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E&G
CHANGING ENVIRONMENTS –YESTERDAY, TODAY, TOMORROWPROCEEDINGS OF THE DEUQUA 2008 IN VIENNA
GUEST EDITORS Markus Fiebig, Christine Neugebauer-Maresch, Martina Pacher, Jürgen Reitner and Verena Winiwarter
Vol. 58 No 2
2009
ISSN 0424-7116 | DOI 10.3285/eg.58.2Edited by the German Quaternary Association
Editor-in-Chief: Holger Freund
Eiszeitalter und GegenwartQuaternary Science Journal
GEOZON
EDITORDEUQUADeutsche Quartärvereinigung e.V. O!ceStilleweg 2D-30655 HannoverGermanyTel: +49 (0)511 / 643 36 13e-mail: info (at) deuqua.dewww.deuqua.org
PRODUCTION EDITORSABINE HELMS, Greifswald (Germany) Geozon Science MediaPostfach 3245D-17462 GreifswaldGermanyTel. +49 (0)3834 / 80 40 60e-mail: helms (at) geozon.netwww.geozon.net
AIMS & SCOPEThe Quaternary Science Journal publishes original articles of quaternary geology, geography, palaeontology, soil science, archaeology, climatology etc.; special issues with main topics and articles of lectures of several scientific events.MANUSCRIPT SUBMISSIONPlease upload your manuscript at the on-line submission system at our journal site www.quaternary-science.net. Please note the instructions for authors before.FREQUENCYMinimum two numbers at volume, maximum four numbers at volume
SUBSCRIPTIONFree for DEUQUA-Members! Prices for stand-ing order: single number 27,– Euro; double number 54,– Euro; plus shipping costs. We o"er discounts for libraries and bookstores. Please subscribe to the journal at the pub-lisher Geozon Science Media.JOURNAL EXCHANGEIf you are interested in exchange your journal with the Quaternary Science Journal, please contact: Universitätsbibliothek HalleZweigbibliothek Geowissenschaften (Ha 19)Von-Seckendor"-Platz 3-4D-06120 Halle (Saale) Germany
Tel. +49 (0)345 / 55 22 069ha19 (at) bibliothek.uni-halle.deREORDER Reorders are possible at the publishing house. See full list and special prices of available numbers on next-to-last page.PUBLISHING HOUSEGeozon Science Media UG (haftungsbeschränkt)Postfach 3245D-17462 GreifswaldGermanyTel. +49 (0)3834 / 80 40 80info (at) geozon.netwww.geozon.net
PRINTPrinted in Germany on 100% recycled paper. (climate neutral produced)COVER PHOTOCopyright by Lammerhuber, Hofmann, Schumacher; Grafik: Ortag.RIGHTSCopyright for articles by the authorsLICENSEDistributed under a Creative Commons Attribution License 3.0http://creativecommons.org/licenses/by/3.0/
EDITOR-IN-CHIEFHOLGER FREUND, Wilhelmshaven (Germany)ICBM – GeoecologyCarl-von-Ossietzky Universität OldenburgSchleusenstr 1D-26382 WilhelmshavenGermanyTel.: +49 (0)4421 / 94 42 00Fax: +49 (0)4421 / 94 42 99e-mail: holger.freund (at) icbm.de
FORMER EDITORS-IN-CHIEFPAUL WOLDSTEDT (1951–1966)MARTIN SCHWARZBACH (1963–1966)ERNST SCHÖNHALS (1968–1978)REINHOLD HUCKRIEDE (1968–1978)HANS DIETRICH LANG (1980–1990)JOSEF KLOSTERMANN (1991–1999)WOLFGANG SCHIRMER (2000)ERNST BRUNOTTE (2001–2005)
EDITORIAL BOARDKARL-ERNST BEHRE, Wilhelmshaven (Germany)HANS-RUDOLF BORK, Kiel (Germany)ARNT BRONGER, Kiel (Germany)JÜRGEN EHLERS, Hamburg (Germany)ETIENNE JUVIGNÉ, Liège (Belgium)WIGHART VON KOENIGSWALD, Bonn (Germany)ELSE KOLSTRUP, Uppsala (Sweden)JAN PIOTROWSKI, Aarhus (Denmark)LUDWIG REISCH, Erlangen (Germany)JEF VANDENBERGHE, Amsterdam (The Netherlands)BERND ZOLITSCHKA, Bremen (Germany)
GUEST EDITORSMARKUS FIEBIG, Vienna (Austria)CHRISTINE NEUGEBAUER-MARESCH, Vienna (Austria)MARTINA PACHER, Vienna (Austria)JÜRGEN REITNER, Vienna (Austria)VERENA WINIWARTER, Vienna (Austria)
Volume 58 / Number 2 / 2009 / DOI : 10.3285/eg.58.2 / ISSN 0424-7116 / www.quaternary-science.net / Founded in 1951
E&GEiszeitalter und GegenwartQuaternary Science Journal
123E&G / Vol. 58 / No. 2 / 2009 / 123 / DOI 10.3285/eg.58.2.00 / Authors / Creative Commons Attribution License
Preface
Special issue: Changing environments – Yesterday, Today, Tomorrow
Markus Fiebig
E&G Eiszeitalter und Gegenwart / Quaternary Science Journal Volume 58 / Number 2 / 2009 / 123 / DOI 10.3285/eg.58.2.00www.quaternary-science.net
GEOZON SCIENCE MEDIAISSN 0424-7116
Vorwort
Sonderband: Veränderter Lebensraum – Gestern, Heute und Morgen
Markus Fiebig
124 E&G / Vol. 58 / No. 2 / 2009 / 1254–134 / DOI 10.3285/eg.58.2.01 / Authors / Creative Commons Attribution License
Archäometrische Analysen von Lengyelkeramik aus Niederösterreich
Ângela Carneiro
Kurzfassung:
[Archaeometrical analysis of Lengyel pottery from Lower Austria]
Abstract:
Keywords:
Adress of author:
1 Einleitung
2 Geografie und Geologie der Fundstelle
E&G Eiszeitalter und Gegenwart / Quaternary Science Journal Volume 58 / Number 2 / 2009 / 124–134 / DOI 10.3285/eg.58.2.01www.quaternary-science.net
GEOZON SCIENCE MEDIAISSN 0424-7116
125E&G / Vol. 58 / No. 2 / 2009 / 124–134 / DOI 10.3285/eg.58.2.01 / Authors / Creative Commons Attribution License
3 Ausgangssituation der archäometrischen Untersuchungen
4 Ergebnisse der archäometrischen Analysen
4.1 Die Keramikproben
FrättingsdorfHagenberg
Zwentendorf
AsparnMichelstetten
Schletz
Altmanns
Hörersdorf
MT 01
x907Galgenberg
MT 02
MT 25MT 04MT 09
MT 08
Wenzersdorf
MT 11MT 10
MT 27
MT 28
Zaya
MT 07
MT 06
MT 26
MT 05
MT 03
Olgersdorf
MT 30
MT 29Bhf.
