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Introduction to Forensic Anthropology 5th edition [Kõva köide]

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(New Mexico State University, USA)
  • Formaat: Hardback, 480 pages, kõrgus x laius: 246x189 mm, kaal: 1451 g, 66 Tables, black and white
  • Ilmumisaeg: 15-Sep-2016
  • Kirjastus: Routledge
  • ISBN-10: 1138188840
  • ISBN-13: 9781138188846
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Introduction to Forensic Anthropology 5th editionSuurem pilt
  • Formaat: Hardback, 480 pages, kõrgus x laius: 246x189 mm, kaal: 1451 g, 66 Tables, black and white
  • Ilmumisaeg: 15-Sep-2016
  • Kirjastus: Routledge
  • ISBN-10: 1138188840
  • ISBN-13: 9781138188846
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781138188846.html
Märksõnad:
This book provides comprehensive coverage of the methods and issues in the current practice of forensic anthropology. It introduces students to all the major topics in the field, with material ranging from the attribution of ancestry and sex, to various forms of bone trauma, to identification through radiography.Introduction to Forensic Anthropology uses the terminology and best practices recommended by the Scientific Working Group for Forensic Anthropology (SWGANTH). The fifth edition has been fully updated in light of recent developments, incorporating new and improved methods as well as fresh data. The section on human osteology and odontology in particular has been expanded.This accessible and engaging text offers an array of features to support teaching and learning, including:boxed case studiesextensive figures and photographschapter summaries and student exercisesa glossary of termsfurther resources via a companion website.

Arvustused

A superb update of one of the most comprehensive introductory texts for teaching forensic anthropology, especially in North America. Intended for undergraduate students, this richly illustrated and easy to read compendium remains the go-to single reference for students, instructors, and professionals interested in the basics of forensic anthropology. Michael Pietrusewsky, University of Hawaii at Manoa, USA

Foreword xv
Stanley Rhine
Preface xvii
Acknowledgments xxi
Chapter 1 Introduction 1(29)
Historical Background
4(1)
Formative Period: Early 1800s to 1938
4(2)
Consolidation Period: 1939 to 1971
6(1)
Modern Period: 1972 to the Present
7(2)
Forensic Anthropologists and the Medicolegal Community
9(1)
Forensic Anthropology and Jurisprudence
10(3)
The Forensic Anthropology Protocol and the Layout of This Book
13(1)
Methods of Forensic Anthropology
14(14)
Data-Gathering Methods
15(3)
Data Analysis Methods
18(13)
Decision Matrix
19(1)
Range Charts
20(1)
Indexes
21(2)
Discriminant Functions
23(3)
Regression Equations
26(2)
Summary
28(1)
Exercises
28(2)
Chapter 2 Basics of Human Osteology and Odontology 30(33)
Overview of the Human Skeleton
31(23)
Cranial Skeleton
32(9)
Bones
32(5)
Sutures
37(1)
Landmarks
38(2)
Sinuses
40(1)
Axial Skeleton
41(5)
Vertebral Column
41(3)
Rib Cage
44(2)
Appendicular Skeleton
46(8)
Upper Limbs
46(2)
Lower Limbs
48(6)
Basic Topics in Osteology
54(8)
Anatomy of Bone
54(4)
Bone Growth
58(1)
Overview of the Human Dentition
59(3)
Summary
62(1)
Exercises
62(1)
