ライフサイエンスコーパス: pigeon

1 animal brain stimulator (ABS) implanted in a pigeon.

2 dertaking a screen for magnetic cells in the pigeon.

3 r were compared to a similar experiment with pigeons.

4 plumage coloration on the survival of feral pigeons.

5 cats, chickens, cows, dogs, ducks, pigs, and pigeons.

6 intertectal modulation was quantified in 19 pigeons.

7 s was similar to rhesus monkeys, humans, and pigeons.

8 observed reliable space-time interactions in pigeons.

9 g combined with GABA immunohistochemistry in pigeons.

10 ckens, whereas C. psittaci dominates only in pigeons.

11 e and in-flight leader-follower relations in pigeons.

12 ees-of-freedom inertial sensors to show that pigeons (1) maintain powered, banked turns like aircraft

13 Pigeons' 3-range discriminations were similar in accurac

14 Thus, pigeons achieve low speed turns much like helicopters, b

15 Notably, pigeon ADAMTS13 has only 3 distal T domains but was acti

16 Human ADAMTS13 constructed to resemble pigeon ADAMTS13 retained normal allosteric regulation an

17 Columba livia (pigeon) ADAMTS13 (pADAMTS13) resembles human delT3-6, re

18 Comparative transcriptome analysis of pigeon and chicken retinas at different embryonic stages

19 amphibian (frog), reptilian (turtle), avian (pigeon and chicken), and mammalian (mouse and human) spe

20 from the orthologous violet pigments of the pigeon and chicken.

21 ting of feather lice (Columbicola) and their pigeon and dove hosts (Columbiformes).

22 The COOH-terminal peptides of pigeon and moth cytochrome c, bound to mouse IE(k), are

23 that have been observed in Golgi-impregnated pigeon and turtle retinas.

24 ondrial and 4 nuclear genomes from passenger pigeons and 2 genomes from band-tailed pigeons, which ar

25 Here we show that pigeons and baboons can concurrently learn, in a cogniti

26 lice" and "wing lice," are both parasites of pigeons and doves (Columbiformes).

27 al tract (nTTD), have only been performed in pigeons and ducks.

28 Among Columbea, we identify pigeons and flamingoes as belonging to sister clades.

29 Experiments 2 and 3 tested pigeons and humans, respectively, with small and large v

30 en landmarks were rotated or removed, intact pigeons and left HF-lesioned pigeons relied exclusively

31 tween the serial organization of behavior in pigeons and monkeys.

32 ransmitted the virus to direct contacts, but pigeons and Pekin ducks did not.

33 that underlie classical color phenotypes of pigeons and present a mechanistic explanation of their d

34 tion of the midsession reversal task between pigeons and rats.

35 he solution of structural discriminations in pigeons and the hippocampus is important for processing

36 edge-containing land features attract homing pigeons and trigger changes in their navigational states

37 Pigeons and undergraduates learned conditional discrimin

38 chicken with those of CPI-17-rich rabbit and pigeon, and studied the effect of CPI-17-reconstitution

39 rent species of animals including mole rats, pigeons, and sea turtles are thought to use the magnetic

40 phenotypes using data from humans, domestic pigeons, and vaccinia virus.

41 Plasma KL-6 (units/mL) and pigeon antigen-specific IgG antibody were quantified by

42 pars ventrolateralis (Avl; comparable to the pigeon archistriatum pars dorsalis) is theorized to be a

43 cal to spatial coding strategies and suggest pigeons are able to code location based on absolute and

44 The results suggest that pigeons are not only able to learn a specific behavior b

45 Pigeons are now known to recapitulate faithfully their i

46 in folium IXcd of the vestibulocerebellum in pigeons are related to response properties of PCs.

47 Domestic pigeons are spectacularly diverse and exhibit variation

48 n but partially inhibited them in rabbit and pigeon arteries.

49 chicken artery, but is readily detectable in pigeon artery.

