Biblioteca Digital

Profiles of diatoms, pollen, XRD, XRF and organic composition of two sediment cores (PG2022 and PG2023) from Lake Kyutyunda in Yakutia, NE Siberia, Russia

**Autoria(s):** Biskaborn, Boris Kolumban; Subetto, Dmitry A; Savelieva, Larissa A; Vakhrameeva, Polina S; Hansche, Andreas; Herzschuh, Ulrike; Klemm, Juliane; Heinecke, Liv; Pestryakova, Ludmila A; Meyer, Hanno; Kuhn, Gerhard; Diekmann, Bernhard
Cobertura	MEDIAN LATITUDE: 69.628407 * MEDIAN LONGITUDE: 123.649367 * SOUTH-BOUND LATITUDE: 69.628370 * WEST-BOUND LONGITUDE: 123.648130 * NORTH-BOUND LATITUDE: 69.628520 * EAST-BOUND LONGITUDE: 123.649780 * DATE/TIME START: 2010-08-18T00:00:00 * DATE/TIME END: 2010-08-20T00:00:00
Data(s)	27/08/2015
Resumo	Although the climate development over the Holocene in the Northern Hemisphere is well known, palaeolimnological climate reconstructions reveal spatiotemporal variability in northern Eurasia. Here we present a multi-proxy study from north-eastern Siberia combining sediment geochemistry, and diatom and pollen data from lake-sediment cores covering the last 38,000 cal. years. Our results show major changes in pyrite content and fragilarioid diatom species distributions, indicating prolonged seasonal lake-ice cover between ~13,500 and ~8,900 cal. years BP and possibly during the 8,200 cal. years BP cold event. A pollen-based climate reconstruction generated a mean July temperature of 17.8°C during the Holocene Thermal Maximum (HTM) between ~8,900 and ~4,500 cal. years BP. Naviculoid diatoms appear in the late Holocene indicating a shortening of the seasonal ice cover that continues today. Our results reveal a strong correlation between the applied terrestrial and aquatic indicators and natural seasonal climate dynamics in the Holocene. Planktonic diatoms show a strong response to changes in the lake ecosystem due to recent climate warming in the Anthropocene. We assess other palaeolimnological studies to infer the spatiotemporal pattern of the HTM and affirm that the timing of its onset, a difference of up to 3,000 years from north to south, can be well explained by climatic teleconnections. The westerlies brought cold air to this part of Siberia until the Laurentide ice-sheet vanished 7,000 years ago. The apparent delayed ending of the HTM in the central Siberian record can be ascribed to the exceedance of ecological thresholds trailing behind increases in winter temperatures and decreases in contrast in insolation between seasons during the mid to late Holocene as well as lacking differentiation between summer and winter trends in paleolimnological reconstructions.
Formato	application/zip, 12 datasets
Identificador	https://doi.pangaea.de/10.1594/PANGAEA.848906 doi:10.1594/PANGAEA.848906
Idioma(s)	en
Publicador	PANGAEA
Direitos	CC-BY: Creative Commons Attribution 3.0 Unported Access constraints: unrestricted
Fonte	Supplement to: Biskaborn, Boris Kolumban; Subetto, Dmitry A; Savelieva, Larissa A; Vakhrameeva, Polina S; Hansche, Andreas; Herzschuh, Ulrike; Klemm, Juliane; Heinecke, Liv; Pestryakova, Ludmila A; Meyer, Hanno; Kuhn, Gerhard; Diekmann, Bernhard (2015): Late Quaternary vegetation and lake system dynamics in north-eastern Siberia: implications for seasonal climate variability. Quaternary Science Reviews, in press, doi:10.1016/j.quascirev.2015.08.014