Chapter 3 Establishing Medicolegal Significance 63(25)
Distinguishing Bone and Teeth from Other Material
63(1)
Distinguishing Human from Nonhuman
64(12)
Histological Differences
66(1)
Maturity Distinctions
66(2)
Architectural Differences
68(7)
Cranial Skeleton
69(2)
Axial Skeleton
71(1)
Appendicular Skeleton
72(3)
Bear Paws and Pig's Teeth
75(1)
Contemporary Versus Noncontemporary
76(10)
State of Preservation
79(2)
Color
79(1)
Texture
79(1)
Hydration
80(1)
Weight
80(1)
Condition
80(1)
Fragility
80(1)
Soft Tissue
81(1)
Body Modifications
81(1)
Personal Belongings
82(1)
Conditions of Interment
83(3)
Summary
86(1)
Exercises
86(2)
Chapter 4 Recovery Scene Methods 88(21)
Preliminary Issues
88(2)
Locating Remains
90(4)
Searching for Human Remains
91(3)
Searching for Associated Materials
94(1)
Mapping Remains
94(4)
Grave Excavation
98(2)
Collecting Remains
100(2)
Mass Disasters
102(3)
Personnel
103(1)
Locating, Mapping, Collecting
103(1)
Temporary Morgue
104(1)
Victim Information
104(1)
DMORT
105(1)
Genocide Investigations
105(2)
Conditions of Field Work
107(1)
Excavating Mass Graves
107(1)
Summary
107(1)
Exercises
108(1)
Chapter 5 Estimating Postmortem Interval 109(21)
Overview of Decomposition
110(2)
Decomposition and Skeletonization
112(9)
Surface Finds
113(5)
Warm, Moist Climates
114(1)
Hot, Dry Climates
115(3)
Cold Climates
118(1)
Buried and Submerged Remains
118(1)
Total Body Score and Accumulated Degree Days
119(2)
Animal Scavenging
121(4)
Other Methods
125(3)
Forensic Entomology
125(1)
Forensic Botany
126(1)
Deterioration of Clothing and Other Materials
127(1)
Chemical Methods
127(1)
Summary
128(1)
Exercises
128(2)
Chapter 6 Initial Treatment and Examination 130(21)
Forensic Anthropology Laboratory
130(2)
Preparation of Remains
132(5)
Initial Examination
133(1)
Bulk Soft Tissue Removal
133(2)
Disarticulation
135(1)
Residual Soft Tissue Removal
135(2)
Stabilizing Remains
137(1)
Reconstruction, Sorting, and Reassembly
137(9)
Reconstruction
137(1)
Sorting
138(2)
Reassembly
140(6)
Inventorying Remains
146(1)
Highly Fragmented Remains
147(2)
Summary
149(1)
Exercises
150(1)
Chapter 7 Attribution of Ancestry 151(26)
Anthroposcopic Traits
152(14)
Cranial Skeleton
154(11)
Nose
154(4)
Face
158(1)
Vault
159(1)
Jaws And Teeth
160(1)
Frequencies Of Anthroposcopic Traits
161(4)
Postcranial Skeleton
165(1)
Metric Methods
166(7)
Direct Measurements
167(1)
Indexes
168(1)
Discriminant Functions
169(4)
Miscellaneous Ancestral Characteristics
173(2)
Genetic Methods
175(1)
Summary
175(1)
Exercises
175(2)
Chapter 8 Attribution of Sex 177(24)
Sexing the Pelvis
178(7)
Anthroposcopic Traits
178(6)
Metric Methods
184(1)
Sexing the Skull
185(8)
Anthroposcopic Traits
186(4)
Metric Methods
190(3)
Miscellaneous Methods
193(4)
Multiple Postcranial Bones
194(1)
Scapula
194(1)
Humerus
195(1)
Radius
196(1)
Femur
196(1)
Sexing Subadults
197(3)
Auricular Surface
197(1)
Greater Sciatic Notch
198(1)
Other Methods
199(1)
Summary
200(1)
Exercises
200(1)
Chapter 9 Estimation of Age at Death 201(39)
Subadults
201(17)
Long Bone Lengths
203(1)
Union of Primary Ossification Centers
204(3)
Tooth Formation
207(3)
Tooth Eruption
210(4)
Epiphyseal Union
214(4)
Adults
218(20)
Symphyseal Surface
219(6)
Auricular Surface of the Os Coxae
225(3)
Sternal Rib Ends