Wien
Österreich
Untersuchungsgebiet
0 1 km
N
126 E&G / Vol. 58 / No. 2 / 2009 / 124–134 / DOI 10.3285/eg.58.2.01 / Authors / Creative Commons Attribution License
Material-gruppen
Art / Aussehender plastischenElemente derkeramischen
Masse
Bearbeitungder plastischenElemente derkeramischen
Masse
Größe (mm)und
Menge (pro cm )der Einschlüsse
2
Verteilungder
Einschlüsse
Form derEinschlüsse
BesondereMerkmale
lehmartig, sehr fein,dicht,
homogen,wie geschlämmt
± gut
gut1
viel und klein,Glimmer
gerundetund
kantig
gleichmäßig
2
<0,1 zu >200,1-0,5 zu 10-20
0,5-1,0 zu <5
ungleichmäßig<0,1 zu 10-20
0,1-1,0 zu 5-101,0-2,0 zu <5
gerundetund
kantig
lehmartig, fein,etwas locker,
homogengut
gerundetund
kantig3 ± gleichmäßig
<0,1 zu 10-200,1-1,0 zu >201,0-2,0 zu 5-10
>2,0 zu <5
lehmartig, fein,etwas locker,
homogen
lehmartig, sehr fein,dicht,
homogen,wie geschlämmt
sehr gut4 gleichmäßig<0,1-0,5 zu >20gerundet
undkantig
lehmartig, sehr fein,dicht,
homogen,wie geschlämmt
gut5 gleichmäßig<0,1 zu 10-200,1-0,5 zu 5-10
gerundet
lehmartig, fein,sehr dicht,homogen
gut6 gleichmäßig<0,1 zu >20
0,1-0,5 zu 10-200,5-1,0 zu <5
gerundetund
kantig
lehmartig, grob,etwas locker,
homogengut7 gleichmäßig<0,1-1,0 zu >20
gerundetund
kantigviel Sand
± gutgerundet
undkantig
8 ungleichmäßig<0,1 zu >20
0,1-1,0 zu 5-101,0-2,0 zu <5
lehmartig, fein,etwas locker,
homogen
etwaspflanzliches
Material
± gut gerundet9 ± gleichmäßig<0,1-2,0 zu >202,0->3,0 zu 5-10
lehmartig, fein,etwas locker,
homogen
etwaspflanzliches
Material
gut10 gleichmäßig<0,1-1,0 zu >201,0-2,0 zu <5
lehmartig, fein,etwas locker,
homogensehr viel Sand
gerundetund
kantig
11<0,1 zu >20
0,5-1,0 zu 5-101,0-2,0 zu <5
sandartig, sehr fein,dicht,
homogen
vielklein und groß,
Glimmer
gerundetund
kantig± gut ± gleichmäßig
lehmartig, fein,etwas locker,
homogenschlecht12 ungleichmäßig<0,1 zu >20
0,5-2,0 zu 5-10
gerundetund
kantig
einigeEisenoxide und
viele Tonbällchen
lehmartig, sehr fein,dicht,
homogen,wie geschlämmt
13 ungleichmäßig0,1-0,5 zu >200,5-2,0 zu 5-10
gerundet± gut
lehmartig, sehr fein,dicht,
homogengut14 sehr gleichmäßig<0,1-1,0 zu >20
1,0-2,0 zu <5
gerundetund
kantigsehr viel Sand
lehmartig, fein,etwas locker,
homogen15 <0,1-2,0 zu >20
2,0-3,0 zu 5-10
gerundetund
kantig± gut ± gleichmäßig
127E&G / Vol. 58 / No. 2 / 2009 / 124–134 / DOI 10.3285/eg.58.2.01 / Authors / Creative Commons Attribution License
128 E&G / Vol. 58 / No. 2 / 2009 / 124–134 / DOI 10.3285/eg.58.2.01 / Authors / Creative Commons Attribution License
4.2 Die Rohsto!proben
129E&G / Vol. 58 / No. 2 / 2009 / 124–134 / DOI 10.3285/eg.58.2.01 / Authors / Creative Commons Attribution License
4.3 Herkunftsmäßig interpretierte Keramikproben
130 E&G / Vol. 58 / No. 2 / 2009 / 124–134 / DOI 10.3285/eg.58.2.01 / Authors / Creative Commons Attribution License
131E&G / Vol. 58 / No. 2 / 2009 / 124–134 / DOI 10.3285/eg.58.2.01 / Authors / Creative Commons Attribution License
4.4 Untersuchungen der Überzüge und Malmischungen
132 E&G / Vol. 58 / No. 2 / 2009 / 124–134 / DOI 10.3285/eg.58.2.01 / Authors / Creative Commons Attribution License
Prb.Nr. Inv.Nr. Farbe Zusammensetzung
weiss
1439
MIP 01 Mischung aus zerriebenem, feinkörnigem und grobkörnigem Kalzit683
MIP 02 rot Gemenge aus feinkörnigem Hämatit, Eisenoxiden, Quarz und Muskovit
1880MIP 03 weiss Mischung aus zerriebenem, feinkörnigem und grobkörnigem Kalzit
1880MIP 04a weiss Mischung aus zerriebenem, feinkörnigem und grobkörnigem Kalzit
2468MIP 04b rot Feinkörnige Eisenoxide mit Quarz und Tonmineralen vermengt
5847MIP 05a gelb Gemenge aus feinkörnigem Kalzit, Eisen(hydro)xiden und Ton mit Quarz verunreinigt
5847MIP 05b rot Mischung aus feinkörnigen Eisenoxiden und Ton mit Quarz verunreinigt
5768MIP 06a weiss Gemenge aus zerriebenem, feinkörnigem und grobkörnigem Kalzit
5768MIP 06b rot Mischung aus feinkörnigem Hämatit, Eisenoxiden, Quarz und Muskovit
4676MIP 07a weiss Mischung aus feinkörnigem, zerriebenem und grobkörnigem Kalzit
4676MIP 07b rot Mischung aus Eisenoxiden mit Tonsubstanz
4834MIP 08 weiss Gemenge aus zerriebenem, feinkörnigem und grobkörnigem Kalzit
4831MIP 09 weiss Gemenge aus zerriebenem, feinkörnigem und grobkörnigem Kalzit
4722MIP 10 weiss Gemenge aus zerriebenem, feinkörnigem und grobkörnigem Kalzit
5378MIP 11a weiss Mischung aus zerriebenem, feinkörnigem und grobkörnigem Kalzit
