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Dugerdil, Lucas; Ménot, Guillemette; Peyron, Odile; Egamberdieva, Dilfuza; Jouffroy-Bapicot, Isabelle; Vannière, Boris; Alimov, Jakhongir; Luneau, Elise; Lhuillier, Johanna; Joannin, Sébastien (2025): Pollen and non-pollen palynomorphs counts from Lake Fazilman, Uzbekistan [dataset]. PANGAEA, https://doi.pangaea.de/10.1594/PANGAEA.987392 (DOI registration in progress), In: Dugerdil, L et al. (2025): Holocene multi-proxy analyses from Lake Fazilman, Uzbekistan: pollen, NPPs, GDGTs, XRF, magnetic susceptibility, climate and vegetation quantitative reconstructions [dataset bundled publication]. PANGAEA, https://doi.pangaea.de/10.1594/PANGAEA.987394 (DOI registration in progress)

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Published: 2025-12-09

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Abstract:
This data table contains the raw pollen and non-pollen palynomorphs counts of a 227 cm-long core core from Lake Fazilman (Fazilman kul, 40.550406 N, 66.589361 E; 1637 m a.s.l.), collected in July 2021 with a 50 cm Russian corer. Pollen was extracted from the sediment samples using standard procedure: (1) carbonate removal with 10% HCl, (2) silicate removal with 10% HF, (3) heavy liquid separation using ZnCl2 and HCl (density 1.1-1.3), (4) filtration after NaOH, and (5) acetolysis to eliminate cellulose and residual organic matter. Samples were stored in glycerin and counted using a BRESSER Science Infinity microscope at 40x and 100x magnification. Full details follow Dugerdil et al., (2025). Absolute concentrations can be calculated using the exotic Lycopodium spores added to each sample (batch 140119321). This information is given is the 4th column of the data table. The sample depth is given in centimeters and the age in year calibrated BP (age-depth model performed with BACON and the IntCal20 calibration curve based on 15 radiocarbon dating; Blaauw et al., 2011; Reimer et al., 2020).
Keyword(s):
Arid Central Asia; biomization scheme; climate reconstruction; GDGTs; Holocene; human impact; Magnetic susceptibility; plant functional traits; Pollen; Uzbekistan; XRF
Related to:
Blaauw, Maarten; Christen, Andrés (2011): Flexible paleoclimate age-depth models using an autoregressive gamma process. Bayesian Analysis, 6(3), 457-474, https://doi.org/10.1214/11-BA618
De Jonge, Cindy; Hopmans, Ellen C; Zell, Claudia; Kim, Jung-Hyun; Schouten, Stefan; Sinninghe Damsté, Jaap S (2014): Occurrence and abundance of 6-methyl branched glycerol dialkyl glycerol tetraethers in soils: Implications for palaeoclimate reconstruction. Geochimica et Cosmochimica Acta, 141, 97-112, https://doi.org/10.1016/j.gca.2014.06.013
Ding, Su; Schwab, Valérie F; Ueberschaar, Nico; Roth, Vanessa-Nina; Lange, Markus; Xu, Yunping; Gleixner, Gerd; Pohnert, Georg (2016): Identification of novel 7-methyl and cyclopentanyl branched glycerol dialkyl glycerol tetraethers in lake sediments. Organic Geochemistry, 102, 52-58, https://doi.org/10.1016/j.orggeochem.2016.09.009
Dugerdil, Lucas; Peyron, Odile; Ménot, Guillemette; Egamberdieva, Dilfuza; Alimov, Jakhongir; Leroy, Suzanne A G; Garnier, Eric; Nowak, Arkadiusz; Joannin, Sébastien (2025): First paleoenvironmental calibrations for modern pollen rain of Tajikistan and Uzbekistan: A case study of pollen - vegetation functional biogeography of Arid Central Asia. Global and Planetary Change, 252, 104857, https://doi.org/10.1016/j.gloplacha.2025.104857
Dugerdil, Lucas; Peyron, Odile; Violle, Cyrille; Joannin, Sébastien; Ménot, Guillemette; Denelle, Pierre; Bruelheide, Helge; Chytrý, Milan; Field, Richard; Hatim, Mohamed Z; Gholizadeh, Hamid; Dolezal, Jiri; Pillar, Valério D; Shaltout, Kamal H; Schrodt, Franziska; Garnier, Eric (2025): Functional Signatures of Surface Pollen and Vegetation Are Broadly Similar: Good News for Past Reconstructions of Vegetation. Journal of Biogeography, 52(5), e15100, https://doi.org/10.1111/jbi.15100
Guiot, Joel (1990): Methodology of the last climatic cycle reconstruction in France from pollen data. Palaeogeography, Palaeoclimatology, Palaeoecology, 80(1), 49-69, https://doi.org/10.1016/0031-0182(90)90033-4
Huguet, Carme; Hopmans, Ellen C; Febo-Ayala, Wilma; Thompson, David H; Sinninghe Damsté, Jaap S; Schouten, Stefan (2006): An improved method to determine the absolute abundance of glycerol dibiphytanyl glycerol tetraether lipids. Organic Geochemistry, 37(9), 1036-1041, https://doi.org/10.1016/j.orggeochem.2006.05.008
Liu, Xiao-Lei; Summons, Roger E; Hinrichs, Kai-Uwe (2012): Extending the known range of glycerol ether lipids in the environment: structural assignments based on tandem mass spectral fragmentation patterns. Rapid Communications in Mass Spectrometry, 26(19), 2295-2302, https://doi.org/10.1002/rcm.6355
Peyron, Odile; Guiot, Joël; Cheddadi, Rachid; Tarasov, Pavel E; Reille, Maurice; de Beaulieu, Jacques-Louis; Bottema, Sytze; Andrieu, Valérie (1998): Climatic Reconstruction in Europe for 18,000 YR B.P. from Pollen Data. Quaternary Research, 49(2), 183-196, https://doi.org/10.1006/qres.1997.1961