Palavras-Chave	#(Kln+Chl)/tot int; [SO4]2-; +2 sigma; -2 sigma; A; A. affine; A. alpigena; A. eutrophilum; A. exima; A. inariensis; A. indistincta; A. lange-bertalotti; A. linearioides; A. minutissimum; A. oblongella; A. ovalis; A. pediculus; A. petersenii; A. pusilla; A. rosenstockii; A. saprophilum; A. semiperta; A. straubianum; A. thermalis; Achnanthes oblongella; Achnanthes petersenii; Achnanthes pusilla; Achnanthes rosenstockii; Achnanthes semiperta; Achnanthes sp.; Achnanthes thermalis; Achnanthidium affine; Achnanthidium eutrophilum; Achnanthidium linearioides; Achnanthidium minutissimum; Achnanthidium rosenstockii; Achnanthidium saprophilum; Achnanthidium sp.; Achnanthidium straubianum; Age; AGE; Age, 14C AMS; Age, 14C calibrated, OxCal 4.1.3 (Ramsey, 2009; Radiocarbon, 51); Age, dated; Age, dated material; Age, dated standard deviation; Age, maximum/old; Age, minimum/young; Age dated; Age max; Age min; Age std dev; Alnaster; Alt; Amphora exima; Amphora inariensis; Amphora indistincta; Amphora lange-bertalotti; Amphora ovalis; Amphora pediculus; Amphora sp.; Apiaceae; Apiae; Art; Artemisia; Astae; Asteraceae; atomic ratio; at Temperature 25°C; Aulacoseira alpigena; Aulacoseira sp.; AWI_PerDyn; B; Bet.Se.A; Bet.Se.N; Betula sect. Albae; Betula sect. Nanae; Bi count; Bismuth, area, total counts; Bot; Botrychium; BP; Braae; Brassicaceae; Br count; Bromine, area, total counts; C. amphicephala; C. behrei; C. caespitosa; C. cocconeiformis; C. cuspidata; C. diluviana; C. diminuta; C. falcifera; C. frequenz; C. jaernefeltii; C. lapidosa; C. naviculiformis; C. pediculus; C. placentula; C. pseudosculiformis; C. rhomboidea; C. variostriata; Ca2+; Calcium; Calculated; Calculated after Meyers and Teranes (2002); Caloneis falcifera; Carbon, inorganic, total; Carbon, organic, total; Carbon, organic total/Nitrogen, total; Carbon, total; Caryophyllaceae; Cavinula cocconeiformis; Cavinula jaernefeltii; Cavinula lapidosa; Cavinula pseudosculiformis; Cavinula sp.; Cavinula variostriata; Cchae; cf. Alnus; cf.Pyr; cf. Pyrolaceae; cf.Sax; cf. Saxifragaceae; Cheae; Chenopodiaceae; Chrysophyte cysts; Cichoriaceae; Cocconeis pediculus; Cocconeis placentula; Cocconeis sp.; Coloneis sp.; Composite depth; Cond; Conductivity; Copper, area, total counts; Core depth; Core ID, core depth [cm]; Counting, diatoms; Counting, palynology; Cphae; Cu count; Cyclotella sp.; Cymbella behrei; Cymbella caespitosa; Cymbella diluviana; Cymbella sp.; Cymbopleura amphicephala; Cymbopleura cuspidata; Cymbopleura diminuta; Cymbopleura frequenz; Cymbopleura naviculiformis; Cymbopleura rhomboidea; Cymbopleura sp.; Cypae; Cyperaceae; D. elliptica; D. moniliforms var. ovalis; D. parma; d13C Corg; Dated material; delta 13C, organic carbon; Depth; Depth, bottom/max; DEPTH, sediment/rock; Depth, top/min; Depth bot; Depth top; Diatoma moniliforms var. ovalis; Diatom cen; Diatom pen; Diatom preservation index; Diatoms; Diatoms, centrales; Diatoms, pennales; Diatoms/Chrysophyte cysts; Diatoms/Chrysophyte cysts ratio; Diploneis elliptica; Diploneis parma; Diploneis sp.; Diversity; E. adnata; E. ambivalens; E. bilunaris; E. boreoalpina; E. faba; E. flexuosa; E. frickei; E. herbridicum; E. incisa; E. lange-bertalotti; E. meisteri; E. minor; E. minutum; E. richardtii; E. silesiacum; E. soleirolli; E. subarcuatoides; E. vulgare; Element analyser CNS, Elementar Vario EL III; Encynoma herbridicum; Encynoma lange-bertalotti; Encynoma minutum; Encynoma richardtii; Encynoma silesiacum; Encynoma sp.; Encynoma vulgare; Epithemia adnata; Epithemia frickei; Epithemia sp.; Equ; Equisetum; Eriae; Ericaceae; Error: ±0.15 %; Eunotia ambivalens; Eunotia bilunaris; Eunotia boreoalpina; Eunotia faba; Eunotia flexuosa; Eunotia incisa; Eunotia meisteri; Eunotia minor; Eunotia soleirolli; Eunotia sp.; Eunotia