Contrasting Phylogenetic and Diversity Patterns in Octodontoid Rodents and a New Definition of the Family Abrocomidae

Adams DC, Berns CM, Kozak KH, Wiens JJ (2009) Are rates of species diversification correlated with rates of morphological evolution? Proc R Soc B 276:2729–2738

Álvarez A, Arnal M (2015) First approach to the paleobiology of extinct Prospaniomys (Rodentia, Hystricognathi, Octodontoidea) through head muscle reconstruction and the study of craniomandibular shape variation. J Mammal Evol DOI10.1007/s10914-015-9291-z

Antoine P-O, Marivaux L, Croft DA, Billet G, Ganerød M, Jaramillo C, Martin T, Orliac MJ, Tejada J, Altamirano AJ, Duranthon F, Fanjat G, Rousse S, Gismondi RS (2012) Middle Eocene rodents from Peruvian Amazonia reveal the pattern and timing of caviomorph origins and biogeography. Proc R Soc B 279:1319–1326

Antoine P-O, Roddaz M, Brichau S, Tejada-Lara J, Salas-Gismondi R, Altamirano A, Louterbach M, Lambs L, Otto T, Brusset S (2013) Middle Miocene vertebrates from the Amazonian Madre de Dios Subandean Zone, Perú. J South Am Earth Sci 42:91–102

Arnal M, Kramarz AG (2011) First complete skull of an octodontoid (Rodentia, Caviomorpha) from the Neogene of South America and its bearing in the early evolution of Caviomorpha. Geobios 44:235–444

Arnal M, Kramarz AG, Vucetich MG, Vieytes EC (2014) A new early Miocene octodontoid rodent (Hystricognathi, Caviomorpha) from Patagonia (Argentina) and a reassessment of the early evolution of Octodontoidea. J Vertebr Paleontol 34:397–406

Arnal M, Pérez ME (2013) A new acaremyid rodent (Hystricognathi: Octodontoidea) from the middle Miocene of Patagonia (South America) and considerations on the early evolution of Octodontoidea. Zootaxa 3616:119–134

Arnal M, Vucetich MG (2015) Revision of the fossil rodent Acaremys Ameghino, 1887 (Hystricognathi, Octodontoidea, Acaremyidae) from the Miocene of Patagonia (Argentina) and the description of a new acaremyid. Hist Biol 27:42–59

Barreda V, Palazzesi L (2007) Patagonian vegetation turnovers during the Paleogene-Early Neogene: origin of arid-adapted floras. Bot Rev 73:31–50

Benton MJ (2009) The Red Queen and the Court Jester: species diversity and the role of biotic and abiotic factors through time. Science 323:728–732

Benton MJ, Donoghue PCJ (2007) Paleontological evidence to date the tree of life. Mol Biol Evol 24:26–53

Bertelli S, Giannini NP (2005) A phylogeny of extant penguins (Aves: Sphenisciformes) combining morphology and mitochondrial sequences. Cladistics 21:209–239

Bertrand OC, Flynn JJ, Croft DA, Wyss AR (2012) Two new taxa (Caviomorpha, Rodentia) from the early Oligocene Tinguiririca Fauna (Chile). Am Mus Novitates 3750:1–36

Blankers T, Townsend TM, Pepe K, Reeder TW, Wiens JJ (2013) Contrasting global-scale evolutionary radiations: phylogeny, diversification, and morphological evolution in the major clades of iguanian lizards. Biol J Linn Soc 108:127–143

Bonvicino CR, Oliveira JA, D’Andrea PS (2008) Guia dos Roedores do Brasil, com Chaves para Gêneros baseadas em Caracteres Externos. Centro Pan-Americano de Febre Aftosa, Rio de Janeiro

Bookstein FL, Streissguth AP, Sampson PD, Connor PD, Barr HM (2002) Corpus callosum shape and neuropsychological deficits in adult males with heavy fetal alcohol exposure. NeuroImage 15:233–251

Bouckaert R, Heled J, Kuehnert D, Vaughan T, Wu C-H, Xie D, Suchard M, Rambaut A, Drummond AJ (2014) BEAST 2: A software platform for Bayesian evolutionary analysis. PLoS Comput Biol 10:e1003537