228(3)
Cranial Suture Closure
231(6)
Ectocranial Sutures
232(2)
Endocranial Sutures
234(2)
Palatal Sutuures
236(1)
Other Methods
237(1)
Summary
238(1)
Exercises
238(2)
Chapter 10 Calculation of Stature 240(20)
Basics of Stature Reconstruction
240(2)
Full Skeleton Methods
242(3)
Long Limb Bones
245(4)
Other Skeletal Elements
249(3)
Fleshed Body Segments
252(2)
Partial Long Limb Bones
254(1)
Adjustments to Stature
255(3)
Age of Individual
257(1)
Bone Shrinkage
257(1)
Reported Versus Measured Stature
258(1)
Summary
258(1)
Exercises
259(1)
Chapter 11 Death, Trauma, and the Skeleton 260(19)
Cause and Manner of Death
262(1)
Basics of Bone Trauma
263(6)
Characteristics of Forces Causing Trauma
269(3)
Direction of Force
269(2)
Tension
269(1)
Compression
270(1)
Torsion
270(1)
Bending
270(1)
Shearing
271(1)
Speed of Force
271(1)
Focus of Force
271(1)
Types of Trauma
272(1)
Blunt Force Trauma
272(1)
Sharp Force Trauma
272(1)
Projectile Trauma
272(1)
Miscellaneous Trauma
273(1)
Timing of Bone Injury
273(5)
Antemortem Trauma
274(1)
Perimortem Trauma
275(2)
Postmortem Damage
277(1)
Summary
278(1)
Exercises
278(1)
Chapter 12 Projectile Trauma 279(21)
Basics of Ammunition and Firearms
279(3)
Size
280(1)
Bullet Construction
281(1)
Projectile Velocity
282(1)
Basics of Bullet Travel
282(1)
Effects of Bullets on Bone
283(6)
Wound Beveling
284(1)
Wound Shape
284(3)
Wound Size
287(1)
Fracture Lines
288(1)
Bullet Wound Analysis
289(5)
Description of Wound(s)
289(1)
Estimation of Caliber
290(1)
Estimation of Bullet Construction
291(1)
Estimation of Velocity
291(1)
Estimation of Direction of Fire
291(1)
Estimation of Sequence
292(1)
Miscellaneous Estimations and Analyses
293(1)
Pellet Wound Analysis
294(1)
Miscellaneous Projectiles
294(1)
Determining Cause and Manner of Death
295(3)
Summary
298(1)
Exercises
298(2)
Chapter 13 Blunt Trauma 300(20)
Characteristics of Instruments
300(3)
Size
300(2)
Shape
302(1)
Weight
303(1)
Types of Fractures
303(1)
Effects of Blunt Instruments
304(5)
Skull
305(4)
Long Bones
309(1)
Other Bones
309(1)
Wound Analysis
309(9)
Description of Wound(s)
310(1)
Estimation of Size
310(1)
Estimation of Shape
310(3)
Estimation of Direction
313(1)
Estimation of Energy
314(1)
Estimation of Number
314(2)
Estimation of Sequence
316(1)
Miscellaneous Estimations and Analyses
316(2)
Determining Cause and Manner of Death
318(1)
Summary
319(1)
Exercises
319(1)
Chapter 14 Sharp and Miscellaneous Trauma 320(16)
Sharp Trauma
320(10)
Effects of Sharp Instruments
320(7)
Puctures
322(1)
Incisions
323(1)
Clefts
324(3)
Wound Analysis
327(11)
Description Of Wounds
327(1)
Instrument Characteristics
327(2)
Direction Of Force
329(1)
Number Of Traumatic Events
329(1)
Sequence Of Events
330(1)
Blast Trauma
330(2)
Strangulation
332(2)
Chemical Trauma
334(1)
Determining Cause and Manner of Death
334(1)
Summary
335(1)
Exercises
335(1)
Chapter 15 Antemortem Skeletal Conditions 336(24)
Pathological Conditions
338(7)
Lytic Lesions
339(2)
Proliferative Lesions
341(3)
Deformative Lesions
344(1)
Skeletal Anomalies
345(9)
Accessory Bones
345(3)
Nonfusion Anomalies
348(3)
Accessory Foramen
351(1)
Miscellaneous Anomalies
352(2)
Occupational Stress Markers
354(5)
Summary
359(1)
Exercises
359(1)
Chapter 16 Postmortem Changes to Bone 360(22)
Dismemberments