5378MIP 11b rot Mischung aus feinkörnigem Hämatit, Eisenoxiden, Quarz und Muskovit
133E&G / Vol. 58 / No. 2 / 2009 / 124–134 / DOI 10.3285/eg.58.2.01 / Authors / Creative Commons Attribution License
Literaturverzeichnis
134 E&G / Vol. 58 / No. 2 / 2009 / 124–134 / DOI 10.3285/eg.58.2.01 / Authors / Creative Commons Attribution License
135E&G / Vol. 58 / No. 2 / 2009 / 135-147 / DOI 10.3285/eg.58.2.02 / Authors / Creative Commons Attribution License
E&G Eiszeitalter und Gegenwart / Quaternary Science Journal Volume 58 / Number 2 / 2009 / 135–147 / DOI 10.3285/eg.58.2.02www.quaternary-science.net
GEOZON SCIENCE MEDIAISSN 0424-7116
Pedological and geochemical investigations at the “Red Outcrop” of Langenlois (Lower Austria)
Edith Haslinger, Libu#e Smolíková, Pavel Havlí$ek, Reinhard Roetzel, Maria Heinrich, Old%ich Holásek, Michal Vachek, Franz Ottner
Abstract:
[Bodenkundliche und geochemische Untersuchungen am „Roten Aufschluss“ in Langenlois (Niederösterreich)]
Kurzfassung:
Keywords:
Addresses of authors:
1 Introduction
136 E&G / Vol. 58 / No. 2 / 2009 / 135-147 / DOI 10.3285/eg.58.2.02 / Authors / Creative Commons Attribution License
2 Methods
Lois 5
Lois 6
Lois 3
Lois 4
Lois 7
Lois 1Lois 2
371.960
371.940
371.920
371.900
371.880
371.860
700.160 700.180 700.200 700.220
Vienna
Austria
Langenlois
0 1000 m
N
N
~ 60 m~
100
m
137E&G / Vol. 58 / No. 2 / 2009 / 135-147 / DOI 10.3285/eg.58.2.02 / Authors / Creative Commons Attribution License
0 500 1000 m
loess, loam
amphibolite (Rehberg)
graphitiferous paragneiss
N
41
6
50
43
24
legend:
outcrop
47
45
45
47
quarry
cleyey marl, sand, gravel
orthogneiss, intercalated withamphibolite (Rehberg)
marble
graphitiferous quartzite
b-axes
dip and strike
microfossils
138 E&G / Vol. 58 / No. 2 / 2009 / 135-147 / DOI 10.3285/eg.58.2.02 / Authors / Creative Commons Attribution License
3 Results
139E&G / Vol. 58 / No. 2 / 2009 / 135-147 / DOI 10.3285/eg.58.2.02 / Authors / Creative Commons Attribution License
Profile Sample no.Soil type
(ASCS; WRB)Horizon depth Horizon
soil colour(moist)
StructureHorizon
transition/boundary
Roots% > 2mm
%Silt
%Clay
pHH O2
pHCaCl2
C(%)
org
Lois 1 Lois 1/1 KarbonathaltigeBraunerde
ausgrobklastischem
Material -Haplic Calcisol
%Sand
Lois 1/2
Lois 1/3
Lois 1/4
0 - 40
40 - 70
70 - 120
120 - 140
Ap
BwCv
Cv
C
10YR/4/3
10YR/5/3
2,5Y/6/3,5
2,5Y/6/3
10YR/5,5/4
10YR/6/2
2,5Y/7/2,5
2,5Y/7/3
sab, gr
sab
sab
sab
a, s
a, w
a, w
a, w
R3
R1
R1
R1
26,3
19,0
26,2
30,1
33,7
44,7
49,5
47,1
24,7
24,1
18,4
17,1
15,4
12,2
5,9
5,7
7,5
7,7
7,9
7,9
7,2
7,3
7,3
7,5
0,74
0,48
0,30
0,21
Lois 2 Lois 2/1KarbonathaltigeReliktbraunerdeüber Amphibolit -
Endopetric Calcisol(Chromic)
Lois 2/2Lois 2/3Lois 2/4Lois 2/5Lois 2/6
0 - 45/5045/50 - 170/180
170/180 - 220/230
ApBrel1Brel1Brel2
10YR/4/37,5YR/4,5/67,5YR/4,5/67,5YR/4/6
10YR/6/37,5YR/6/67,5YR/6/67,5YR/4/6
ab, grsab, grsab, gr
ab
a, sa, wg, wg, w
R3R2R2R1
24,56,14,2
11,0
29,917,217,217,7
25,433,331,123,1
20,143,547,548,2
7,67,87,98,0
7,27,57,57,6
0,910,220,150,19
220/230 - 310/340 BrelCvBrelCv
7,5YR/4/67,5YR/4/6
7,5YR/4/67,5YR/5/6
abab
a, wa, w
R1R1
14,024,4
23,340,1
20,019,1
42,616,4
8,08,1
7,67,7
0,180,12
Lois 3 Lois 3/1Lois 3/2Lois 3/3Lois 3/4Lois 3/5Lois 3/6Lois 3/7Lois 3/8Lois 3/9Lois 3/10
KarbonathaltigeParabraunerdeaus reliktärem
Lockersediment -Stagnic HypercalcicLuvisol (Chromic)
0 - 25/3025/30 - 60
60 - 120/130
120/130 - 190/200
190/200 - 290/300
290 - 409409 - 460
ApBhB(t)B(t)
Brel1Brel1Brel2Brel2Brel3Brel4
10YR/3/210YR/4/37,5YR/4/47,5YR/4/6
7,5YR/4,5/47,5YR/4/47,5YR/4/65YR/4,5/67,5YR/5/67,5YR/4/5
10YR/4/37,5YR/5/47,5YR/5/67,5YR/6/67,5YR/6/47,5YR/6/67,5YR/5/65YR/5/6
7,5YR/6/67,5YR/4/4
ab, sabsab, grsab, grsab, gr
abababababab
a, sa, wa, wa, wg, wg, wg, wg, wg, wg, w
R3R2R1R1R0R0R0R0R0R0
10,34,11,43,31,82,76,46,9
23,73,8
31,020,911,410,411,714,0
9,510,924,7
9,3
37,033,932,338,139,136,427,624,914,86,1
21,741,154,948,247,446,956,557,336,880,8
7,67,87,88,08,18,28,08,28,38,1
7,17,37,47,57,77,77,87,88,07,8
1,780,570,330,190,130,100,200,150,210,17
Karbonath. Parabraunerdeaus reliktärem
Lockersediment -Stagnic HypercalcicLuvisol (Chromic)
Lois 4 Lois 4/1
Lois 4/2
Lois 4/3
0 - 20/25 Ap 10YR/4/3 10YR/5/4 gr a, s R3 7,2 23,3 32,2 37,3 7,2 1,01
20/25 - 90/95
90/95 - 140
Brel1
Brel2
5YR/4/6