Braun JK, Mares MA (2002) Systematics of the Abrocoma cinerea species complex (Rodentia: Abrocomidae), with a description of a new species of Abrocoma. J Mammal 83:1–19

Briggs DEG, Fortey RA (2005) Wonderful strife: systematics, stem groups, and the phylogenetic signal of the Cambrian radiation. Paleobiology 31:94–112

Buckley LB, Davies TJ, Ackerly DD, Kraft NHB, Harrison SP, Anacker BL, Cornell HV, Damschen EI, Grytnes J-A, Hawkins BA, McCain CM, Stephens PR, Wiens JJ (2010) Phylogeny, niche conservatism and the latitudinal diversity gradient in mammals. Proc R Soc B 277:2131–2138

Burnham RJ, Johnson KR (2004) South American palaeobotany and the origins of Neotropical rainforests. Phil Trans R Soc Lond B 359:1595–1610

Butler PM (1985) Homologies of molar cusps and crests, and their bearing on assessments of rodent phylogeny. In: Luckett P, Hartenberger J-L (eds) Evolutionary Relationships among Rodents. A Multidisciplinary Analysis. Plenum Press, New York, pp 381–401

Campbell KE Jr, Frailey CD, Romero-Pittman L (2004) The Paleogene Santa Rosa Local Fauna of Amazonian Peru: geographic and geologic setting. In: Campbell KE Jr (ed) The Paleogene Mammalian Fauna of Santa Rosa, Amazonian Peru. Nat Hist Mus Los Angeles County, Sci Ser 40, Los Angeles, pp 3–14

Candela AM (2015) Analyzing the impact of conflictive dental characters on the phylogeny of octodontoid rodents. Acta Palaeontol Pol doi: http://dx.doi.org/ 10.4202/app.00113.2014

Candela AM, Rasia L (2012) Tooth morphology of Echimyidae (Rodentia, Caviomorpha): homology assessments, fossils, and evolution. Zool J Linn Soc 164:451–480

Carvalho GAS, Salles OL (2004) Relationships among extant and fossil echimyids (Rodentia: Hystricognathi). Zool J Linn Soc 142:445–477

Coddington JA, Scharff N (1994) Problems with zero-length branches. Cladistics 10:415–423

Colinvaux PA, De Oliveira PE (2001) Amazon plant diversity and climate through the Cenozoic. Palaeogeogr Palaeoclimatol Palaeoecol 166:51–63

Da Silva MN, Patton JL (1998) Molecular phylogeography and the evolution and conservation of Amazonian mammals. Mol Ecol 7:475–486

Darriba D, Taboada GL, Doallo R, Posada D (2012) jModelTest 2: more models, new heuristics and parallel computing. Nat Meth 9:772

Davies TJ, Buckley LB, Grenyer R, Gittleman JL (2011) The influence of past and present climate on the biogeography of modern mammal diversity. Phil Trans R Soc Lond B 366:2526–2535

Denton GH (1999) Cenozoic climate change. In: Bromage TG, Schrenk F (eds) African Biogeography, Climate Change, and Human Evolution. Oxford University Press, New York, pp 94–114

Deschamps CM, Vucetich MG, Montalvo CI, Zárate MA (2013) Capybaras (Rodentia, Hydrochoeridae, Hydrochoerinae) and their bearing in the calibration of the late Miocene–Pliocene sequences of South America. J South Am Earth Sci 48:145–158

Drummond AJ, Ho SYW, Phillips MJ, Rambaut A (2006) Relaxed phylogenetics and dating with confidence. PLoS Biol 4:e88

Drummond AJ, Rambaut A (2007) BEAST: Bayesian evolutionary analysis by sampling trees. BMC Evol Biol 7:214

Dunn RE, Madden RH, Kohn MJ, Schmitz MD, Stromberg CAE, Carlini AA, Re GH, Crowley J (2013) A new chronology for middle Eocene -early Miocene South American Land Mammal Ages. Geol Soc Am Bull 125:539–555

