and "W. carteri" III as Westralunio inbisi sp. nov.

183 scribed from rabbits, Mannheimia indoligenes sp. nov.

184 Yaukthwa paiensis sp. nov. and Y. inlenensis sp. nov., are both endemic to the Salween River basin.

185 The new species, Epiaceratherium itjilik sp. nov., is differentiated from the four other members

186 ibe Cessator anachronicus Ferreira and Ivie, sp. nov.

187 isolates have been designated N. kruczakiae sp. nov.

188 were recognized, including Neisseria leonii sp. nov.

189 ecies-N. lancensis and Nanotyrannus lethaeus sp. nov.

190 ew species of Cretolimonia: C. lukashevichae sp. nov., C. pseudojurassica sp. nov., C. dayana sp. nov

191 haracters recognizes Teilhardina magnoliana, sp. nov., as the most basal member of this genus current

192 osed: Kryptodasys gen. nov., K. marcocurinii sp. nov., K. carlosrochai sp. nov. and K. ulfjondeliusi

193 We propose the name Helicobacter marmotae sp. nov. for these organisms.

194 member of this group, Xandarella mauretanica sp. nov., from the middle Cambrian (Stage 5) Tatelt Form

195 new forstercooperiine, Pappaceras meiomenus sp. nov., from the late Early Eocene Arshanto Formation,

196 from Quebec (Canada) - Nebuloxyla mikmaqiana sp. nov.

197 from sedimentary rocks, and C. mikolajczyki sp. nov.

198 describe a new species, Gelidium millariana sp. nov., previously identified as G. isabelae from Aust

199 tos canceri n. gen. et n. sp. and M. mimicus sp. nov., respectively).

200 perm seed-bearing organ, Umkomasia mongolica sp. nov., based on hundreds of three-dimensionally prese

201 plex, and it has been named M. montefiorense sp. nov.

202 . callifera (Martens, 1860), T. munelliptica sp. nov., and T. thaiensis sp. nov.

203 Munoz sp. nov., distinguish it from hybrid tetraploid material

204 olsenii sp. nov., and Anaerococcus murdochii sp. nov. are WAL 10418(T) (= CCUG 53341(T) = ATCC BAA-13

205 olsenii sp. nov., and Anaerococcus murdochii sp. nov., are proposed.

206 gillenii sp. nov. and Citrobacter murliniae sp. nov., respectively.

207 Radiatula myitthanensis sp. nov. and R. chindwinensis sp. nov. were recorded fro

208 bers of Staphylococcaceae, Moraxella nasovis sp. nov.

209 e propose the name Corynebacterium nigricans sp. nov. for this group of coryneforms.

210 dings, two new species, "Bacteroides nordii" sp. nov. and "Bacteroides salyersae" sp. nov, are propos

211 'Methanoflorens stordalenmirensis' gen. nov. sp. nov., belonging to the uncultivated lineage 'Rice Cl

212 ew order, Ca. Lunaplasma lacustris ord. nov. sp. nov.

213 nov., sp. nov., and Mycoplasma phocimorsus sp. nov.

214 nov., sp. nov., exhibits features resembling extant Glomeromyc

215 estman species, Hastocularis argusgen. nov., sp. nov., reconstructed with microtomography (microCT).

216 species, Varibaculum cambriensis gen. nov., sp. nov.

217 ibed as Palaeoleptochlamys hassii gen. nov., sp. nov. from a pond along the Rhynie alluvial plain, wh

218 Palaeoendogone gwynne-vaughaniae (gen. nov., sp. nov. Mucoromycotina) colonizes parenchyma in the bas

219 cription of Cenarchaeum symbiosum gen. nov., sp. nov., a symbiotic archaeon closely related to other

220 s gen. nov. as Inquilinus limosus gen. nov., sp. nov., or as Inquilinus sp.