50 Pigeon-associated strains are still virulent in mice.

51 eral commonly used basic learning paradigms (pigeon autoshaping, delay- and trace-eye-blink condition

52 s intermedius in the Karten and Hodos (1967) pigeon brain atlas, and what was identified as the hypog

53 an ADP-forming succinyl-CoA synthetase from pigeon breast muscle and the GDP-forming enzyme from liv

54 morphology-based classification of domestic pigeon breeds [3], but the relationships among major gro

55 e sample of 361 individuals from 70 domestic pigeon breeds and two free-living populations to determi

56 ion to the striking variation among domestic pigeon breeds-generated by thousands of years of artific

57 hes do not originate in the medial LM (as in pigeons) but instead largely arise from pretectal struct

58 arn a specific behavior by observing another pigeon, but they can also learn under which circumstance

59 ricted in their domain to detect change than pigeons, but both species learned the basic task and app

60 ed to shape and location changes, unlike the pigeons, but neither species transferred to size changes

61 at even species as abundant as the passenger pigeon can be vulnerable to human threats if they are su

62 pigeons ranging in age from 0.5 to 17 years (pigeons can live approximately 20 years in captivity).

63 g significant sequence identity to human and pigeon carnitine acetyltransferase genes, therefore show

64 In >/=8-year-old pigeons, ChBF compensation was absent at >90 mm Hg BP, w

65 med to describe the trajectory of the NCL in pigeon, chicken, carrion crow and zebra finch.

66 , nonanal, dominates the odorant spectrum of pigeons, chickens, and humans from various ethnic backgr

67 The present experiment offered pigeons choices between unreliable and certain rewards b

68 Only a few pigeons chose the most useful information in either situ

69 rom band-tailed pigeons, which are passenger pigeons' closest living relatives.

70 eir roles directly, we expressed recombinant pigeon cN-I or human cN-II at similar activities in COS-

71 Pigeons, college students, and preschool children were g

72 ng selection against rare pigeon phenotypes, pigeon color polymorphism is maintained through negative

73 variants of their principal prey, the feral pigeon Columba livia, presumably because targeting odd-l

74 p-ir) in the brains of two bird species: the pigeon (Columba livia) and zebra finch (Taeniopygia gutt

75 We had previously reported that pigeon (Columba livia) egg white and serum glycoproteins

76 ted and phenotypically diverse domestic rock pigeon (Columba livia) remain largely unknown.

77 n the best studied avian species, the homing pigeon (Columba livia), two apparently independent prima

78 Pigeons (Columba livia) and humans (Homo sapiens) both s

79 ntation and line position discriminations by pigeons (Columba livia) and humans (Homo sapiens).

80 the vestibular and the cerebellar nuclei of pigeons (Columba livia) and hummingbirds (Calypte anna,

81 In the present research, pigeons (Columba livia) and rats (Rattus norvegicus) wer

82 various points during a 30-peck requirement, pigeons (Columba livia) could choose between completing

83 orces and body orientations in slowly flying pigeons (Columba livia) executing level 90 degrees turns

84 ompared the flight characteristics of homing pigeons (Columba livia) flying solo and in pairs release

85 ies of artificial selection in domestic rock pigeons (Columba livia) have cultivated tremendous varia

86 Here, we describe in pigeons (Columba livia) how retinal inputs to the optic

87 latta), capuchin monkeys (Cebus apella), and pigeons (Columba livia) learning a same/different (S/D)

88 itioning-system loggers, we show that homing pigeons (Columba livia) not only come to rely on highly

89 Demonstrator pigeons (Columba livia) stepped on a treadle in the pres

90 We flew pigeons (Columba livia) through an array of vertical obs

91 ta suggest that rats (Rattus norvegicus) and pigeons (Columba livia) use different interval-timing st

92 In a reference memory task, pigeons (Columba livia) were trained to locate a goal in

93 Homing pigeons (Columba livia) were trained to locate a goal in

94 In an open-field search task, pigeons (Columba livia) were trained to search for a goa

95 Pigeons (Columba livia) were trained with a spatial stru

96 In Experiment 1, homing pigeons (Columba livia) with unilateral lesions of the r

97 trol procedure was used to determine whether pigeons (Columba livia) would imitate a demonstrator tha

98 Several plumage types are found in feral pigeons (Columba livia), but one type imparts a clear su

99 In pigeons (Columba livia), lesion damage to the Wulst has

100 A series of experiments investigated whether pigeons (Columba livia), like most humans, would fail to

101 Monkeys, like pigeons (Columba livia), showed full transfer to four no

102 a), zebra finches (Taeniopygia guttata), and pigeons (Columba livia).