Eisenberg JF, Redford KH (1999) Mammals of the Neotropics. The Central Neotropics: Ecuador, Peru, Bolivia, Brazil, 1st ed. University of Chicago Press, Chicago

Eldredge N (1996) Hierarchies in macroevolution. In: Jablonsky D, Erwin DH, Lipps JH (eds) Evolutionary Paleobiology. University of Chicago Press, Chicago, pp 42–61

Eldredge N, Gould SJ (1972) Punctuated equilibria: an alternative to phyletic gradualism. In: Schopf TJM (ed) Models in Paleobiology. Freeman, Cooper and Co., San Francisco, pp 82–115

Emmons LH (1999) A new genus and species of abrocomid rodent from Peru (Rodentia: Abrocomidae). Am Mus Novitates 3279:1–14

Emmons LH (2005) A revision of the genera of arboreal Echimyidae (Rodentia: Echimyidae, Echimyinae), with descriptions of two new genera. In: Lacey EA, Myers P (eds) Mammalian Diversification: from Chromosomes to Phylogeography— a Celebration of the Career of James L Patton. University of California Press, Berkeley, pp 247–309

Emmons LH, Feer F (1999) Neotropical Rainforest Mammals: a Field Guide, 2nd ed. The University of Chicago Press, Chicago

Emmons LH, Leite YLR, Patton JL (2015) Family Echimyidae. In: Patton JL, Pardiñas UFJ, D’Elía G. (eds) Mammals of South America, vol. 2, Rodents. The University of Chicago Press, Chicago, pp 2707–2744

Erwin DH (2008) Extinction as the loss of evolutionary history. Proc Natl Acad Sci USA 105:11520–11527

Fabre P-H, Galewski T, Tilak M, Douzery EJP (2013) Diversification of South American spiny rats (Echimyidae): a multigene phylogenetic approach. Zool Scripta 42:117–134

Fabre P-H, Vilstrup JT, Raghavan M, Der Sarkissian C, Willerslev E, Douzery EJP, Orlando L (2014) Rodents of the Caribbean: origin and diversification of hutias unravelled by next-generation museomics. Biol Lett 10:20140266

Fernicola JC, Cuitiño JI, Vizcaíno SF, Bargo MS, Kay RF (2014) Fossil localities of the Santa Cruz Formation (Early Miocene, Patagonia, Argentina) prospected by Carlos Ameghino in 1887 revisited and the location of the Notohippidian. J South Am Earth Sci 52:94–107

Folguera A, Zárate MA (2009) La sedimentación neógena continental en el sector extrandino de Argentina central. Rev Asoc Geol Argentina 64: 692–712

Foote M (1993) Contributions of individual taxa to overall morphological disparity. Paleobiology 19:403–419

Fortey RA, Briggs DEG, Wills MA (1996) The Cambrian evolutionary explosion: decoupling cladogenesis from morphological disparity. Biol J Linn Soc 57:13–33

Frailey CD, Campbell KE Jr (2004) Paleogene rodents from Amazonian Peru: the Santa Rosa Local Fauna. In: Campbell KE Jr (ed) The Paleogene Mammalian Fauna of Santa Rosa, Amazonian Peru. Nat Hist Mus Los Angeles County, Sci Ser 40, Los Angeles, pp 71–130

Futuyma DJ (1987) On the role of species in anagenesis. Am Nat 130:465–473

Galewski T, Mauffrey JF, Leite YLR, Patton JL, Douzery EJ (2005) Ecomorphological diversification among South American spiny rats (Rodentia: Echimyidae): a phylogenetic and chronological approach. Mol Phylogenet Evol 34:601–615

Gallardo MH, Kirsch JAW (2001) Molecular relationships among Octodontidae (Mammalia: Rodentia: Caviomorpha). J Mammal Evol 8:73–89

Glanz WE, Anderson S (1990) Notes on Bolivian Mammals. 7. A new species of Abrocoma (Rodentia) and relationships of the Abrocomidae. Am Mus Novitates 2991:1–32

Goloboff PA, Farris JS, Nixon K (2008a) TNT: Tree Analysis Using New Technology, Version 1.1, http://www.zmuc.dk/public/phylogeny/tnt