Prentice, Iain Colin; Guiot, Joel; Huntley, Brian; Jolly, Dominique; Cheddadi, Rachid (1996): Reconstructing biomes from palaeoecological data: a general method and its application to European pollen data at 0 and 6 ka. Climate Dynamics, 12(3), 185-194, https://doi.org/10.1007/BF00211617
Reimer, Paula J; Austin, William EN; Bard, Edouard; Bayliss, Alex; Blackwell, Paul G; Ramsey, Christopher Bronk; Butzin, Martin; Cheng, Hai; Edwards, R Lawrence; Friedrich, Michael; Grootes, Pieter Meiert; Guilderson, Thomas P; Hajdas, Irka; Heaton, Timothy J; Hogg, Alan G; Hughen, Konrad A; Kromer, Bernd; Manning, Sturt W; Muscheler, Raimund; Palmer, Jonathan G; Pearson, Charlotte; van der Plicht, Johannes; Reimer, Ron W; Richards, David A; Scott, E Marian; Southon, John R; Turney, Chris S M; Wacker, Lukas; Adolphi, Florian; Büntgen, Ulf; Capano, Manuela; Fahrni, Simon M; Fogtmann-Schulz, Alexandra; Friedrich, Ronny; Köhler, Peter; Kudsk, Sabrina; Miyake, Fusa; Olsen, Jesper; Reinig, Frederick; Sakamoto, Minoru; Sookdeo, Adam; Talamo, Sahra (2020): The IntCal20 Northern Hemisphere Radiocarbon Age Calibration Curve (0–55 cal kBP). Radiocarbon, 62(4), 725-757, https://doi.org/10.1017/RDC.2020.41
Salonen, J Sakari; Seppä, Heikki; Luoto, Miska; Bjune, Anne Elisabeth; Birks, H John B (2012): A North European pollen–climate calibration set: analysing the climatic responses of a biological proxy using novel regression tree methods. Quaternary Science Reviews, 45, 95-110, https://doi.org/10.1016/j.quascirev.2012.05.003
Tarasov, Pavel E; Cheddadi, Rachid; Guiot, Joel; Bottema, Sytze; Peyron, Odile; Belmonte, Jordina; Ruiz-Sanchez, Vittoria; Saadi, Fatima; Brewer, Simon (1998): A method to determine warm and cool steppe biomes from pollen data; application to the Mediterranean and Kazakhstan regions. Journal of Quaternary Science, 13(4), 335-344, https://doi.org/10.1002/(SICI)1099-1417(199807/08)13:4%3C335::AID-JQS375%3E3.0.CO;2-A
ter Braak, Cajo J F; Juggins, Steve; Birks, H John B; van der Voet, Hilko (1993): Weighted averaging partial least squares regression (WA-PLS): Definition and comparison with other methods for species-environment calibration. Multivariate Environmental Statistics, G. P. Patil, and C. R. Rao (eds). Amsterdam: Elsevier Science Publishers B.V. (North-Holland), 525-560
Funding:
Agence Nationale de la Recherche (ANR), grant/award no. ANR-22-CE27-0018-02: STEPABILITY
Coverage:
Latitude: 40.550406 * Longitude: 66.589361
Date/Time Start: 2021-07-01T00:00:00 * Date/Time End: 2021-07-01T00:00:00
Minimum DEPTH, sediment/rock: 0.05 m * Maximum DEPTH, sediment/rock: 2.27 m
Event(s):
Faz-21 * Latitude: 40.550406 * Longitude: 66.589361 * Date/Time: 2021-07-01T00:00:00 * Elevation: 1637.0 m * Recovery: 227 cm * Method/Device: Russian corer (RUSC) * Comment: 50 cm russian corer
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1Sample code/labelSample labelDugerdil, Lucas
2DEPTH, sediment/rockDepth sedmDugerdil, LucasGeocode
3Calendar ageCal ageka BPDugerdil, LucasAge, 14C calibrated, Bacon and IntCal20according to Blaauw et al., 2011; Reimer et al., 2020
4LycopodiumLyc#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
5CyperaceaeCypae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
6PoaceaePoac#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
7ArtemisiaArt#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
8ChenopodiaceaeCheae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
9Pinus diploxylonPin.d#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
10Pinus indeterminataPin.indet#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
11JuniperusJun#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
12Ephedra distachyaEph.d#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
13Ephedra fragilisEph.f#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
14Calligonum-typeCag-T#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
15TribulusTus#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
16Carpinus orientalisCar.o#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
17Carpinus betulusCar.b#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
18BetulaBet#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
19UlmusUlm#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
20AlnusAln#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
21JuglansJug#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
22FraxinusFrx#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
23PopulusPop#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
24MorusMor#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
25SalixSal#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
26HederaHed#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
27RosaceaeRosae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
28ThymelaeaceaeThyae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
29AsteroideaeAsteroideae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
30CichorioideaeCicoid#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
31CardueaeCarae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
32CerealiaCrl#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
33ApiaceaeApiae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
34CaryophyllaceaeCphae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