subarcuatoides; Event; F. cappucina; F. exiguiformis; F. famelica; F. mesolepta; F. oldenburgiana; F. parasitica; F. recapitellata; F. vucheriae; Fabaceae; Fabae; Fe; F-Index; Fragilaria cappucina; Fragilaria exiguiformis; Fragilaria famelica; Fragilaria mesolepta; Fragilaria oldenburgiana; Fragilaria parasitica; Fragilaria recapitellata; Fragilaria sp.; Fragilaria vucheriae; G. acuaminatum; G. acuminatum; G. attenuatum; G. augustivala; G. calcareum; G. calcifugum; G. clavatulum; G. decussis; G. exlissimum; G. hebridense; G. innocens; G. italicum; G. kuetzingii; G. micropus; G. minisculum; G. miniutum; G. pala; G. parvulum; G. pseudoaugur; Ga count; Gallium, area, total counts; Geisseleria decussis; Gomphonema acuminatum; Gomphonema augustivala; Gomphonema calcareum; Gomphonema calcifugum; Gomphonema clavatulum; Gomphonema exlissimum; Gomphonema hebridense; Gomphonema innocens; Gomphonema italicum; Gomphonema micropus; Gomphonema minisculum; Gomphonema miniutum; Gomphonema pala; Gomphonema parvulum; Gomphonema pseudoaugur; Gomphonema sp.; Gyrosigma acuaminatum; Gyrosigma attenuatum; Gyrosigma kuetzingii; Gyrosigma sp.; H. hungarica; H(S); Hbl/tot int; Hill's N2 - Diversity Index; Hippodonta hungarica; Hornblende/total intensity ratio; ICP-OES, Perkin-Elmer, Optima 8300DV; Intensity; Ion chromatography DX-320 (Dionex Corp.); Iron; K/K+L; K. laterostrata; K. suchlandtii; K+; Kalifeldspar/total intensity ratio; Kaolinite+Chlorite/total intensity ratio; Karayevia laterostrata; Karayevia suchlandtii; Kfs/tot int; L. hungarica; L. pungens; Label; Lab label; Laboratory code/label; Lar; Larix; Lead, area, total counts; Lemnicola hungarica; LOI; Loss of ignition analysis using a SNOL 7.2/1100 muffle furnace; Loss on ignition; Lyc.c; Lycopodium clavatum; Lycopodium pungens; Lycopodium sp.; M. atomus; M. fossalis var. obsidialis; M. nummuloides; M. varians; Magnesium; Mass spectrometer Finnigan Delta-S; Mayamaea atomus; Mayamaea fossalis var. obsidialis; Median; Melosira nummuloides; Melosira varians; Mg2+; Mica/total intensity ratio; Mica/tot int; Microspheres; Mo count; modelled; Molybdenum, area, total counts; N. absoluta; N. affine; N. ampliatum; N. angusta; N. angustrata; N. bisulcatum; N. bulnheimiana; N. cryptocephala; N. denticula; N. fossilis; N. hilliardii; N. jentzschii; N. lanceolata; N. leptostriata; N. levanderi; N. radicula; N. radiosa; N. reinhardtii; N. rotunda; N. salinarum; N. schassmannii; N. solita; N. subalpina; N. supralitora; N. trivalis; N. trophicatrix; N. vaneei; N. wildii; Na+; Navicula angusta; Navicula cryptocephala; Naviculadicta absoluta; Naviculadicta sp.; Navicula hilliardii; Navicula jentzschii; Navicula lanceolata; Navicula leptostriata; Navicula levanderi; Navicula radiosa; Navicula reinhardtii; Navicula rotunda; Navicula salinarum; Navicula schassmannii; Navicula sp.; Navicula subalpina; Navicula trivalis; Navicula trophicatrix; Navicula vaneei; Navicula wildii; Nb count; Neidium affine; Neidium ampliatum; Neidium bisulcatum; Neidium sp.; Niobium, area, total counts; Nitrogen, total; Nitzschia angustrata; Nitzschia bulnheimiana; Nitzschia denticula; Nitzschia fossilis; Nitzschia radicula; Nitzschia solita; Nitzschia sp.; Nitzschia supralitora; P. anglica; P. brebissonii; P. calcar; P. clementis; P. conspicua; P. daui; P. delicatulum; P. frequentissimum; P. gastrum; P. granum; P. grunowii; P. haukanium; P. holsatica; P. hustedtii; P. jouracense; P. lanceolatum; P. lundi; P. minutissimum; P. nobilis; P. nodosa; P. oestrupii; P. pediculus; P. peragalli; P. protactoides; P. rhombarea; P. subatomoides; P. subgibba; P. subrupestris; P. subviridis; P. symmetrica; P. ventrale; P. viridiformis; Paribellus