Goloboff PA, Farris JS, Nixon K (2008b) TNT, a free program for phylogenetic analysis. Cladistics 24:774–786

Gradstein FM, Ogg JG, Van Kranendonk M (2008) On the Geologic Time Scale 2008. Newsl Stratigr 43:5–13

Hall TA (1999) BioEdit: a user-friendly biological sequence alignment editor and analysis program for Windows 95/98/NT. Nucl Acids Symp Ser 41:95–98

Hennig W (1965) Phylogenetic systematics. Annu Rev Entomol 10:97–116

Honeycutt RL, Rowe DL, Gallardo MH (2003) Molecular systematics of the South American caviomorph rodents: relationships among species and genera in the family Octodontidae. Mol Phylogenet Evol 26:476–489

Jablonski D, Roy K, Valentine JW (2006) Out of the tropics: evolutionary dynamics of the latitudinal diversity gradient. Science 314:102–106

Klingenberg CP (2011) MORPHOJ: an integrated software package for geometric morphometrics. Mol Ecol Resour 11:353–357

Landry SO Jr (1957) The interrelationships of the New and Old World Hystricomorph rodents. Univ Calif Publ Zool 56:1–118

Lara MC, Patton JL, Da Silva MN (1996) The simultaneous diversification of South American echimyid rodents (Hystricognathi) based on complete cytochrome b sequences. Mol Phylogenet Evol 5:403–413

Lavocat R (1974) Discussion. In: Rowlands IW, Weir BJ (eds) The Biology of Hystricomorph Rodent. Symposia of the Zoological Society of London, No. 34. Academic Press, London, pp 55–60

Lavocat R (1976) Rongeurs caviomorphes de L’Oligocene de Bolivie. 11. Rongeurs du Bassin Deseadien de Salla-Luribay. Palaeovertebrata 7:15–90

Lazzari V, Guy F, Salais P-E, Euriat A, Charles C, Viriot L, Tafforeau P, Michaux J (2015) Convergent evolution of molar topography in Muroidea (Rodentia, Mammalia): connections between chewing movements and crown morphology. In: Cox P, Hautier L (eds) Evolution of the Rodents— Advances in Phylogeny, Functional Morphology and Development, vol. 5. Cambridge University Press, Cambridge, pp 448–477

Le Roux JP (2012) A review of Tertiary climate changes in southern South America and the Antarctic Peninsula. Part 2: continental conditions. Sediment Geol 247–248:21–38

Leite YLR, Patton JL (2002) Evolution of South American spiny rats (Rodentia, Echimyidae): the star phylogeny hypothesis revisited. Mol Phylogenet Evol 25:455–464

Loss AC, Moura RT, Leite YLR (2014) Unexpected phylogenetic relationships of the painted tree rat Callistomys pictus (Rodentia: Echimyidae). Nat on line 12:132–136

Luckett WP (1985) Superordinal and intraordinal affinities of rodents: developmental evidence from the dentition and placentation. In: Luckett WP, Hartenberger J-L (eds) Evolutionary Relationships among Rodents. A Multidisciplinary Analysis. Plenum Press, New York, pp 227–276

MacFadden BJ (2006) Extinct mammalian biodiversity of the ancient New World tropics. Trends Ecol Evol 21:157–165

Madden RH, Guerrero J, Kay RF, Flynn JJ, Swisher III CC, Walton A (1997) The Laventan Stage and Age. In: Kay RF, Madden RH, Cifelli RL, Flynn JJ (eds) Vertebrate Paleontology in the Neotropics—The Miocene Fauna of La Venta, Colombia. Smithsonian Institution Press, Washington, D.C., pp 499–519

Maddison WP (1991) Squared-change parsimony reconstructions of ancestral states for continuous-valued characters on a phylogenetic tree. Syst Zool 40:304–314

Marivaux L, Vianey-Liaud M, Jaeger J-J (2004) High-level phylogeny of early Tertiary rodents: dental evidence. Zool J Linn Soc 142:105–134

McKenna MC, Bell SK (1997) Classification of Mammals above the Species Level, 1st ed. Columbia University Press, New York