361(6)
Basics of Saws and Saw Damage
362(2)
Analysis of Saw Marks
364(3)
Basic Description
364(1)
Direction Of Saw Cut
364(1)
Number Of Teeth
365(1)
Blade Width
366(1)
Blade Type
366(1)
Blade Shape
366(1)
Source Of Energy
366(1)
Animal Scavenging
367(4)
Carnivores
367(4)
Rodents
371(1)
Fire Damage
371(4)
Weathering
375(2)
Burial Damage
377(1)
Water Transport Damage
378(1)
Miscellaneous
379(2)
Summary
381(1)
Exercises
381(1)
Chapter 17 Additional Aspects of Individualization 382(14)
Facial Approximation
382(10)
Assessing Handedness
392(1)
Estimating Body Weight
392(3)
Summary
395(1)
Exercises
395(1)
Chapter 18 Obtaining an Identification 396(12)
Positive Identification
396(4)
Radiography
397(3)
Frontal Sinuses
397(2)
Other Structures
399(1)
Surgical/Dental Devices
400(1)
Probable Identification
400(5)
Combining Information
401(1)
Photographic Superimposition
402(3)
Miscellaneous Techniques
405(2)
Summary
407(1)
Exercises
407(1)
Chapter 19 Conclusion 408(11)
Ethical Responsibilities
408(4)
Professional Ethics
409(2)
Personal Ethics
411(1)
The Final Report
412(2)
Courtroom Testimony
414(2)
Future of Forensic Anthropology
416(1)
Summary
417(2)
Glossary 419(28)
References 447(18)
Note on Photography 465
Index 00
9781107078604
Zeldovich dedication v
Preface xv
Conference Photograph xviii
The Organizing Committee xix
Participants xx
IAU308 poster xxiii
Zeldovich historic xxv
Chapter 1 Cosmology of Yakov Zeldovich, Historical and Scientific Perspective
Zeldovich's legacy in the Discovery and. Understanding of the Cosmic Web
3(10)
S.F. Shandarin
Yakov Zeldovich and the Cosmic Web Paradigm
13(12)
J. Einasto
Ya. B. Zeldovich (1914-1987) Chemist, Nuclear Physicist, Cosmologist
25(7)
V. Sahni
Why Planck (the Satellite) could have been Zel'dovich
32(6)
B. Partridge
The quest for collapsed/frozen stars in single-line spectroscopic binary systems
38(11)
V. Trimble
Chapter 2 Zeldovich legacy: Dynamics, Evolution of the Cosmic Web
Understanding the cosmic web
49(8)
M. Cautun
R. van de Weygaert
B.J.T. Jones
C.S. Frenk
The Peak/Dip Picture of the Cosmic Web
57(4)
G. Rossi
Non Gaussian Minkowski functionals and extrema counts for CMB maps
61(6)
D. Pogosyan
S. Codis
C. Pichon
Large-scale structure non-Gaussianities with modal methods
67(2)
M. Schmittfull
The Zeldovich, Adhesion approximations and applications to the local universe
69(8)
J. Hidding
R. van de Weygaert
S. Shandarin
Dynamics of The Tranquil Cosmic Web
77(10)
A. Nusser
Collisionless Dynamics and the Cosmic Web
87(10)
O. Hahn
An Origami Approximation to the Cosmic Web
97(6)
M.C. Neyrinck
Disentangling the Cosmic Web with Lagrangian Submanifold
103(4)
S.F. Shandarin
M.V. Medvedev
Statistics of Caustics in Large-Scale Structure Formation
107(8)
J.L. Feldbrugge
J. Hidding
R. van de Weygaert
Beyond single-stream with the Schrodinger method
115(4)
C. Uhlemann
M. Kopp
Higher-order Lagrangian perturbative theory for the Cosmic Web
119(2)
T. Tatekawa
S. Mizuno
Non-linear description of massive neutrinos in the framework of large-scale structure formation
121(8)
H. Dupuy
Chapter 3 Surveys and Observations of the Large Scale Structure of the Universe
Chapter 3A Surveys and Observations: Surveys
The cosmic web: a selective history and outlook
129(14)
J.A. Peacock
