Results of n-alkane biomarker analyses and paleoclimate reconstruction


Autoria(s): Tarasov, Pavel E; Müller, Stefanie; Zech, Michael; Andreeva, Darima; Diekmann, Bernhard; Leipe, Christian
Cobertura

MEDIAN LATITUDE: 60.955200 * MEDIAN LONGITUDE: 101.987798 * SOUTH-BOUND LATITUDE: 51.000000 * WEST-BOUND LONGITUDE: 13.200000 * NORTH-BOUND LATITUDE: 65.272000 * EAST-BOUND LONGITUDE: 129.000000

Data(s)

06/03/2012

Resumo

The current study presents quantitative reconstructions of tree cover, annual precipitation and mean July temperature derived from the pollen record from Lake Billyakh (65°17'N, 126°47'E, 340 m above sea level) spanning the last ca. 50 kyr. The reconstruction of tree cover suggests presence of woody plants through the entire analyzed time interval, although trees played only a minor role in the vegetation around Lake Billyakh prior to 14 kyr BP (<5%). This result corroborates low percentages of tree pollen and low scores of the cold deciduous forest biome in the PG1755 record from Lake Billyakh. The reconstructed values of the mean temperature of the warmest month ~8-10 °C do not support larch forest or woodland around Lake Billyakh during the coldest phase of the last glacial between ~32 and ~15 kyr BP. However, modern cases from northern Siberia, ca. 750 km north of Lake Billyakh, demonstrate that individual larch plants can grow within shrub and grass tundra landscape in very low mean July temperatures of about 8 °C. This makes plausible our hypothesis that the western and southern foreland of the Verkhoyansk Mountains could provide enough moist and warm microhabitats and allow individual larch specimens to survive climatic extremes of the last glacial. Reconstructed mean values of precipitation are about 270 mm/yr during the last glacial interval. This value is almost 100 mm higher than modern averages reported for the extreme-continental north-eastern Siberia east of Lake Billyakh, where larch-dominated cold deciduous forest grows at present. This suggests that last glacial environments around Lake Billyakh were never too dry for larch to grow and that the summer warmth was the main factor, which limited tree growth during the last glacial interval. The n-alkane analysis of the Siberian plants presented in this study demonstrates rather complex alkane distribution patterns, which challenge the interpretation of the fossil records. In particular, extremely low n-alkane concentrations in the leaves of local coniferous trees and shrubs suggest that their contribution to the litter and therefore to the fossil lake sediments might be not high enough for tracing the Quaternary history of the needleleaved taxa using the n-alkane biomarker method.

Formato

application/zip, 5 datasets

Identificador

https://doi.pangaea.de/10.1594/PANGAEA.777016

doi:10.1594/PANGAEA.777016

Idioma(s)

en

Publicador

PANGAEA

Relação

Tarasov, Pavel E; Müller, Stefanie; Zech, Michael; Andreeva, Darima; Diekmann, Bernhard; Leipe, Christian (2012): Last glacial vegetation reconstructions in the extreme-continental eastern Asia: Potentials of pollen and n-alkane biomarker analyses. (PDI-1546), Quaternary International, submitted