Mittelbach GG, Schemske DW, Cornell HV, Allen AP, Brown JM, Bush MB, Harrison SP, Hurlbert AH, Knowlton N, Lessios HA, McCain CM, McCune AR, McDade LA, McPeek MA, Near TJ, Price TD, Ricklefs RE, Roy K, Sax DF, Schluter D, Sobel JM, Turelli M (2007) Evolution and the latitudinal diversity gradient: speciation, extinction and biogeography. Ecol Lett 10:315–331

Ojeda AA, Novillo A, Ojeda RA, Roig-Juñent S (2013) Geographical distribution and ecological diversification of South American octodontid rodents. J Zool 289:285–293

Olivares AI, Verzi DH (2014) Systematics, phylogeny and evolutionary pattern of the hystricognath rodent Eumysops (Echimyidae) from the Plio–Pleistocene of southern South America. Hist Biol: Int J Paleobiol. doi: 10.1080/08912963.2014.929672

Olivares AI, Verzi DH, Vucetich MG, Montalvo CI (2012) Phylogenetic affinities of the late Miocene echimyid †Pampamys and the age of Thrichomys (Rodentia, Hystricognathi). J Mammal 92:76–86

Opazo JC (2005) A molecular timescale for caviomorph rodents (Mammalia, Hystricognathi). Mol Phylogenet Evol 37:932–937

Orme CDL, Freckleton RP, Thomas G, Petzoldt T, Fritz SA, Isaac N, Pearse W (2013) Caper: Comparative Analysis of Phylogenetics and Evolution in R package version 0.5.2

Palazzesi L, Barreda VD (2007) Major vegetation trends in the Tertiary of Patagonia (Argentina): a qualitative paleoclimatic approach based on palynological evidence. Flora 202:328–337

Palazzesi L, Barreda VD, Cuitiño JI, Guler MV, Tellería MC, Ventura Santos R (2014) Fossil pollen records indicate that Patagonian desertification was not solely a consequence of Andean uplift. Nat Commun 5:3558, doi: 10.1038/ncomms4558

Pascual R (1967) Los roedores Octodontoidea (Caviomorpha) de la Formación Arroyo Chasicó (Plioceno inferior) de la Provincia de Buenos Aires. Rev Mus La Plata Paleont 5:259–282

Pascual R, Ortiz Jaureguizar E (1990) Evolving climates and mammal faunas in Cenozoic South America. J Hum Evol 19:23–60

Patterson B, Pascual R (1968) New echimyid rodents from the Oligocene of Patagonia, and a synopsis of the family. Mus Comp Zool Breviora 301:1–14

Patterson B, Wood AE (1982) Rodents from the Deseadan Oligocene of Bolivia and the relationships of the Caviomorpha. Bull Mus Comp Zool 149:371–543

Patton JL, Emmons LH (2015) Family Abrocomidae. In: Patton JL, Pardiñas UFJ, D’Elía G (eds) Mammals of South America, vol. 2, Rodents. The University of Chicago Press, Chicago, pp 2488–2528

Patton JL, Pardiñas UFJ, D’Elía G (2015). Mammals of South America, vol. 2, Rodents. The University of Chicago Press, Chicago

Pérez ME, Pol D (2012) Major radiations in the evolution of caviid rodents: reconciling fossils, ghost lineages, and relaxed molecular clocks. PLoS ONE 7:e48380

Perez SI, Bernal V, Gonzalez PN (2006) Differences between sliding semilandmark methods in geometric morphometrics, with an application to human craniofacial and dental variation. J Anat 208:769–784

Perkins ME, Feagle JG, Heizer MT, Nash B, Bown TM, Tauber AA, Dozo MT (2012) Tephrochronology of the Miocene Santa Cruz and Pinturas formations, Argentina. In: Vizcaíno SF, Kay RF, Bargo MS (eds) Early Miocene Paleobiology in Patagonia, High-Latitude Paleocommunities of the Santa Cruz Formation. Cambridge University Press, Cambridge, pp 23–40

Pol D, Norell MA (2001) Comments on the Manhattan Stratigraphic Measure. Cladistics 17:285–289