Mapping the Cosmic Web with the largest all-sky surveys
143(6)
M. Bilicki
J.A. Peacock
T.H. Jarrett
M.E. Cluver
L. Steward
Measuring Large-Scale Structure at z~1 with the VIPERS galaxy survey
149(12)
L. Guzzo
Tracing high redshift cosmic web with quasar systems
161(6)
M. Einasto
Improved correction of VIPERS angular selection effects in clustering measurements
167(2)
A. Pezzotta
B.R. Granett
J. Bel
L. Guzzo
S. de la Torre
VIPERS team
Measuring the VIPERS galaxy power spectrum at z ~ 1
169(6)
S. Rota
J. Bel
B. Granett
L. Guzzo
VIPERS Team
Chapter 3B Surveys and Observations: Local Universe
Dynamics of galaxy structures in the Local Volume
175(6)
I.D. Karachentsev
The place of the Local Group in the cosmic web
181(8)
J.E. Forero-Romero
R. Gonzalez
Chapter 3C Surveys and Observations: Filaments
Structure and kinematics of the Bootes filament
189(4)
O. Nasonova
I. Karachentsev
V. Karachentseva
The Dark Matter filament between Abell 222/223
193(8)
J.P. Dietrich
N. Werner
D. Clowe
A. Finoguenov
T. Kitching
L. Miller
A. Simionescu
Chapter 3D Surveys and Observations: Groups and Clusters
Characterising large-scale structure with the REFLEX II cluster survey
201(4)
G. Chon
Galaxy Group Properties in Observations and Simulations
205(2)
P. Nurmi
3D structure of nearby groups of galaxies
207(2)
L. Makarova
D. Makarov
A. Klypin
S. Gottober
Structure of the Canes Venatici I cloud of galaxies
209(2)
D.I. Makarov
L.N. Makarova
R.I. Uklein
Studying structure formation and evolution with strong-lensing galaxy groups
211(2)
G. Foex
V. Motta
M. Limousin
T. Verdugo
F. Gastaldello
The Adopted Morphological Types of 247 Rich PF Galaxy Clusters
213(2)
E. Panko
K. Bajan
P. Flin
A. Gotsulyak
Galaxy and Mass Assembly (GAMA): Selection of the Most Massive Clusters
215(2)
H.J. Ibarra-Medel
M. Lara-Lopez
O. Lopez-Cruz
The GAMA Team
The Evolving Shape of Galaxy Clusters
217(6)
D.W. Just
H.K.C. Yee
A. Muzzin
G. Wilson
D.G. Gilbank
M. Gladders
Chapter 4 Cosmic Web Morphology, Identification, Reconstruction, Clustering
Chapter 4A Cosmic Web Morphology, Identification
The structural elements of the cosmic web
223(13)
B.J.T. Jones
R. van de Weygaert
Filamentary pattern in the cosmic web: galaxy filaments as pearl necklaces
236(6)
E. Tempel
M. Bussov
Adaptive density estimator for galaxy surveys
242(6)
E. Saar
Environmental density of galaxies from SDSS via Voronoi tessellation
248(2)
D. Dobrycheva
O. Melnyk
A. Elyiv
I. Vavilova
Quantifying the Cosmic Web using the Shapefinder diagonistic
250(7)
P. Sarkar
Chapter 4B Cosmic Web Reconstruction
Big Data of the Cosmic Web
257(10)
F.S. Kitaura
Bayesian inference of the initial conditions from large-scale structure surveys
267(4)
F. Leclercq
Bayesian Cosmic Web Reconstruction: BARCODE for Clusters
271(20)
E.G.P. Bos
R. van de Weygaert
F. Kitaura
M. Cautun
Chapter 4C Cosmic Web Clustering
Evolution of the galaxy correlation function at redshifts 0.2 < z < 3
291(2)
A.M. Soltan
Color and magnitude dependence of galaxy clustering
293(2)
V. Muller
Local Large-Scale Structure and The Assumption of Homogeneity
295(4)
R.C. Keenan
A.J. Barger
L.L. Cowie
Identification of Extremely Large Scale Structures in SDSS-III
299(2)
S. Sankhyayan
J. Bagchi
P. Sarkar
V. Sahni
J. Jacob
Constraints on radio source clustering towards galaxy clusters: application for cm-wavelength simulations of blind sky surveys