7,5YR/5/6
5YR/5/6
7,5YR/6/6
ab
ab g, w
g, w R1
R1
7,6
2,3 10,1 25,0 62,6 7,4 0,257,8
9,9 33,8 24,1 32,2 7,6 0,138,1
Schüttungs-(Planie-)boden
über skelettreicherkarbonathaltigerReliktbraunerde -Technic Cambisol
(Chromic, Hypoepiskeletic)
Lois 5 Lois 5/1
Lois 5/2
Lois 5/3
30 - 0
Ap
10YR/4/2 10YR/5/3,5
sab, gr a, s R2
24,7 38,7 23,6 13,0 7,5 0,52
0 - 15
15 - 120 BrelCv1
BrelCv2
10YR/4/3
7,5YR/4/6
10YR/4,5/3
7,5YR/6/6 ab
ab g, s
g, s R1
R1
7,8
19,7 36,2 24,7 19,4 7,2 0,737,5
42,9 30,3 11,6 15,2 7,3 0,187,8
Lois 5/4
Lois 6 Lois 6/1Lois 6/2Lois 6/3Lois 6/4Lois 6/5Lois 6/6Lois 6/7
+250 - 150+150 - 0
0 - 4040 - 8080 - 130
130 - 230230 - 400
YCvCv1Cv2Cv3Cv4Cv5
10YR/4/310YR/4/32,5Y/6/32,5Y/4/32,5Y/5/32,5Y/4/42,5Y/5/4
10YR/5/310YR/5,5/3
2,5Y/7/22,5Y/6/32,5Y/6/42,5Y/6/42,5Y/6/4
sgsgsgsgsg
g, wg, wg, wg, wg, w
R0R0R0R0R0
18,125,554,945,129,452,625,3
42,037,532,543,052,631,748,8
26,723,08,8
10,115,613,218,7
13,214,03,81,82,42,57,3
7,27,57,67,67,67,67,7
0,840,560,360,400,100,150,23
7,57,77,88,28,27,98,1
Schüttungs-(Planie-)boden
überkarbonathaltigem
Grobmaterial-Rohboden -
Technic Leptosol(Hypoepiskeletic)
120 - 200
Y
7,5YR/4/6 5YR/5/6 30,5 28,5 17,6 23,5 7,5 0,117,9
Y
Structure: sab = subangular blocky, ab = angular blocky, gr = granular, sg = single grain structureDistinctness and topography of horizon boundaries: a = abrupt, g = gradual, s = smooth, w = wavyRoots: R0 = none, R1 = few, R2 = moderate, R3 = many
ASCS = Austrian Soil Classification System; WRB = World Reference Base for Soil Resources
soil colour(dry)
Profile Horizon /Depth1
Lois 1
Lois 2
Lois 3
Lois 4
Lois 6
Fe(g/kg)
o Al(g/kg)
o Mn(g/kg)
o Fe(g/kg)
d Al(g/kg)
d Mn(g/kg)
d Fe(g/kg)
t Fe /Fed t Fe /Feo d
Ap - 40 cmBwCv - 70 cmCv - 120 cmC - 140 cm
Ap - 25 cmBrel1 - 100 cmBrel1 - 170 cmBrel2 - 220 cm
BrelCv - 270 cmBrelCv - 310 cm
Ap - 30 cmBh - 60 cmB(t) - 90 cm
B(t) - 120 cmBrel1 - 150 cmBrel1 - 190 cmBrel2 - 240 cmBrel2 - 290 cmBrel3 - 409 cmBrel4 - 460 cm
Ap - 20 cmBrel1 - 90 cmBrel2 - 140 cm
Lois 5 Y - +30 - 0 cmAp - 15 cm
BrelCv1 - 120 cmBrelCv2 - 200 cm
Y - +250 - 150 cmYCv - +150 - 0 cm
Cv1 - 40 cmCv2 - 80 cmCv3 - 130 cmCv4 - 230 cmCv5 - 400 cm
0,470,290,110,08
0,320,200,090,08
0,230,160,050,07
0,450,270,270,300,360,35
0,330,280,290,330,440,50
0,290,310,450,460,420,28
0,680,630,850,470,320,340,670,641,011,16
0,560,650,910,510,280,240,470,480,601,02
0,380,300,220,270,240,260,230,100,880,29
0,780,800,62
0,520,590,39
0,260,070,32
0,510,730,440,54
0,310,420,310,28
0,200,320,460,42
0,730,680,190,250,090,100,47
0,400,440,160,210,100,100,18
0,270,210,100,170,070,080,26
2,972,822,511,34
2,882,291,962,912,752,37
2,873,133,903,442,212,303,654,872,854,46
2,784,832,09
5,553,365,235,55
3,363,496,103,632,763,123,21
0,120,110,080,01
0,150,110,130,190,200,17
0,180,240,310,220,110,110,240,031,211,45
0,150,330,12
0,130,170,290,29
0,170,150,060,030,060,070,02
0,160,110,040,05
0,180,190,250,320,250,15
0,190,160,130,160,130,170,160,070,410,16
0,150,050,39
0,160,180,310,29
0,170,120,110,120,060,090,14
47,9042,9448,1635,59
42,3333,5334,6949,7250,0855,43
38,4039,2641,5537,6330,2629,0641,8446,7862,4035,07
37,5445,8425,42
54,0453,6261,2463,51
51,1160,1369,4471,4861,5784,5236,60
0,060,070,050,04
0,070,070,060,060,050,04
0,070,080,090,090,070,080,090,100,050,13
0,070,110,08
0,100,060,090,09
0,070,060,090,050,040,040,09
0,160,100,040,06
0,160,120,140,100,130,15
0,240,200,220,140,140,150,180,130,350,26
0,280,170,30
0,090,220,080,10
0,220,200,030,070,030,030,15
1According to Austrian Soil Classification System
140 E&G / Vol. 58 / No. 2 / 2009 / 135-147 / DOI 10.3285/eg.58.2.02 / Authors / Creative Commons Attribution License
Profile Horizon /Depth1
Lois 1
Lois 2
Lois 3
Lois 4
Lois 6
Ap - 40 cmBwCv - 70 cmCv - 120 cmC - 140 cm
G 1/1 - 240 cmG 1/2 - 382 cmG 1/3 - 440 cm
Ap - 25 cmBrel1 - 100 cmBrel1 - 170 cmBrel2 - 220 cm
BrelCv - 270 cmBrelCv - 310 cmG 2/1 - 280 cmG 2/2 - 382 cm
Ap - 30 cmBh - 60 cmB(t) - 90 cm
B(t) - 120 cmBrel1 - 150 cmBrel1 - 190 cmBrel2 - 240 cmBrel2 - 290 cmBrel3 - 409 cmBrel4 - 460 cm
Ap - 20 cmBrel1 - 90 cmBrel2 - 140 cm
Lois 5 Y - +30 - 0 cmAp - 15 cm
BrelCv1 - 120 cmBrelCv2 - 200 cm
Y - +250 - 150 cmYCv - +150 - 0 cm
Cv1 - 40 cmCv2 - 80 cmCv3 - 130 cmCv4 - 230 cmCv5 - 400 cm
G 6/1 - 330 cm
Soil mineralogical composition Clay minerals in the < 2 m!