103 The authors compared results from pigeons (Columba livia, a nonsongbird species) with resu

104 pated reinforcement, a form of incentive, on pigeons' (Columba livia) reaction time to respond to a t

105 monedula), and a non-seed-caching columbid (pigeons; Columba livia), were tested for ability to lear

106 of of principle, we assembled genomes of the pigeon (Columbia livia) and peregrine falcon (Falco pere

107 on a majority of trials much sooner than the pigeons, contrary to the findings by Herbranson and Schr

108 ce is an important aspect of variation among pigeons, correlated with aggression and access to food,

109 -action method was used to determine whether pigeons could learn to imitate a conditional discriminat

110 present crystal structures of Columba livia (pigeon) CRY4 that reveal evolutionarily conserved modifi

111 cell populations specific for the model Ags pigeon cytochrome c (PCC) and hen egg lysozyme (HEL).

112 e AND TCR specific for amino acids 88-104 of pigeon cytochrome C (PCC) to the Fas-intact MRL/Mp(+)(Fa

113 rimary and memory B10.BR Th cell response to pigeon cytochrome c (PCC).

114 e use the I-Ek-restricted murine response to pigeon cytochrome c (PCC).

115 PPD but were proliferative nonresponders to pigeon cytochrome c 81-104 (PCC), having a large decreas

116 nts transgenically expressing membrane-bound pigeon cytochrome c as a self-Ag.

117 ferate and produce IL-2 after challenge with pigeon cytochrome c in ex vivo recall assays, a typical

118 s associated with high affinity responses to pigeon cytochrome c made less IL-4 than clones that poss

119 , which have a fixed beta-chain specific for pigeon cytochrome c peptide I-Ek.

120 (-/-) mice with recombinant BCG that express pigeon cytochrome c peptide in a mycobacterial 19-kDa ba

121 lexed with an antigenic peptide derived from pigeon cytochrome c residues 89-104 (PCC) by 19F-NMR.

122 anged TCR specific for amino acids 88-104 of pigeon cytochrome c to cognate and low affinity peptide

123 ned the resistance to T. gondii infection of pigeon cytochrome c transgenic (PCC-Tg) Rag-2(-/-) mice

124 TCR transgenic T cells (Valpha11/Vbeta3 anti-pigeon cytochrome c) are preferentially excluded from gr

125 88-104) TCR-transgenic T cells, specific for pigeon cytochrome c, from lupus-prone Fas-intact MRL/Mp+

126 nic mice bearing rearranged TCR specific for pigeon cytochrome c, peptides 88-104) TCR-transgenic T c

127 Using TCR transgenic mice containing a pigeon cytochrome c-specific T cell population or lympho

128 However, recombinase-activating gene 2(-/-) pigeon cytochrome c-specific TCR transgenic mice fail to

129 sed on adoptive transfer of CD4 T cells from pigeon cytochrome C-specific transgenic H-2(k/k) TCR-Val

130 ss a TCR specific for a peptide derived from pigeon cytochrome C.

131 We propose that pigeons detect magnetic fields by electromagnetic induct

132 Therefore, unlike V-formation pelicans, pigeons do not gain an aerodynamic advantage from flying

133 genome (mitogenome) of two extinct passenger pigeons (Ectopistes migratorius) using de novo assembly

134 lo)), and ovomucoid (POM) were isolated from pigeon egg white (PEW).

135 n previously that all major glycoproteins of pigeon egg white contain Galalpha1-4Gal epitopes.

136 NAc branch terminals, which are not found in pigeon egg white glycoproteins.

137 eons in two pigeonholes, at least two of the pigeons end up in the same hole," is an obvious yet fund

138 The dodo, Raphus cucullatus, a flightless pigeon endemic to Mauritius, became extinct during the 1

139 Using the sequences of the pigeon enzymes as queries in BLAST searches, we obtained

140 antly with their selectivity for odd-colored pigeons, even after controlling for confounding age effe

141 th similar glycosylation more intensely than pigeon EW.

142 anized cryptococcal cells were isolated from pigeon excreta contaminated with Cryptococcus neoformans

143 Cryptococcus neoformans, and their growth in pigeon excreta supported melanization.

144 nment, where it is primarily associated with pigeon excreta.

145 of environmental isolates were obtained from pigeon excreta.

146 It has been proposed that pigeons exploit a magnetoreceptor based on magnetite cry

147 d if ChBF compensation for BP fluctuation in pigeons fails with age.