protactoides; Pb count; Pdi; Pediastrum; Periglacial Dynamics @ AWI; pH; Pic; Picea; Pin; Pinnularia brebissonii; Pinnularia grunowii; Pinnularia lundi; Pinnularia nobilis; Pinnularia nodosa; Pinnularia rhombarea; Pinnularia sp.; Pinnularia subgibba; Pinnularia subrupestris; Pinnularia subviridis; Pinnularia viridiformis; Pinus; Pl/tot int; Placoneis anglica; Placoneis clementis; Placoneis gastrum; Placoneis pediculus; Placoneis sp.; Placoneis symmetrica; Plagioclase/total intensity ratio; Planothidium calcar; Planothidium daui; Planothidium delicatulum; Planothidium frequentissimum; Planothidium granum; Planothidium haukanium; Planothidium jouracense; Planothidium lanceolatum; Planothidium minutissimum; Planothidium oestrupii; Planothidium peragalli; Planothidium sp.; Platessa conspicua; Platessa holsatica; Platessa hustedtii; Platessa sp.; Poac; Poaceae; Pocae; Polae; Pollen, redeposited; Pollen indet; Pollen indeterminata; Pollen redep; Polygonaceae; Polypodiaceae; Potassium; Potentilla; Psammothidium sp.; Psammothidium subatomoides; Psammothidium ventrale; Pti; Py/tot int; Pyrite/total intensity ratio; Quartz/total intensity ratio; Qz/tot int; R. parallela; R. sinuata; Ranae; Ranunculaceae; Rb count; Reimeria sinuata; Rhopalodia parallela; Rosaceae; Rosae; Rub.c; Rubidium, area, total counts; Rubus chamaemorus; S. anceps; S. bacillum; S. binodis; S. brevistriata; S. construens; S. crumena; S. dubia; S. exiguiformis; S. gracilis; S. laevissima; S. lapponica; S. martyii; S. minima; S. mutabilis; S. mutatuides; S. oldenburgiana; S. parapupula; S. pinnata; S. pseudoconstuens; S. pseudopupula; S. pupula; S. robusta; S. seminulum; S. stroemii; S. subsalina; S. venter; Sal; Salix; Sample code/label; Sedimentation rate per year; Sedim rate; Sel.b; Selaginella sibirica; Sellaphora bacillum; Sellaphora laevissima; Sellaphora minima; Sellaphora mutatuides; Sellaphora parapupula; Sellaphora pseudopupula; Sellaphora pupula; Sellaphora seminulum; Sellaphora sp.; Sellaphora stroemii; SibLake; Silica, dissolved; SiO2; Sodium; Spa; Sparganium; Sph; Sphagnum; Sr/Rb; Sr2+; Sr count; St. gracilior; St. medius; St. phoenicenteron; St. smithii; Stauroforma exiguiformis; Stauroneis anceps; Stauroneis exiguiformis; Stauroneis gracilior; Stauroneis gracilis; Stauroneis phoenicenteron; Stauroneis smithii; Stauroneis sp.; Staurosira binodis; Staurosira brevistriata; Staurosira construens; Staurosira dubia; Staurosira lapponica; Staurosira martyii; Staurosira mutabilis; Staurosira oldenburgiana; Staurosira pinnata; Staurosira pseudoconstuens; Staurosira robusta; Staurosira sp.; Staurosira subsalina; Staurosira venter; Stephanodiscus medius; Stephanodiscus sp.; Strontium; Strontium, area, total counts; Strontium/Rubidium ratio; Sulfate; Suriella crumena; Surirella crumena; T. emarginatus; T. fenestrata; T. flocculosa; T. glans; T. ventricosa; Tabellaria fenestrata; Tabellaria flocculosa; Tabellaria sp.; Tabellaria ventricosa; TC; TC-TOC; Tetracyclus emarginatus; Tetracyclus glans; Tha; Thalictrum; TIC; TN; TOC; TOC/TN; total; using a Rh X-ray tube at 1.8 mA, 10 s count time, and 30 kV (without filter); Valves per g dry sediment; Water content of wet mass; Water wm; X-ray diffractometry (Philips PW1820); X-ray fluorescence core scanner (XRF), AWI; Y count; Yttrium, area, total counts; Zinc, area, total counts; Zirconium, area, total counts; Zirconium/Rubidium ratio; Zirconium/Strontium ratio; Zn count; Zr/Rb; Zr/Sr; Zr count
Tipo	Dataset

Acesso ao item digital