Qu K-Fsp Plag Calc Sh.si. Hbl Acc
Zoi, Chl, Rut, TitZoi, Chl, Pyx, Gr
Verm Smec Illite Kao Chl
Zoi, Chl
261434004
3222323122740
49515149364845344017
434662
24301933
36265
125
521616
Qu K-Fsp lag Kalz Sh.si HblAkc Chl Gr Pyx Rut Tit ZoiVerm Smek Kao Chl
= Quartz, = Kali Feldspar, P = Plagioclase, = Calzite, = Sheet silicate, = Hornblende,= Akcessories, = Chlorite, = Garnet, = Pyroxene, = Rutile, = Titanite, = Zoisite
= Vermiculite, = Smectite, = Kaolinite, = Chlorite
4200000
22222000
6433333222
462
3222
3212233
18
13111412443
134522634
91266553320
931
13151711
171581586115
27454349000
2841387136096
661133217611312
9313
2819222
717513652203759
10837000
9202156525000
23243929212743502580
254121
15143145
1917591912190
20223627969692
161121930930
6200300000
1100
172098
19233126147152
21
SpSp
358708
6379985945
000
5879
7900000
48475565
484347495167
46403838474139245655
393655
73567354
29549087899760
31281712
303937414722
30371821172327293236
364335
9201326
3717000013
15151213
1296322
151838312526293884
252110
7957
160000014
49
1610
842100
3200210000
Sp0
Sp
6724
1120101311313
Zoi, Chl, Gr, TitHbl
1According to Austrian Soil Classification System
Profile Horizon /Depth1
Lois 1
Lois 2
Lois 3
Lois 4
Lois 6
Ap - 40 cmBwCv - 70 cmCv - 120 cmC - 140 cm
G 1/1 - 240 cmG 1/2 - 382 cmG 1/3 - 440 cm
Ap - 25 cmBrel1 - 100 cmBrel1 - 170 cmBrel2 - 220 cm
BrelCv - 270 cmBrelCv - 310 cmG 2/1 - 280 cmG 2/2 - 382 cm
Ap - 30 cmBh - 60 cmB(t) - 90 cmB(t) - 120 cm
Brel1 - 150 cmBrel1 - 190 cmBrel2 - 240 cmBrel2 - 290 cmBrel3 - 409 cmBrel4 - 460 cm
Ap - 20 cmBrel1 - 90 cm
Brel2 - 140 cm
Lois 5 Y - +30 - 0 cmAp - 15 cm
BrelCv1 - 120 cmBrelCv2 - 200 cm
Y - +250 - 150 cmYCv - +150 - 0 cm
Cv1 - 40 cmCv2 - 80 cmCv3 - 130 cmCv4 - 230 cmCv5 - 400 cm
G 6/1 - 330 cm
46,535,029,529,048,047,544,0
48,040,044,052,047,047,046,5
3,1
52,556,557,554,047,554,554,549,047,048,0
53,052,563,5
48,048,544,552,0
30,039,030,038,556,053,530,039,0
SiO2 TiO2 Al O2 3 Fe O2 3 MnO MgO CaO
13,6324,2729,7131,4912,0513,3510,50
12,0218,5815,074,217,236,71
11,0551,00
4,323,771,295,04
12,587,721,983,460,40
10,95
5,621,886,15
12,389,529,993,16
27,0818,7025,3316,7412,2411,4227,0818,70
0,800,500,310,310,540,590,39
0,760,540,570,670,590,500,420,04
0,710,760,810,780,720,840,850,800,730,75
0,750,830,89
0,940,890,820,85
0,910,891,360,880,841,410,910,89
12,238,636,576,55
15,3715,2417,25
12,8612,0012,4316,7316,7419,2420,111,25
15,2216,9819,0417,5214,3615,3219,9020,6819,9213,43
15,7621,0511,70
12,3814,5016,0018,10
6,6110,13
9,739,688,32
13,766,61
10,13
6,856,146,895,098,487,64
11,06
6,054,794,967,117,167,937,210,61
5,495,615,945,384,334,155,986,698,925,01
5,376,553,63
7,737,678,769,08
9,9310,22
8,8012,085,238,309,93
10,22
0,140,100,080,080,120,120,13
0,140,120,160,170,170,130,100,01
0,140,120,080,090,080,100,080,050,090,16
0,120,040,19
0,150,170,170,17
0,130,170,160,190,100,110,130,17
3,693,564,253,80
10,5111,0710,40
3,152,432,722,913,493,907,261,12
2,382,332,132,252,322,452,362,893,492,75
2,462,411,92
3,733,603,323,43
4,295,154,195,672,773,324,295,15
Na O2
1,451,150,930,932,282,882,84
1,650,971,071,321,151,372,36
<0,15
1,711,631,731,551,371,641,461,461,341,21
1,511,401,39
1,721,461,601,78
0,701,520,780,781,812,270,701,52
1,570,890,300,330,200,250,29
1,751,912,142,832,451,820,430,04
2,222,272,422,262,022,172,442,272,751,83
2,172,311,67
1,361,681,722,10
0,280,330,690,460,982,390,280,33
K O2
1,691,511,161,130,370,240,59
1,842,282,774,564,595,351,741,87
2,782,873,592,712,262,273,623,943,396,64
2,744,032,41
2,012,353,504,20
1,952,252,272,771,560,831,952,25
H O2
-
0,350,230,110,130,040,030,05
0,340,280,280,120,130,110,500,14
0,330,170,080,090,140,160,080,130,170,17
0,260,100,12
0,310,400,320,19
0,220,270,180,150,210,400,220,27
P O2 5 CO2
10,7717,5319,5320,46
0,260,270,12
11,3313,6111,323,294,281,900,45
39,98
11,974,941,654,519,325,881,733,078,520,72
9,841,814,38
8,198,915,961,29
17,4010,4014,40
8,337,171,57
17,4010,40
SO3
0,140,120,110,110,000,010,01
0,150,040,040,030,030,020,010,14
0,250,090,080,050,060,060,060,030,010,03
0,120,010,04
0,160,210,090,07
0,180,050,050,050,080,010,180,05
(H O )2
+
0,100,200,600,601,501,002,30
0,102,302,504,005,304,151,900,45
0,101,903,703,603,003,004,905,303,208,50
0,105,152,10
0,750,103,103,80
0,300,551,803,402,770,600,300,55
!