301(4)
B. Lew
Chapter 5 Megaparsec Velocity Flows
Cosmicflows-2
305(5)
R.B. Tully
H.M. Courtois
Y. Hoffman
D. Pomarede
Re-examination of Large Scale Structure, Cosmic Flows
310(8)
M. Davis
A. Nusser
Cosmological parameters from the comparison of peculiar velocities with predictions from the 2M++ density field
318(4)
M.J. Hudson
J. Carrick
S.J. Turnbull
G. Lavaux
Dynamics of pairwise motions in the Cosmic Web
322(6)
W.A. Hellwing
Galaxy and Mass Assembly (GAMA): galaxy pairwise velocity dispersion
328(4)
J. Loveday
L. Christodoulou
The GAMA Team
Large-scale peculiar velocities through the galaxy luminosity function at z ~ 0.1
332(4)
M. Feix
A. Nusser
E. Branchini
Measuring the cosmic bulk flow with 6dFGSv
336(4)
C. Magoulas
C. Springob
M. Colless
J. Mould
J. Lucey
P. Erdogdu
D. Heath Jones
Towards an accurate model of redshift-space distortions: a bivariate Gaussian description for the galaxy pairwise velocity distributions
340(2)
D. Bianchi
M. Chiesa
L. Guzzo
Redshift-Space Distortions and f (z) from Group-Galaxy Correlations
342(2)
F.G. Mohammad
S. de la Torre
L. Guzzo
D. Bianchi
J.A. Peacock
Quasars as tracers of cosmic flows
344(5)
J. Modzelewska
B. Czerny
M. Bilicki
K. Hryniewicz
M. Krupa
F. Petrogalli
W. Pych
A. Kurcz
A. Udalski
Chapter 6 The Gaseous Cosmic Web
The Lyci forest and the Cosmic Web
349(11)
A. Meiksin
Lya Forest Tomography of the z > 2 Cosmic Web
360(4)
K.G. Lee
The intergalactic medium in the cosmic web
364(4)
N. Tejos
Finding and characterising WHIM structures using the luminosity density method
368(4)
J. Nevalainen
L.J. Liivamagi
E. Tempel
E. Branchini
M. Roncarelli
C. Giocoli
P. Heineimeiki
E. Saar
M. Bonamente
M. Einasto
A. Finoguenov
J. Kaastra
E. Lindfors
P. Nurmi
Y. Ueda
Radiative Feedback Effects during Cosmic Reionization
372(6)
D. Sullivan
I.T. Iliev
Magnetogenesis at Cosmic Dawn
378(2)
J.B. Durrive
M. Langer
Zeldovich and the Missing Baryons, Results from Gravitational Lensing
380(7)
R.E. Schild
Chapter 7 Galaxy Formation, Evolution in the Cosmic Web
Chapter 7A Galaxy Formation, Evolution
The origin of the galaxy color bimodality
387(3)
M.A. Aragon-Galva
M.C. Neyrinck
J. Silk
Gas accretion from the cosmic web in the local Universe
390(4)
J. Sanchez-Almeida
B.G. Elmegreen
C. Munoz-Tution
D.M. Elmegreen
The role of cold and hot gas flows in feeding early-type galaxy formation
394(4)
P.H. Johansson
The disks and spheroid of LTGs in the light of their early web-like organization
398(4)
R. Dominguez-Tenreiro
A. Obreja
C. Brook
F.J. Martinez-Serrano
A. Serna
Satellites are the main drivers of environmental effects at least to z = 0.7
402(6)
K. Kovac
The zCOSMOS Team
The different lives of galaxies at different environmental density levels
408(4)
A. Tamm
L.J. Liivamagi
E. Tempel
It takes a supercluster to raise a galaxy
412(4)
H. Lietzen
M. Einasto
Hierarchical formation of Dark Matter Halos near the Free Streaming Scale and Their Implications on Indirect Dark Matter Search
416(7)
T. Ishiyama
Chapter 7B Galaxy Alignments
Why do galactic spins flip in the cosmic web? A Theory of Tidal Torques near saddles
423(10)
C. Pichon
S. Codis
D. Pogosyan
Y. Dubois
V. Desjacques
J. Devriendt
How do galaxies build up their spin in the cosmic web?