35BrassicaceaeBraae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
36LamiaceaeLamae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
37ScrophulariaceaeScoae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
38FabaceaeFabae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
39LiliaceaeLilae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
40RhamnaceaeRhaae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
41ConvolvulusCon#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
42GeraniumGer#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
43CentaureaCen#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
44EchinopsEop#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
45CousiniaCos#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
46Plantago lanceolataPla.l#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
47RumexRum#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
48RanunculaceaeRanae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
49ThalictrumTha#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
50ValerianaVal#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
51Potentilla-typePti-T#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
52UrticaUrt#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
53Sanguisorba-typeSan-T#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
54Polygonum-typePog-T#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
55Limonium-typeLim-T#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
56Peganum harmalaP. harmala#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
57ZygophyllumZyg#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
58GageaGagea#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
59Mentha-typeMen-T#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
60EremurusEre#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
61GlomusGlomus#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
62SporormiellaSro#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
63Pollen indeterminataPollen indet#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
64Spores indeterminataSpo.indet#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
65cf. Juniperus-typecf.Jun-T#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
66AlternariaAtn#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
67ArniumArnium#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
68ArthriniumArthrinium#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
69CercophoraCerc#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
70DelitschiaDelitschia#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
71ConiochaetaceaeConiochaetaceae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
72PodosporaPodospora#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
73SordariaSor#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
74ValsariaValsaria#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
75ThecaphoraTec#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
76TilletiaTit#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
77PhaeosphaeriaPhaeosphaeria#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
78Pleospora-typePlo-T#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
79Monolete spore(s)Mon.s#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
80Triletes spp.Triletes spp.#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
81MicrothyriumMic#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
82UrocystisUrocystis#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
83LycoperdalesLycoperdales#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
84NigrosporaNigrospora#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
85Coniochaeta cf. ligniariaCon.cf.l#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
86Meliola spp.Meliola spp.#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
87BrachysporiumBrachy#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
88SavoryellaSavoryella#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
89OocytesOocytes#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
90PersiciosporaPersiciospora#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
91ChaetomiumCht#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
92Nematoda, eggsNematoda egg#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
93XylariaceaeXylariaceae#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
94Inonotus-typeInonotus-T#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
95BullinulariaBullinularia#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
96Palynomorpha, non-pollenNPP#Dugerdil, LucasLight microscope, BRESSER, Science InfinityHdV-200
97CurvulariaCurvularia#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
98RotiferaRotifera#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
99Xylomyces chlamydosporusX. chlamydosporus#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
100Entophlyctis lobataEnt.l#Dugerdil, LucasLight microscope, BRESSER, Science Infinity
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0) (License comes into effect after moratorium ends)
Status:
Curation Level: Enhanced curation (CurationLevelC)
Size:
5148 data points

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