99,9099,84
100,03100,00
99,72100,18
99,94
100,1499,84
100,0399,95
100,32100,12100,0399,74
99,94100,05
99,84100,06100,25
99,9399,7799,92
100,14
99,82100,08100,08
99,8199,9599,85
100,22
99,9799,6399,7399,69
100,0899,8999,9799,63
100,11
!
1494129913031365181114721636
1436122413051422139414542244937
135314351401130414101421133414421266
145813601246
1439155215581571
15111475106713811000
939997
1824
1428
Ba
36128322021312956
128
354375400413364254332351
389393425407382404404350345366
361371355
313394476473
387329211197152181214660
Co
12172321181428
139
1099
10153
11101010810971011
10912
13161717
1518272314151211
Cr
10397
164244776496322
1007983
118141327450
41
11896
10194768298
114158
97
118113114
182131130123
140152
345829355498
Cs
52
<1,5<1,5
3<1,5<1,5
<1,5<1,5<1,5
32
<1,5<1,5<1,5
433323632
<1,5
454
6<1,5
25
311<1,5<1,5<1,5<1,5<1,5
2
Cu
1389182928134
284
12752546568614924
128454240373346507950
1404638
741327777
10871788832424748
Ni
515979
12410240
195
4743455772868513
49474443373238477845
524433
50607271
5957354819314538
Pb
231967242
272023251913
33
27232524212726262020
262425
23241517
2528
578
1012
8
Rb
64431416
77
10
778797
1301138114
4
100106120119104107136126142
93
10013475
567388
104
7555121840243980
Sr
311368449438294331321
262184192140203254
1051480
13111093
100143142
89105105169
12385
131
276228194178
223273327508389200267526
V
152155189122317405265
13599
112153142179162<10
116108
120108
8886
129144176114
121138
87
186197202202
17220222426017320376
173
Y
2516999
107
27252722192614
2
33353538353730245127
322328
26282828
2827122321262220
Zn
112704545555760
10488
103151133109
5116
97878985727299
10116389
909763
101111133135
105108667662994858
Zr
137802435181915
164162159137109
5417<1
226289329330302376313238113185
281271280
133161123142
17214437776272
162104
1According to Austrian Soil Classification SystemLOI = Loss on ignition (1000° C)
2
141E&G / Vol. 58 / No. 2 / 2009 / 135-147 / DOI 10.3285/eg.58.2.02 / Authors / Creative Commons Attribution License
142 E&G / Vol. 58 / No. 2 / 2009 / 135-147 / DOI 10.3285/eg.58.2.02 / Authors / Creative Commons Attribution License
143E&G / Vol. 58 / No. 2 / 2009 / 135-147 / DOI 10.3285/eg.58.2.02 / Authors / Creative Commons Attribution License
144 E&G / Vol. 58 / No. 2 / 2009 / 135-147 / DOI 10.3285/eg.58.2.02 / Authors / Creative Commons Attribution License
145E&G / Vol. 58 / No. 2 / 2009 / 135-147 / DOI 10.3285/eg.58.2.02 / Authors / Creative Commons Attribution License
146 E&G / Vol. 58 / No. 2 / 2009 / 135-147 / DOI 10.3285/eg.58.2.02 / Authors / Creative Commons Attribution License
4 Summary and discussion
147E&G / Vol. 58 / No. 2 / 2009 / 135-147 / DOI 10.3285/eg.58.2.02 / Authors / Creative Commons Attribution License
Acknowledgements
References
148 E&G / Vol. 58 / No. 2 / 2009 / 148–155 / DOI 10.3285/eg.58.2.03 / Authors / Creative Commons Attribution License
E&G Eiszeitalter und Gegenwart / Quaternary Science Journal Volume 58 / Number 2 / 2009 / 148–155 / DOI 10.3285/eg.58.2.03www.quaternary-science.net
GEOZON SCIENCE MEDIAISSN 0424-7116
Reconstructing Quaternary vegetation history in the Carpathian Basin, SE Europe, using n-alkane biomarkers as molecular fossilsProblems and possible solutions, potential and limitations
Michael Zech, Björn Buggle, Katharina Leiber, Slobodan Markovi&, Bruno Glaser, Ulrich Hambach, Bernd Huwe, Thomas Stevens, Pal Sümegi, Guido Wiesenberg, Ludwig Zöller
Abstract:
[Rekonstruktion der quartären Vegetationsgeschichte im Karpaten-Becken, Südost-Europa, mit Hilfe von n-Alkan Bi-omarkern als molekulare Fossilien: Probleme und mögliche Lösungen, Potenzial und Grenzen]
Zusammenfassung:
Keywords:
Addresses of authors:
1 Introduction
149E&G / Vol. 58 / No. 2 / 2009 / 148–155 / DOI 10.3285/eg.58.2.03 / Authors / Creative Commons Attribution License
2 Study Area and Pedostratigraphy
150 E&G / Vol. 58 / No. 2 / 2009 / 148–155 / DOI 10.3285/eg.58.2.03 / Authors / Creative Commons Attribution License
3 Material and Methods
151E&G / Vol. 58 / No. 2 / 2009 / 148–155 / DOI 10.3285/eg.58.2.03 / Authors / Creative Commons Attribution License
4 Results and Discussion
4.1 n-Alkane distribution patterns of modern vegetation and soils
4.2 n-Alkane ratios from the Crvenka loess-palaeosol sequence
152 E&G / Vol. 58 / No. 2 / 2009 / 148–155 / DOI 10.3285/eg.58.2.03 / Authors / Creative Commons Attribution License
4.3 End member modelling – accounting for the degradation e!ect
153E&G / Vol. 58 / No. 2 / 2009 / 148–155 / DOI 10.3285/eg.58.2.03 / Authors / Creative Commons Attribution License
4.4 Reconstruction of vegetation and climate history recorded in the Crvenka loess-palaeosol sequence