148 rometry and blood samples were obtained from pigeon fanciers, 20 with intermittent acute symptoms ind

149 Pigeon fanciers, susceptible to HP, provide a model to i

150 ipe pair represents a functional unit in the pigeon flocculus insofar as the CSA of all PCs in the st

151 The pigeon flocculus receives visual-optokinetic information

152 We show that, for pigeons flying in pairs, two heads are better than one b

153 In pigeons, folium IXcd consists of seven pairs of ZII+/- s

154 LAMP to examine the distribution of LAMP in pigeon forebrain and midbrain.

155 In the pigeon, GABAergic hair cells are present throughout the

156 will be more genetically diverse, passenger pigeon genetic diversity was surprisingly low.

157 Research has shown that pigeons given a simultaneous visually based discriminati

158 Pigeon has a typical avian karyotype (2n = 80), while fa

159 Domestic pigeons have striking variation in foot feathering withi

160 and the depolarization of the V(z) in type I pigeon HCs by activation of mAChRs represents a new find

161 Localized regions of the homing pigeon HF were stimulated at 400-600 microA while evoked

162 y homed was not influenced by air pollution, pigeons homed faster when the air was especially pollute

163 how visual landscape information influences pigeons' homing behaviour.

164 Analysis of pigeons' homing routes recorded using global positioning

165 o-thirds of high mannose-type N-glycans from pigeon IgG were monoglucosylated.

166 Because of the growing number of pigeons in Middle and Southern Europe cities, some cases

167 Archaeological deposits at Grotte des Pigeons in Morocco document extensive evidence for human

168 ampal formation (HF) of freely moving homing pigeons in order to provide a taxonomy of unit types fou

169 cause of isolation of the virus from several pigeons in poultry markets in China, but experimental st

170 The pigeonhole principle: "If you put three pigeons in two pigeonholes, at least two of the pigeons

171 y correlated with a host range restricted to pigeons, in contrast to phage types with broader host ra

172 The pigeons, in contrast, exhibited a configural inferiority

173 rovar Typhimurium frequently associated with pigeon infections were tested for genomic anomalies and

174 tage-gated calcium channel (Ca(V)1.3) in the pigeon inner ear that has been shown to mediate electror

175 phage types, we compared the genomes of four pigeon isolates to serotype Typhimurium strain LT2 using

176 n, which are absent from the host-restricted pigeon isolates.

177 -7283, CBS 9732, from the nasal passage of a pigeon), K. heterogenica (type strain NRRL Y-27499, CBS

178 ars to receive magnetic information from the pigeon lagena receptor organs.

179 atic high-sensitivity screen for iron in the pigeon lagena using synchrotron X-ray fluorescence micro

180 Passenger pigeons' large population size appears to have allowed f

181 switch, all college students and all but one pigeon learned to switch on nearly every trial.

182 Control and hippocampal-lesioned pigeons learned at a similar rate, but the control birds

183 Results suggested pigeons learned relative and absolute distances.

184 location and error on test trials suggested pigeons learned relative distance.

185 In the more challenging 8-range task, pigeons, like zebra finches, discriminated shifts from r

186 Subsequently, the pigeon mainly reacquired the body orientation used in fo

187 with the Bischof-Kohler hypothesis, rats and pigeons may solve tasks by encoding the future but only

188 Behavioral testing has revealed that pigeons may use the same visual information sources as h

189 uniting cuckoos, bustards, and turacos with pigeons, mesites, and sandgrouse; (3) cranes and their r

190 In skeletal muscle samples from turtles, pigeons, mice, and humans, alpha(3) Na(+),K(+)-ATPase wa

191 In ventral root fibers of pigeons, mice, and humans, the alpha(3) Na(+),K(+)-ATPas

192 When lice are transferred to pigeons of different sizes, they rapidly evolve differen

193 rackers searched more accurately than either pigeons or jackdaws.

194 d, but jackdaws took much longer than either pigeons or nutcrackers.

195 Here we show that pigeons, organisms that separated from humans more than

196 (African house snake), birds (chicken, duck, pigeon, ostrich, emu and zebra finch), early postnatal m

197 The Fe3O4@Al2O3 MNPs are functionalized with pigeon ovalbumin (POA), which contains Gal-alpha(1-->4)-

198 ing the matrix gene and more specifically as pigeon paramyxovirus serotype 1 (PPMV-1) by hemagglutini

199 (pigeon pea) and Lablab purpureus L.