Pound MJ, Haywood AM, Salzmann U, Riding JB (2012) Global vegetation dynamics and latitudinal temperature gradients during the mid to late Miocene (15.97–5.33 Ma). Earth-Sci Rev 112:1–22

Purvis A, Agapow P-M, Gittleman JL, Mace GM (2000) Nonrandom extinction and the loss of evolutionary history. Science 288:328–330

Quattrocchio ME, Martínez MA, Hinojosa LF, Jaramillo C (2013) Quantitative analysis of Cenozoic palynofloras from Patagonia, southern South America. Palynology 37:246–258

Rabosky DL, Slater GJ, Alfaro ME (2012) Clade age and species richness are decoupled across the eukaryotic tree of life. PLoS Biol 10:e1001381

Raia P, Passaro F, Fulgione D, Carotenuto F (2012) Habitat tracking, stasis and survival in Neogene large mammals. Biol Lett 8:64–66

Ré GH, Bellosi ES, Heizler M, Vilas JF, Madden RH, Carlini AA, Kay RF, Vucetich MG (2010) A geochronology for the Sarmiento Formation at Gran Barranca. In: Madden RH, Carlini AA, Vucetich MG, Kay RF (eds) The Paleontology of Gran Barranca: Evolution and Environmental Change through the Middle Cenozoic of Patagonia. Cambridge University Press, Cambridge, pp 46–59

Redford KH, Eisenberg JF (1992) Mammals of the Neotropics. The Southern Cone: Chile, Argentina, Uruguay, Paraguay, 1st ed. The University of Chicago Press, Chicago

Reig OA (1986) Diversity patterns and differentiation of high Andean rodents. In: Vuilleumier F, Monasterio M (eds) High Altitude Tropical Biogeography. Oxford University Press, Oxford, pp 404–439

Renvoisé E, Montuire S (2015) Developmental mechanisms in the evolution of phenotypic traits in rodent teeth. In: Cox P, Hautier L (eds) Evolution of the Rodents- Advances in Phylogeny, Functional Morphology and Development, vol. 5. Cambridge University Press, Cambridge, pp 478–509

Ricklefs RE (2004) Cladogenesis and morphological diversification in passerine birds. Nature 430:338–341

Rohlf FJ (2008) Tpsdig, Version 2.12; tpsrelw, Version 1.46. State University of New York at Stony Brook, NY, http://life.bio.sunysb.edu/morph/

Rohlf FJ (2010) TPSRelw 1.49. tps series software, http://life.bio.sunysb.edu/morph

Rowe DL, Dunn KA, Adkins RM, Honeycutt RL (2010) Molecular clocks keep dispersal hypotheses afloat: evidence for trans-Atlantic rafting by rodents. J Biogeogr 37:305–324

Rull V (2011) Neotropical biodiversity: timing and potential drivers. Trends Ecol Evol 26:508–513

Ruta M, Angielczyk KD, Fröbisch J, Benton MJ (2013) Decoupling of morphological disparity and taxic diversity during the adaptive radiation of anomodont therapsids. Proc R Soc B 280:20131071

Safi K, Cianciaruso MV, Loyola RD, Brito D, Armour-Marshall K, Diniz-Filho JAF (2011) Understanding global patterns of mammalian functional and phylogenetic diversity. Phil Trans R Proc B 366:2536–2544

Schluter D (2000) The Ecology of Adaptive Radiation, 1st ed. Oxford University Press, New York

Sheets HD (2010–2012) Integrated Morphometrics Package (IMP) 7, available at: http://www3.canisius.edu/~sheets/imp7.htm

Sheldon PR (1996) Plus ça change- a model for stasis and evolution in different environments. Palaeogeogr Palaeoclimatol Palaeoecol 127:209–227

Shockey BJ, Salas-Gismondi R, Gans P, Jeong A, Flynn JJ (2009) Paleontology and geochronology of the Deseadan (late Oligocene) of Moquegua, Perú. Am Mus Novitates 3668:1–24

Simpson GG (1945) The principles of classification and a classification of mammals. Bull Am Mus Nat Hist 85:1–350

Steiper ME, Young NM (2008) Timing primate evolution: lessons from the discordance between molecular and paleontological estimates. Evol Anthropol 17:179–188