alkanes derived from trees
alkanes derived from grasses and herbs
modelling results (%)
based on
C31 / C27
modelling results (%)
based on
C33 / C27
modelling results (%)
based on
C31 / C29
modelling results (%)
based on
(C31+C33) / (C27+C29)
-25 0 25 50 75 100 -25 0 25 50 75 100 -25 0 25 50 75 100 -25 0 25 50 75 100
154 E&G / Vol. 58 / No. 2 / 2009 / 148–155 / DOI 10.3285/eg.58.2.03 / Authors / Creative Commons Attribution License
5 Conclusions and Outlook
Acknowledgements
References
155E&G / Vol. 58 / No. 2 / 2009 / 148–155 / DOI 10.3285/eg.58.2.03 / Authors / Creative Commons Attribution License
156 E&G / Vol. 58 / No. 2 / 2009 / 156–163 / DOI 10.3285/eg.58.2.04 / Authors / Creative Commons Attribution License
Late Glacial and Holocene aeolian sands and soil formation from the Pomeranian outwash plain (Mecklenburg, NE-Germany)Dedicated to the 75th birthday of Wolfgang Janke
Mathias Küster, Frank Preusser
Abstract:
[Spätglaziale und holozäne Flugsande und Bodenbildungen aus dem Pommerschen Sandergebiet (Mecklenburg, NE-Deutschland)]
Kurzfassung:
Key words:
Addresses of authors:
3 Methods
1 Introduction
2 Study area
E&G Eiszeitalter und Gegenwart / Quaternary Science Journal Volume 58 / Number 2 / 2009 / 156–163 / DOI 10.3285/eg.58.2.04www.quaternary-science.net
GEOZON SCIENCE MEDIAISSN 0424-7116
157E&G / Vol. 58 / No. 2 / 2009 / 156–163 / DOI 10.3285/eg.58.2.04 / Authors / Creative Commons Attribution License
4 Results
158 E&G / Vol. 58 / No. 2 / 2009 / 156–163 / DOI 10.3285/eg.58.2.04 / Authors / Creative Commons Attribution License
159E&G / Vol. 58 / No. 2 / 2009 / 156–163 / DOI 10.3285/eg.58.2.04 / Authors / Creative Commons Attribution License
5 Discussion
160 E&G / Vol. 58 / No. 2 / 2009 / 156–163 / DOI 10.3285/eg.58.2.04 / Authors / Creative Commons Attribution License
60
58
62
64
66
68
70
[ma
.s.l.
]
W E
drift sand Ahb/Apb , , AEpeat
glaciofluvial sand Bwb BshCg
0 10 m
815±44 C yr BP(1154-1280 AD)
14ZW-1
ZW-1[cm]
AEBshC
C
Apb1
Apb2
2Apb3
2BwbApb
2Bwb
2C
0
300
,, , , , , ,
150
250
200
100
50
,
,,
,,,,,,,,,,,,, ,,
,
161E&G / Vol. 58 / No. 2 / 2009 / 156–163 / DOI 10.3285/eg.58.2.04 / Authors / Creative Commons Attribution License
6 Conclusions
Acknowledgements
162 E&G / Vol. 58 / No. 2 / 2009 / 156–163 / DOI 10.3285/eg.58.2.04 / Authors / Creative Commons Attribution License
References
163E&G / Vol. 58 / No. 2 / 2009 / 156–163 / DOI 10.3285/eg.58.2.04 / Authors / Creative Commons Attribution License
164 E&G / Vol. 58 / No. 2 / 2009 / 164–173 / DOI 10.3285/eg.58.2.05 / Authors / Creative Commons Attribution License
Coastal evolution of a Holocene barrier spit (Bug peninsula/NW-Rügen) deduced from geological structure and relative sea-level
Michael Naumann , Reinhard Lampe, Gösta Ho"mann
Abstract:
[Küstenentwicklung einer holozänen Nehrung (Halbinsel Bug/NW-Rügen) abgeleitet aus der geologischen Struktur und dem relativen Meeresspiegel]
Kurzfassung:
Key words:
Adresses of authors:
E&G Eiszeitalter und Gegenwart / Quaternary Science Journal Volume 58 / Number 2 / 2009 / 164–173 / DOI 10.3285/eg.58.2.05www.quaternary-science.net
GEOZON SCIENCE MEDIAISSN 0424-7116
165E&G / Vol. 58 / No. 2 / 2009 / 164–173 / DOI 10.3285/eg.58.2.05 / Authors / Creative Commons Attribution License
1 Introduction and aims
2 Study area
166 E&G / Vol. 58 / No. 2 / 2009 / 164–173 / DOI 10.3285/eg.58.2.05 / Authors / Creative Commons Attribution License
167E&G / Vol. 58 / No. 2 / 2009 / 164–173 / DOI 10.3285/eg.58.2.05 / Authors / Creative Commons Attribution License
3 Methods
168 E&G / Vol. 58 / No. 2 / 2009 / 164–173 / DOI 10.3285/eg.58.2.05 / Authors / Creative Commons Attribution License
4 Results
169E&G / Vol. 58 / No. 2 / 2009 / 164–173 / DOI 10.3285/eg.58.2.05 / Authors / Creative Commons Attribution License
170 E&G / Vol. 58 / No. 2 / 2009 / 164–173 / DOI 10.3285/eg.58.2.05 / Authors / Creative Commons Attribution License
5 Interpretation
171E&G / Vol. 58 / No. 2 / 2009 / 164–173 / DOI 10.3285/eg.58.2.05 / Authors / Creative Commons Attribution License
172 E&G / Vol. 58 / No. 2 / 2009 / 164–173 / DOI 10.3285/eg.58.2.05 / Authors / Creative Commons Attribution License
6 Conclusions
173E&G / Vol. 58 / No. 2 / 2009 / 164–173 / DOI 10.3285/eg.58.2.05 / Authors / Creative Commons Attribution License
Acknowledgment
References
174 E&G / Vol. 58 / No. 2 / 2009 / Authors / Creative Commons Attribution License
Neues Publikationssystem (Deutsch)
175E&G / Vol. 58 / No. 2 / 2009 / Authors / Creative Commons Attribution License
(Englisch)
176 E&G / Vol. 58 / No. 2 / 2009 / Authors / Creative Commons Attribution License
Autorenhinweise (Deutsch)