200 icer arietinum (chickpea) and Cajanus cajan (pigeon pea) and two outgroup reference species: Arabidop

201 sal inoculation of chickens, Japanese quail, pigeons, Pekin ducks, Mallard ducks, Muscovy ducks, and

202 and a weak agonist-antagonist variant of the pigeon peptide bound to IE(k).

203 However, the pigeon peptide has an alanine at p9 shifting the lysine

204 titution of Ser for Thr at p8 in the variant pigeon peptide induces no detectable surface change othe

205 o place the lysine in the anchor pocket, the pigeon peptide takes the extended course through the bin

206 he findings by Herbranson and Schroeder that pigeons perform better than people on this task.

207 ects of picture manipulations on humans' and pigeons' performance were examined in a go/no-go discrim

208 Experiment 1 tested pigeons' performance with these stimuli in a target loca

209 tion of chickens and other land-based birds (pigeon, pheasant, quail, guinea fowl, and chukka) from s

210 y hawks exerts strong selection against rare pigeon phenotypes, pigeon color polymorphism is maintain

211 One of the major glycoproteins from pigeon plasma was identified as IgG (also known as IgY),

212 have made substantial contributions to feral pigeon populations.

213 ment and was not produced merely because the pigeons preferred a variable alternative over a fixed al

214 probability of reinforcement, implying that pigeons processed incentive at a constant rate.

215 We hypothesized that pigeons produce aerodynamic forces in a uniform directio

216 Live-poultry markets (mostly chicken, pigeon, quail, ducks, geese, and a wide range of exotic

217 ed multiple linear regression to analyse 415 pigeon races in the North China Plain, an area with cons

218 g spontaneous BP fluctuation in anesthetized pigeons ranging in age from 0.5 to 17 years (pigeons can

219 We generated a rock pigeon reference genome and additional genome sequences

220 In this study, we compared pigeons' relative influence over flock direction to thei

221 removed, intact pigeons and left HF-lesioned pigeons relied exclusively on global room cues to locate

222 ChBF in <8-year-old pigeons remained near 100% of basal ChBF at BPs ranging

223 signal: Rats stop timing during the gap, and pigeons reset their timing mechanism after the gap.

224 We found that feathered feet in pigeons result from a partial transformation from hindli

225 However, the pigeon retina and the human macula share a number of str

226 ffect on the developmental patterning of the pigeon retina, which is at odds with the current models

227 is is shown to result from the fact that the pigeon retinal epithelium is inhibitory to cell differen

228 he SWS1(Cl) opsin cDNA was isolated from the pigeon retinal RNA, expressed in cultured COS1 cells, re

229 Here we provide a new detailed map of the pigeon's arcopallium/amygdala complex and compare the re

230 Our approach supports a segregation of the pigeon's arcopallium/amygdala complex into the following

231 g only the natural glucose and oxygen in the pigeon's body.

232 Here we describe neuronal responses in the pigeon's brainstem that show how single cells encode mag

233 A pigeon's degree of leadership was predicted by its groun

234 the genome, we calculated that the passenger pigeon's effective population size throughout the last m

235 natural population dynamics in the passenger pigeon's extinction remains unexplored.

236 human exploitation in causing the passenger pigeon's rapid demise.

237 Surprisingly, the pigeon's upstroke generated aerodynamic forces that were

238 In Experiment 3, pigeons searched at the midpoint of rotated arrays in bo

239 In Experiment 4, pigeons searched in the appropriate goal direction when

240 The pigeons selected either a strategy involving only a slig

241 timulation can induce electric fields in the pigeon semicircular canals that are within the physiolog

242 nd MS/MS analyses revealed that N-glycans of pigeon serum IgG included (i) high mannose-type (33.3%),

243 al-bearing glycoproteins are also present in pigeon serum, lymphocytes, and liver, as probed by Weste

244 deviation from optimal choice suggests that pigeons show a bias similar to the sunk cost effect in h

245 l transfer from the 32- and 64-item groups), pigeons show the same degree of transfer as rhesus and c

246 In three experiments, the pigeons showed a bias to complete the pecks already star

247 Both nutcrackers and pigeons showed good transfer to novel landmark arrays in

248 ndency to unidimensional categorization, the pigeons showed no evidence of rule-governed behavior, bu

249 Pigeons showed remarkably similar errors in anticipation

250 Results suggest that both rats and pigeons stop timing during a nonsalient gap and reset ti

251 that it was most closely related to virulent pigeon strains of APMV-1.