Szalay FS (1999) Paleontology and macroevolution. On the theoretical conflict between an expanded synthesis and hierarchic punctuationism. In: Bromage TG, Schrenk F (eds) African Biogeography, Climate Change, and Human Evolution. Oxford University Press, New York, pp 35–56

Taraborelli P, Moreno P, Sassi P, Dacarc MA, Ojeda RA (2011) New eco-morphological-behavioural approach of the chinchilla rats in the pre-Andean foothills of the Monte Desert (Argentina). J Nat Hist 45:1745–1758

Tripati AK, Christopher D, Roberts CD, Eagle RA (2009) Coupling of CO2 and ice sheet stability over major climate transitions of the last 20 million years. Science 326:1394–1397

Upham NS, Ojala-Barbour R, Brito MJ, Velazco PM, Patterson BD (2013) Transitions between Andean and Amazonian centers of endemism in the radiation of some arboreal rodents. BMC Evol Biol 13:191

Upham NS, Patterson BD (2012) Diversification and biogeography of the Neotropical caviomorph lineage Octodontoidea (Rodentia: Hystricognathi). Mol Phylogenet Evol 63:417–429

Upham NS, Patterson BD (in press) Phylogeny and evolution of caviomorph rodents: a complete timetree for living genera. In: Vassallo AI, Antenucci D (eds) Biology of Caviomorph Rodents: Diversity and Evolution. Sociedad Argentina para el Estudio de los Mamíferos (SAREM), Buenos Aires, Argentina

Verzi DH (2001) Phylogenetic position of Abalosia and the evolution of the extant Octodontinae (Rodentia, Caviomorpha, Octodontidae). Acta Theriol 46:243–268

Verzi DH (2002) Patrones de evolución morfológica en Ctenomyinae (Rodentia, Octodontidae). Mastozool Neotrop 9:309–328

Verzi DH, Morgan CC, Olivares AI (2015) The history of South American octodontoid rodents and its contribution to evolutionary generalisations. In: Cox P, Hautier L (eds) Evolution of the Rodents— Advances in Phylogeny, Functional Morphology and Development, vol. 5. Cambridge University Press, Cambridge, pp 139–163

Verzi DH, Olivares AI, Morgan CC (2014) Phylogeny and evolutionary patterns of South American octodontoid rodents. Acta Palaeontol Pol 59:757–769

Verzi DH, Quintana CA (2005) The caviomorph rodents from the San Andrés Formation, east-central Argentina, and global late Pliocene climatic change. Palaeogeogr Palaeoclimatol Palaeoecol 219:303–320

Voloch CM, Vilela JF, Loss-Oliveira L, Schrago CG (2013) Phylogeny and chronology of the major lineages of New World hystricognath rodents: insights on the biogeography of the Eocene/Oligocene arrival of mammals in South America. BMC Res Notes 6:160

Von Euler F (2001) Selective extinction and rapid loss of evolutionary history in the bird fauna. Proc R Soc Lond B 268:127–130

Vrba ES (1992) Mammals as a key to evolutionary theory. J Mammal 73:1–28

Vrba ES (1995) On the connections between paleoclimate and evolution. In: Vrba ES, Denton GH, Partridge TC, Burckle LH (eds) Paleoclimate and Evolution with Emphasis on Human Origins. Yale University Press, New Haven, pp 24–45

Vrba ES (2004) Ecology, evolution, and development: perspectives from the fossil record. In: Hall BK, Pearson RD, Muller GB (eds) Environment, Development, and Evolution. Massachusetts Institute of Technology Press, Cambridge, pp 85–105

Vrba ES (2005) Mass turnover and heterochrony events in response to physical change. Paleobiology 31:157–174

Vucetich MG, Kramarz AG (2003) New Miocene rodents from Patagonia (Argentina) and their bearing on the early radiation of the octodontoids (Hystricognathi). J Vertebr Paleontol 23:435–444