221 s in Thailand: C. volvulus s.s., C. occultus sp. nov., and C. borealis sp. nov., which are described

222 Moraxella oculi sp. nov., distinct from Moraxella bovis and Moraxella bo

223 us gorbachii sp. nov., Peptoniphilus olsenii sp. nov., and Anaerococcus murdochii sp. nov. are WAL 10

224 us gorbachii sp. nov., Peptoniphilus olsenii sp. nov., and Anaerococcus murdochii sp. nov., are propo

225 lus, for which the name Bacillus oryziterrae sp. nov. is proposed.

226 Here we report Dactylobiotus ovimutans sp. nov. from King George Island, Antarctica.

227 The two new species, Yaukthwa paiensis sp. nov. and Y. inlenensis sp. nov., are both endemic to

228 Gram-negative pathogens, Vibrio paracholerae sp. nov.

229 organisms Corynebacterium parakroppenstedtii sp. nov.

230 tiva sp. nov., H. belgica sp. nov., H. parva sp. nov., H. pseudomongolica sp. nov.

231 emic of Hispaniola), and Columnomyces peckii sp. nov.

232 Rhopalodiaceae diatoms Epithemia pelagica sp. nov.

233 nov., sp. nov., and Mycoplasma phocimorsus sp. nov.

234 inifera clade; the name Exophiala polymorpha sp. nov. is proposed.

235 scribed as a distinct species, L. ponderosae sp. nov.

236 hometrical method to delineate L. ponderosae sp. nov.

237 and divergence is high within L. ponderosae sp. nov., but low within L. niger.

238 classified as a new species, Kingella potus sp. nov.

239 . lukashevichae sp. nov., C. pseudojurassica sp. nov., C. dayana sp. nov.

240 and Corynebacterium pseudokroppenstedtii sp. nov.

241 nov., H. parva sp. nov., H. pseudomongolica sp. nov.

242 sp. nov., and Tunturibacter psychrotolerans sp. nov.

243 respiratory organs of Adelophthalmus pyrrhae sp. nov. from the Carboniferous of Montagne Noire, Franc

244 ns be classified as Actinomyces radicidentis sp. nov.

245 Combresomyces rarus sp. nov. consists of spherical oogonia bearing widely sp

246 native to the Ryukyu Islands: C. ryukyuensis sp. nov.

247 id fungus, Batrachochytrium salamandrivorans sp. nov., from this salamander population.

248 nordii" sp. nov. and "Bacteroides salyersae" sp. nov, are proposed.

249 Pelagornis sandersi sp. nov. is represented by a skull and substantial postc

250 se the designation Enterococcus sanguinicola sp. nov.

251 ium be classified as Helcococcus seattlensis sp. nov.

252 The bivalved euarthropod Clypecaris serrata sp. nov., recovered from the Cambrian (Stage 3) Hongjing

253 we propose the name Mycobacterium sherrisii sp. nov.

254 The name Mycoplasma sphenisci sp. nov.

255 e propose the name Tsukamurella strandjordae sp. nov.

256 Bartonella tamiae sp. nov.

257 , T. munelliptica sp. nov., and T. thaiensis sp. nov.

258 ptococcus species, Streptococcus toyakuensis sp. nov., is noteworthy for exhibiting multi-drug resist

259 We propose the name Mycobacterium triplex sp. nov. for this new taxon.

260 new ankylosaurid dinosaur, Tarchia tumanovae sp. nov., has been recovered from the Upper Cretaceous N

261 gative helicobacter, Helicobacter typhlonius sp. nov., which was isolated from colonies of laboratory

262 . carlosrochai sp. nov. and K. ulfjondeliusi sp. nov.

263 ich the name Agrobacterium vacciniicorymbosi sp. nov.

264 inii, B. afzelii, B. japonica, B. valaisiana sp. nov., and B. andersonii), but the RFLP patterns vari

265 for which the name Cardiobacterium valvarum sp. nov. is proposed.

266 and Fusobacterium vincentii sp. nov.) is also noteworthy.

267 Leoparreysia whitteni sp. nov., the smallest representative of this genus, was

268 w giant ichthyosaur Cymbospondylus youngorum sp. nov.