433(4)
C. Welker
Y. Dubois
C. Pichon
J. Devriendt
S. Peirani
How the cosmic web induces intrinsic alignments of galaxies
437(6)
S. Codis
Y. Dubois
C. Pichon
J. Devriendt
A. Slyz
Spin Alignment in.Analogues of The Local Sheet
443(5)
G.J. Conidis
Galaxy alignment on large and small scales
448(4)
X. Kang
W.P. Lin
X. Dong
Y.O. Wang
A. Dutton
A. Maccio
Large-scale structure and the intrinsic alignment of galaxies
452(4)
J. Blazek
U. Seljak
R. Mandelbaum
The beaming of subhalo accretion
456(9)
N.I. Libeskind
Chapter 7C Galaxy Formation and Evolution: Poster papers
The morphological types of galaxies in the Local Supercluster
465(2)
K. Bajan
P. Flin
W. Godlowski
Structural decomposition of galaxies in the CALIFA survey
467(2)
T. Kuutma
A. Tamm
E. Tempel
Gaseous discs at intermediate redshifts from kinematic data modelling
469(2)
R. Kipper
A. Tamm
P. Tenjes
E. Tempel
The effect of environment on the fundamental plane of elliptical galaxies
471(2)
R. Kipper
A. Tamm
P. Tenjes
E. Tempel
Kinematics, structure and environment of three dwarf spheroidal galaxies
473(2)
M.E. Sharina
I.D. Karachentsev
V.E. Karachentseva
Properties of satellite galaxies in nearby groups
475(2)
J. Vennik
Alignments of galaxies and halos in hydrodynamical simulations
477(2)
I. Pahwa
N.I. Libeskind
The Binggeli effect
479(3)
M. Biernacka
E. Panko
W. Godlowski
K. Bajan
P. Flin
Luminosity function for galaxy clusters
482(2)
K. Bajan
M. Biernacka
P. Kin
W. Godlowski
E. Panko
J. Popiela
Giant radio galaxies and the cosmic web
484(2)
P. Heindmaki
The Direct Collapse of Supermassive Black Hole Seeds
486(2)
J.A. Regan
P.H. Johansson
J.H. Wise
Co-evolution of black holes and galaxies: the role of selection biases
488(2)
L. Portinari
Metallicity evolution in mergers of disk galaxies with black holes
490(7)
A. Rantala
P.H. Johansson
Chapter 8 Cosmic Voids
Chapter 8A Cosmic Voids: Structure, Dynamics and Cosmology
Voids and the Cosmic Web: cosmic depression, spatial complexity
497(27)
R. van de Weygaert
Answers from the Void: VIDE and its Applications
524(6)
P.M. Sutter
N. Hamaus
A. Pisani
G. Lavaux
B.D. Wandelt
Void Dynamics
530(8)
N.D. Padilla
D. Paz
M. Lares
L. Ceccarelli
D.G. Lambas
Y.C. Cai
B. Li
Modeling cosmic void statistics
538(4)
N. Hamaus
P.M. Sutter
B.D. Wandelt
Universal void density profiles from simulation and SDSS
542(4)
S. Nadathur
S. Hotchkiss
J.M. Diego
I.T. Iliev
S. Gottober
W.A. Watson
G. Yepes
Real-space density profile reconstruction of stacked voids
546(5)
A. Pisani
P. Sutter
G. Lavaux
B. Wandelt
On the universality of void density profiles
551(4)
E. Ricciardelli
V. Quilis
J. Varela
Testing Gravity using Void Profiles
555(6)
Y.C. Cai
N. Padilla
B. Li