Vucetich MG, Kramarz AG, Candela AM (2010) Colhuehuapian rodents from Gran Barranca and other Patagonian localities: the state of the art. In: Madden RH, Carlini AA, Vucetich MG, Kay RF (eds) The Paleontology of Gran Barranca: Evolution and Environmental Change through the Middle Cenozoic of Patagonia. Cambridge University Press, Cambridge, pp 206–219

Vucetich MG, Pérez ME, Ciancio MR, Carlini AA, Madden RH, Kohn MJ (2014) A new acaremyid rodent (Caviomorpha, Octodontoidea) from Scarritt Pocket, Deseadan (late Oligocene) of Patagonia (Argentina). J Vertebr Paleontol 34:689–698

Vucetich MG, Verzi DH (1991) Un nuevo Echimyidae (Rodentia, Hystricognathi) de la Edad Colhuehuapense de Patagonia y consideraciones sobre la sistemática de la familia. Ameghiniana 28:67–74

Vucetich MG, Verzi DH (1994) Las homologías en los diseños oclusales de los roedores Caviomorpha: un modelo alternativo. Mastozool Neotrop 1:61–72

Vucetich MG, Verzi DH (1996) A peculiar octodontoid (Rodentia, Caviomorpha) with terraced molars from the lower Miocene of Patagonia (Argentina). J Vertebr Paleontol 16:297–302

Vucetich MG, Verzi DH (1999) Changes in diversity and distribution of the caviomorph rodents during the Late Cenozoic in southern South America. Quaternary South Am Antarct Peninsula 12:207–223

Vucetich MG, Verzi DH, Hartenberger J-L (1999) Review and analysis of the radiation of the South American Hystricognathi (Mammalia, Rodentia). C R Acad Sci II A 329:763–769

Vucetich MG, Vieytes EC (2006) A middle Miocene primitive octodontoid rodent and its bearing on the early evolutionary history of the Octodontoidea. Palaeontographica Abt A 27:79–89

Weir JT, Schluter D (2007) The latitudinal gradient in recent speciation and extinction rates of birds and mammals. Science 315:1574–1576

Wiens JJ, Donoghue MJ (2004) Historical biogeography, ecology and species richness. Trends Ecol Evol 19:639–644

Winge H (1941) The interrelationships of the mammalian genera. In: Jensen ADS, Spräck R, Volsøe H (eds) Rodentia, Carnivora, Primates (translated from Danish by Deichmann E, Allen GM) vol. II. Reitzels Forlag, Copenhagen, pp 1–376

Wood AE (1955) A revised classification of the rodents. J Mammal 36:165–187

Wood AE, Patterson B (1959) Rodents of the Deseadan Oligocene of Patagonia and the beginnings of South American rodent evolution. Bull Mus Comp Zool 120:279–428

Wood AE, Wilson RW (1936) A suggested nomenclature for the cusps of the cheek teeth of rodents. J Paleontol 10:388–391

Woodburne MO, Goin FJ, Bond M, Carlini AA, Gelfo JN, López GM, Iglesias A, Zimicz AM (2014) Paleogene Land Mammal Faunas of South America; a response to global climatic changes and indigenous floral diversity. J Mammal Evol 21:1–73

Woods CA (1984) Hystricognath rodents. In: Anderson S, Jones JK (eds) Orders and Families of Recent Mammals of the World. John Wiley and Sons, New York, pp 389–446

Woods CA, Kilpatrick CW (2005) Infraorder Hystricognathi Brandt, 1855. In: Wilson DE, Reeder DM (eds) Mammal Species of the World. Johns Hopkins University Press, Baltimore, pp 1538–1600

Zachos JC, Dickens GR, Zeebe RE (2008) An early Cenozoic perspective on greenhouse warming and carbon-cycle dynamics. Nature 451:279–283

Zachos J, Pagani M, Sloan L, Thomas E, Billups K (2001) Trends, rhythms, and aberrations in global climate 65 Ma to present. Science 292:686–693

Zárate MA (2005) El Cenozoico tardío continental de la provincia de Buenos Aires. In: de Barrio RE, Etcheverry RO, Caballé MF, Llambías E (eds) Relatorio XVI Congreso Geológico Argentino, Geología y Recursos Minerales de la Provincia de Buenos Aires. UNLP, La Plata, Argentina, pp 139–158