252 tion, and found that while the proportion of pigeons successfully homed was not influenced by air pol

253 ile house sparrows, European starlings, rock pigeons, swallows, and American robins were the most com

254 rlaps with two subdivisions described in the pigeon that have been related to the mammalian dentate g

255 ctivation of the caudal vestibular nuclei in pigeons that is independent of light [5].

256 Imitation was evidenced by the finding that pigeons that saw a demonstrator push the screen made a h

257 songbirds, which is not present in doves and pigeons that vocalize with a closed beak, may modulate t

258 L in the chicken is highly comparable to the pigeon, the two Passeriformes show a strikingly differen

259 In pigeons, the projection to the vestibulocerebellum large

260 ally-located eyes, such as zebra finches and pigeons, the tectofugal visual pathway is the most promi

261 us system of the rat (as well as monkeys and pigeons) there are several native subtypes of the GABA(A

262 l), sws1(Cl), sws2(Cl), and lws(Cl) from the pigeon; these encode RH1(Cl), RH2(Cl), SWS1(Cl), SWS2(Cl

263 carbohydrate contained in red meat) allergy, pigeon tick bite (Argax reflexus), wheat-dependent exerc

264 case of severe nocturnal anaphylaxis due to pigeon tick bite showing the diagnostic value of the ext

265 The identification of pigeon ticks as a trigger of anaphylaxis would greatly i

266 ntensity of the signal and gap when rats and pigeons timed in the gap procedure.

267 m of these developmental features allows the pigeon to build a retina that displays the structural an

268 Here, we use homing pigeons to investigate whether the repeated removal and

269 Here, we trained humans and pigeons to recognize four shapes.

270 he geometric shape of the arena was encoded, pigeons trained on a slope were guided by a goal represe

271 Specifically, we demonstrate that pigeons trained to discriminate words from nonwords pick

272 These results show that pigeons trained with small sets (e.g., 8 items) have car

273 athogen-vector-host system, avian malaria in pigeons transmitted by fly ectoparasites, where both two

274 ng cell differentiation are postponed in the pigeon until the end of the period of cell proliferation

275 Both humans and pigeons used cotermination, the most diagnostic nonaccid

276 Ion channel candidates in pigeon vestibular HCs that might underlie the modulation

277 -patch recordings were performed on isolated pigeon vestibular type I and type II HCs during the appl

278 pair may represent a functional unit in the pigeon vestibulocerebellum.

279 In pigeons, visual object processing is lateralised with a

280 f the passage of time, some students, but no pigeons, waited for the most useful information, especia

281 This result suggests that the passenger pigeon was not always super abundant but experienced dra

282 The extinct passenger pigeon was once the most abundant bird in North America,

283 The passenger pigeon was once the most abundant bird in the world, wit

284 60 to 90 mm Hg range, ChBF in >/=8-year-old pigeons was maintained at 60-70% of young basal ChBF.

285 sing high-precision GPS tracking of pairs of pigeons, we found that if conflict between two birds' di

286 Lastly, as shown by Clarke in pigeons, we found that PL projects to caudal cerebellar

287 ependent and context-specific hierarchies in pigeons, we succeed in setting out a robust, scalable me

288 After reaching training criteria, pigeons were again tested with novel interlandmark dista

289 Thus, these pigeons were capable of affordance learning.

290 swabs of healthy chickens, ducks, geese and pigeons were collected nationwide from live-animal marke

291 The monkeys and pigeons were further tested to compare transfer with oth

292 Pigeons were previously suggested to be a possible sourc

293 In addition, the pigeons were sensitive to the bigram frequencies of word

294 After reaching training criteria, pigeons were tested with novel interlandmark distances.

295 Three groups of pigeons were trained in a same/different task with 32, 6

296 ded the responses of single Wulst neurons as pigeons were trained on the acquisition and subsequent r

297 enger pigeons and 2 genomes from band-tailed pigeons, which are passenger pigeons' closest living rel

298 When flying in pairs, pigeons with different preferred paths back to the loft

299 Pigeons with right HF lesions were the only group to dem

300 ted ChBF baroregulatory impairment occurs in pigeons, with ChBF linear with above-basal BP, and ChBF

301 As such, responses of pigeon Wulst neurons indicate a role in representing asp