Void asymmetries in the cosmic web: a mechanism for bulk flows
561(10)
J. Bland-Hawthorn
S. Sharma
Measuring the growth rate of structure around cosmic voids
571(4)
A.J. Hawken
D. Michelett
B. Granett
A. Iovino
L. Guzzo
VIPERS
The cosmic web in CosmoGrid void regions
575(5)
S. Rieder
R. van de Weygaert
M. Cautun
B. Beygu
S. Portegies Zwart
The ISW imprints of voids and superclusters on the CMB
580(5)
S. Hotchkiss
S. Nadathur
S. Gottlaber
I.T. Iliev
A. Knebe
W.A. Watson
G. Yepes
Characterising the local void with the X-ray cluster survey REFLEX II
585(4)
C.A. Collins
H. Bohringer
M. Bristow
G. Chon
Distinguishing f(R) gravity with cosmic voids
589(4)
P. Zivick
P.M. Sutter
Chapter 8B Void Galaxies
The Void Galaxy Survey: Galaxy Evolution and Gas Accretion in Voids
593(7)
K. Kreckel
J.H. van Gorkom
B. Beygu
R. van de Weygaert
J.M. van der Hulst
M.A. Aragon-Calvo
R.F. Peletier
The Void Galaxy Survey: Morphology and Star Formation Properties of Void Galaxies
600(6)
B. Beygu
K. Kreckel
T. van der Hulst
R. Peletier
T. Jarrett
R. van de Weygaert
J.H. van Gorkom
M. Aragon-Calvo
Observations of dwarfs in nearby voids: implications for galaxy formation and evolution
606(4)
S.A. Pustilnik
Molecular Gas and Star Formation in Void Galaxies
610(4)
M. Das
T. Saito
D. Iono
M. Honey
S. Ramya
Surveying for Dwarf Galaxies Within Voids FN2 and FN8
614(5)
S. McNeil
C. Draper
J.W. Moody
Chapter 9 Cosmology
Probing the accelerating Universe with redshift-space distortions in VIPERS
619(4)
S. de la Torre
VIPERS Collaboration
The impact of superstructures in the Cosmic Microwave Background
623(3)
S. Ilic
M. Langer
M. Douspis
Faraday rotation in CMB maps
626(2)
B. Ruiz-Granados
E. Battaner
E. Florido
Strong limit on the spatial and temporal variations of the fine-structure constant
628(5)
T.D. Le
Chapter 10 Miscellaneous
Evolution of low-frequency contribution in emission of steep-spectrum radio sources
633(3)
A.P. Miroshnichenko
The cosmic web and microwave background fossilize the first turbulent combustion
636(3)
C.H. Gibson
R.N. Keeler
Author index 639
Steven N. Byers has a Ph.D. in Anthropology from the University of New Mexico (UNM), USA. Now retired, he worked for a number of years on various campuses of UNM, teaching courses in Forensic Anthropology, Biological Anthropology, and Archaeology. He is currently serving on the Anthropology Consensus Body of the American Academy of Forensic Sciences Standards Board, in addition to focusing on Southeastern United States bioarchaeology. Byers publications with Taylor & Francis include Introduction to Forensic Anthropology (in its 5th edition), and Forensic Anthropology Lab Manual (in its 4th edition).