Direitos

CC-BY: Creative Commons Attribution 3.0 Unported

Access constraints: unrestricted

Palavras-Chave #A. subfam. A. matricaria; A. subfam. A. saussurea; A. subfam. A. senecio; A. subfam. Asteroideae indet; A. subfam. Cichorioideae; Age; AGE; Apiaceae; Apiae; Arcella; Arl; Arm; Armeria; Art; Artemisia; Asco spore; Ass.m; Assulina muscorum; Asteraceae subfam. Asteroideae indeterminata; Asteraceae subfam. Asteroideae matricaria; Asteraceae subfam. Asteroideae saussurea; Asteraceae subfam. Asteroideae senecio; Asteraceae subfam. Cichorioideae; Berlin, Germany; Bet.Se.A; Bet.Se.N; Betula, redeposited; Betula redep; Betula sect. Albae; Betula sect. Nanae; Bot; Botanical_Garden_Berlin; Botrychium; Botryococcus; Braae; Brassicaceae; C. cerastium; C. gypsophila; C. minuartia; C. stellaria holostea; C15; C16; C17; C18; C19; C20; C21; C22; C23; C24; C25; C25-C33; C26; C27; C28; C29; C30; C31; C32; C33; Caryophyllaceae cerastium; Caryophyllaceae gypsophila; Caryophyllaceae indeterminata; Caryophyllaceae minuartia; Caryophyllaceae stellaria holostea; cf. Endofragmiella sp.; Cheae; Chenopodiaceae; Chironom; Chironomidae; Conifer-Tracheids; Copepoda spermatophore; Cop spermatophore; Cphae.indet; Cus; Cuscuta; Cuticles, stomata; Cypae; Cyperaceae; Cys.f; Cystopteris fragilis; Delitschia; Depth; DEPTH, sediment/rock; Dro; Drosera; Drp.f-m; Dryopteris filix-mas; Dus.f; Duschekia fruticosa; E. empetrum; E. vaccinium; Enc; Encalypta; Eph; Ephedra; Epilobium; Epl; Equ; Equisetum; Ericales; Ericales empetrum; Ericales vaccinium; Erl; Fabaceae; Fabae; Gal; Galium; Gelasinospora sp.; Genae; Gentianaceae; Gerae; Geraniaceae; Geumannomyces; Glomus; Hup.s; Huperzia selago; including Fruticosae; Iso; Isoetes; Jun; Juniperus; L. galeopsis; Label; Lake Billyakh, Verkhoyansk Mountains, Yakuti, Russia; Lamae; Lamiaceae; Lamiaceae galeopsis; Lar; Larix; Lilae; Liliaceae; Lin; Linum; Lyc.a; Lyc.c; Lycopodium annotinum; Lycopodium clavatum; Lycopodium spores (exotic); M. coronifer-islandicus; M. hufelandii; Macrobiotus coronifer-islandicus; Macrobiotus hufelandii; Marker, found; Mark found; Microthyrium sp.; MULT; Multiple investigations; Myo; Myriophyllum; n-Alkane; n-Alkane C15; n-Alkane C16; n-Alkane C17; n-Alkane C18; n-Alkane C19; n-Alkane C20; n-Alkane C21; n-Alkane C22; n-Alkane C23; n-Alkane C24; n-Alkane C25; n-Alkane C26; n-Alkane C27; n-Alkane C28; n-Alkane C29; n-Alkane C30; n-Alkane C31; n-Alkane C32; n-Alkane C33; non-pollen; Odd-even predominance index; OEP; Osmea; Osmundaceae; P. polygonum bistorta; P. polygonum viviparum; P. rumex; Palynomorpha, non-pollen; Papae; Papaveraceae; PCUWI; Pdi; Pediastrum; PG1755; Pic; Picea; Pinaceae; Pinae; Pinus, redeposited; Pinus redep; Pinus s/g Diplo; Pinus s/g Haplo; Pinus subgen. Diploxylon; Pinus subgen. Haploxylon; Piston corer (Uwitec); Pla; Plantago; Poac; Poaceae; Pocae; Podospora; Poe; Polae; Polemonium; Pollen indet; Pollen indeterminata; Pollen tot; Pollen total; Polygonaceae; Polygonaceae polygonum bistorta; Polygonaceae polygonum viviparum; Polygonaceae rumex; Polypodiaceae; Pot; Potamogeton; Precipitation, yearly total; Precipitation, yearly total, maximum; Precipitation, yearly total, minimum; Precip year total; Precip year tot max; Precip year tot min; Priae; Primulaceae; Ptd; Pteridium; R. potentilla; R. pulsatilla; R. sanguisorba officinalis; R. thalictrum; Ranae; Ranunculaceae; Ranunculaceae pulsatilla; Ranunculaceae thalictrum; Reconstructed; Rib; Ribes; Ric; Riccia; Rosaceae; Rosaceae Dryas; Rosaceae potentilla; Rosaceae sanguisorba officinalis; Rosae; Rutaceae; Rutae; S. pedicularis; Sal; Salix; Sample code/label; Sampling/drilling in lake; Saxae; Saxifragaceae; scalariform perforation plate; Scoae; Scrophulariaceae; Scrophulariaceae pedicularis; Sel.r; Selaginella rupestris; Sordariales; Species; Sph; Sphagnum; Spirogyra sp.; Spores, reworked; Spores, trilete; Spores rew; Sporomiella; s-spore; stomata; Sum n-alkanes C25-C33; T. asperum; Temperature, warmest month; Temperature, warmest month, maximum; Temperature, warmest month, minimum; Thekaphora; Tree cover; Tree coverage; Tree coverage, maximum; Tree coverage, minimum; Tree cover max; Tree cover min; Trichocladium asperum; trilete spores; Type 119; Type 187B; Type 225; Type 307B; Type 354; Type 74; Type 8C; U2; U2a; Val; Valeriana; Valerianella; Vlr; with operculum; without operculum; WMT; WMT max; WMT min; Wod-T; Woodsia-type; Yakutia2005; Yakutia-Baikal-Region; Yakutsk, Russia; Zoological remains; Zool rem; Zygnemataceae
Tipo

Dataset