Past, present and future biome in Beringia: Comparison between simulations and pollen analysis (Western)

Past, present and future biomes in Beringia, a region including Alaska and Eastern Russia, were simulated using an equilibrium vegetation model, BIOME4 and a statistical downscaling method in order to illustrate their geographical and temporal changes. Outputs form five CMIP5 models were utilized to...

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Bibliographic Details
Format: Dataset
Language:unknown
Published: Arctic Data Center
Subjects:
Biome distribution
Late Quaternary
Future projection
Pollen analysis
Beringia (western half)
Last Glacial Maximum (21ka)
mid-Holocene (6ka)
pre-Industrial (1850)
Present-day
21st century
Bering Land Bridge
taiga
Tundra
Alaska
Beringia
Online Access:https://search.dataone.org/view/ab8b5098-2df8-47bb-9006-e28fcf4da866
id dataone:ab8b5098-2df8-47bb-9006-e28fcf4da866
record_format openpolar
spelling dataone:ab8b5098-2df8-47bb-9006-e28fcf4da866 2024-06-03T18:46:45+00:00 Past, present and future biome in Beringia: Comparison between simulations and pollen analysis (Western) ENVELOPE(-180.0,-120.0,80.0,50.0) 2020-12-17T18:33:18.648Z https://search.dataone.org/view/ab8b5098-2df8-47bb-9006-e28fcf4da866 unknown Arctic Data Center Biome distribution Late Quaternary Future projection Pollen analysis Beringia (western half) Last Glacial Maximum (21ka) mid-Holocene (6ka) pre-Industrial (1850) Present-day 21st century Dataset dataone:urn:node:ARCTIC 2024-06-03T18:16:55Z Past, present and future biomes in Beringia, a region including Alaska and Eastern Russia, were simulated using an equilibrium vegetation model, BIOME4 and a statistical downscaling method in order to illustrate their geographical and temporal changes. Outputs form five CMIP5 models were utilized to represent the climate for four time periods, i.e., the Last Glacial Maximum (LGM; 21ka), the mid-Holocene Optimum (6ka), modern days, and the future (ca. the end of this century under a RCP8.5 scenario). Present-day biome simulations were generally consistent with current vegetation observations in the study region. Pollen samples indicate that the Bering Land Bridge was covered almost entirely by moss, lichen, and tundra at the LGM, whereas the paleoclimate simulations show large across-model variations in this region. Three out of the five models' climate data produce evergreen and deciduous taiga at 21ka in what is now southwestern Alaska and southeastern Bering continental shelf. The 6ka simulations are in better agreement with pollen-based distributions of biomes. Future simulations show a general northward shift of biomes, including intrusions of cool mixed, deciduous, and coniferous forests above 60°N, especially in southwest Alaska. Dataset Bering Land Bridge taiga Tundra Alaska Beringia Arctic Data Center (via DataONE) ENVELOPE(-180.0,-120.0,80.0,50.0)
institution Open Polar
collection Arctic Data Center (via DataONE)
op_collection_id dataone:urn:node:ARCTIC
language unknown
topic Biome distribution
Late Quaternary
Future projection
Pollen analysis
Beringia (western half)
Last Glacial Maximum (21ka)
mid-Holocene (6ka)
pre-Industrial (1850)
Present-day
21st century
spellingShingle Biome distribution
Late Quaternary
Future projection
Pollen analysis
Beringia (western half)
Last Glacial Maximum (21ka)
mid-Holocene (6ka)
pre-Industrial (1850)
Present-day
21st century
Past, present and future biome in Beringia: Comparison between simulations and pollen analysis (Western)
topic_facet Biome distribution
Late Quaternary
Future projection
Pollen analysis
Beringia (western half)
Last Glacial Maximum (21ka)
mid-Holocene (6ka)
pre-Industrial (1850)
Present-day
21st century
description Past, present and future biomes in Beringia, a region including Alaska and Eastern Russia, were simulated using an equilibrium vegetation model, BIOME4 and a statistical downscaling method in order to illustrate their geographical and temporal changes. Outputs form five CMIP5 models were utilized to represent the climate for four time periods, i.e., the Last Glacial Maximum (LGM; 21ka), the mid-Holocene Optimum (6ka), modern days, and the future (ca. the end of this century under a RCP8.5 scenario). Present-day biome simulations were generally consistent with current vegetation observations in the study region. Pollen samples indicate that the Bering Land Bridge was covered almost entirely by moss, lichen, and tundra at the LGM, whereas the paleoclimate simulations show large across-model variations in this region. Three out of the five models' climate data produce evergreen and deciduous taiga at 21ka in what is now southwestern Alaska and southeastern Bering continental shelf. The 6ka simulations are in better agreement with pollen-based distributions of biomes. Future simulations show a general northward shift of biomes, including intrusions of cool mixed, deciduous, and coniferous forests above 60°N, especially in southwest Alaska.
format Dataset
title Past, present and future biome in Beringia: Comparison between simulations and pollen analysis (Western)
title_short Past, present and future biome in Beringia: Comparison between simulations and pollen analysis (Western)
title_full Past, present and future biome in Beringia: Comparison between simulations and pollen analysis (Western)
title_fullStr Past, present and future biome in Beringia: Comparison between simulations and pollen analysis (Western)
title_full_unstemmed Past, present and future biome in Beringia: Comparison between simulations and pollen analysis (Western)
title_sort past, present and future biome in beringia: comparison between simulations and pollen analysis (western)
publisher Arctic Data Center
publishDate
url https://search.dataone.org/view/ab8b5098-2df8-47bb-9006-e28fcf4da866
op_coverage ENVELOPE(-180.0,-120.0,80.0,50.0)
long_lat ENVELOPE(-180.0,-120.0,80.0,50.0)
genre Bering Land Bridge
taiga
Tundra
Alaska
Beringia
genre_facet Bering Land Bridge
taiga
Tundra
Alaska
Beringia
_version_ 1800870719406473216

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