177E&G / Vol. 58 / No. 2 / 2009 / Authors / Creative Commons Attribution License
(Englisch)
178 E&G / Vol. 58 / No. 2 / 2009 / Authors / Creative Commons Attribution License
Committee / Vorstand
PRESIDENT / PRÄSIDENTINPROF. DR. MARGOT BÖSEFreie Universität BerlinMalteserstr. 74-100D-12249 Berlin, GermanyTel.: +49 (0)30 / 838-70373e-mail: m.boese (at) fu-berlin.de
VICE PRESIDENTS / VIZEPRÄSIDENTENPROF. DR. MARKUS FIEBIGDepartment für Bautechnik und NaturgefahrenInstitut für Angewandte GeologieUniversität für BodenkulturPeter Jordan Str. 70A-1190 Wien, AustriaTel.: +43-1-47654 5402e-mail: markus.fiebig (at) boku.ac.at
PROF. DR. REINHARD LAMPEInstitut für Geographie und GeologieErnst-Moritz-Arndt-Universität GreifwaldFriedrich-Ludwig-Jahn-Strasse 1617487 Greifswald, GermanyTel: +49 (0)3834-86-4521e-mail: lampe (at) uni-greifswald.de
TREASURER / SCHATZMEISTER DR. JÖRG ELBRACHTLandesamt für Bergbau, Energie und GeologieStilleweg 2D-30655 Hannover, GermanyTel.:+49 (0)511 / 643 3613e-mail: Joerg.Elbracht (at) lbeg.niedersachsen.de
EDITOR-IN-CHIEF / SCHRIFTLEITUNG (E&G)PD DR. HOLGER FREUNDICBM – GeoecologyCarl-von-Ossietzky Universitaet OldenburgSchleusenstr 1D-26382 Wilhelmshaven, GermanyTel.: +49 (0)4421 / 944200e-mail: holger.freund (at) icbm.terramare.de
ARCHIVIST / ARCHIVARDR. STEFAN WANSALandesamt für Geologie und Bergwesen Sachsen-AnhaltPostfach 156D- 06035 Halle, GermanyTel. +49 (0)345 / 5212-127e-mail: wansa (at) lagb.mw.sachsen-anhalt.de
ADVISORY BOARD / BEIRATDR. CHRISTIAN HOSELMANNHessisches Landesamt für Umwelt und GeologiePostfach 3209D-65022 Wiesbaden, GermanyTel.: +49 (0)611 / 6939 928e-mail: Christian.Hoselmann (at) hlug.hessen.de
DEUQUA
DR. DANIELA SAUERInstitut für Bodenkunde und StandortslehreEmil-Wol"-Str. 27D-70593 Stuttgart, GermanyTel.: +49 (0)711 / 459-22935e-mail: d-sauer (at) uni-hohenheim.de
DR. FRANK PREUSSERGeolog. Institut der Universität BernBaltzerstr. 1-3CH-3012 Bern, SwitzerlandTel.: 0041 / 31 / 631 8770e-mail: preusser (at) geo.unibe.ch
DR. JÜRGEN REITNERGeologische BundesanstaltNeulinggasse 38A-1031 Wien, AustriaTel.: +43-1-7125674-242e-mail: juergen.reitner (at) geologie.ac.at
PROF. DR. BIRGIT TERHORSTGeographisches Institut der Universität WürzburgAm Hubland97074 Würzburg, GermanyDeutschlandTel. +49-9318885585e-mail birgit.terhorst (at) uni-wuerzburg.de
Deutsche Quartärvereinigung e.V.German Quaternary Association
179E&G / Vol. 58 / No. 2 / 2009 / Authors / Creative Commons Attribution License
Reorder / Nachbestellung
DOI 10.3285/eg.58.2.00
Preface: Changing environments – Yesterday, Today, Tomorrow Vorwort: Veränderter Lebensraum – Gestern, Heute und Morgen
Markus Fiebig
DOI 10.3285/eg.58.2.01
Archäometrische Analysen von Lengyelkeramik aus Niederösterreich Archaeometrical analysis of Lengyel pottery from Lower Austria
Ângela Carneiro
DOI 10.3285/eg.58.2.02
Pedological and geochemical investigations at the “Red Outcrop” of Langenlois (Lower Austria) Bodenkundliche und geochemische Untersuchungen am „Roten Aufschluss“ in Langenlois (Niederösterreich)
Edith Haslinger, Libu#e Smolíková, Pavel Havlí$ek, Reinhard Roetzel, Maria Heinrich, Old%ich Holásek, Michal Vachek, Franz Ottner
DOI 10.3285/eg.58.2.03
Reconstructing Quaternary vegetation history in the Carpathian Basin, SE Europe, using n-alkane biomarkers as molecular fossils – Problems and possible solutions, potential and limitations Rekonstruktion der quartären Vegetationsgeschichte im Karpaten-Becken, Südost-Europa, mit Hilfe von n-Alkan Biomarkern als molekulare Fossilien: Probleme und mögliche Lösungen, Potenzial und Grenzen
Michael Zech, Björn Buggle, Katharina Leiber, Slobodan Markovi&, Bruno Glaser, Ulrich Hambach, Bernd Huwe, Thomas Stevens, Pal Sümegi, Guido Wiesenberg, Ludwig Zöller
DOI 10.3285/eg.58.2.014
Late Glacial and Holocene aeolian sands and soil formation from the Pomeranian outwash plain (Mecklenburg, NE-Germany) Spätglaziale und holozäne Flugsande und Bodenbildungen aus dem Pommerschen Sandergebiet (Mecklenburg, NE-Deutschland)
Mathias Küster, Frank Preusser
DOI 10.3285/eg.58.2.05
Coastal evolution of a Holocene barrier spit (Bug peninsula/NW-Rügen) deduced from geological structure and relative sea-level Küstenentwicklung einer holozänen Nehrung (Halbinsel Bug/NW-Rügen) abgeleitet aus der geologischen Struktur und dem relativen Meeresspiegel
Michael Naumann , Reinhard Lampe, Gösta Ho"mann
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E&G Eiszeitalter und Gegenwart / Quaternary Science Journal Volume 58 / Number 2 / 2009 / ISSN 0424-7116 / DOI 10.3285/eg.58.2www.quaternary-science.net
GEOZON SCIENCE MEDIAwww.geozon.net
Contents