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Vegetation of Eurasia from the last glacial maximum to present : Key biogeographic patterns. / Binney, Heather; Edwards, Mary; Macias-Fauria, Marc и др.

в: Quaternary Science Reviews, Том 157, 01.02.2017, стр. 80-97.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Binney, H, Edwards, M, Macias-Fauria, M, Lozhkin, A, Anderson, P, Kaplan, JO, Andreev, A, Bezrukova, E, Blyakharchuk, T, Jankovska, V, Khazina, I, Krivonogov, S, Kremenetski, K, Nield, J, Novenko, E, Ryabogina, N, Solovieva, N, Willis, K & Zernitskaya, V 2017, 'Vegetation of Eurasia from the last glacial maximum to present: Key biogeographic patterns', Quaternary Science Reviews, Том. 157, стр. 80-97. https://doi.org/10.1016/j.quascirev.2016.11.022

APA

Binney, H., Edwards, M., Macias-Fauria, M., Lozhkin, A., Anderson, P., Kaplan, J. O., Andreev, A., Bezrukova, E., Blyakharchuk, T., Jankovska, V., Khazina, I., Krivonogov, S., Kremenetski, K., Nield, J., Novenko, E., Ryabogina, N., Solovieva, N., Willis, K., & Zernitskaya, V. (2017). Vegetation of Eurasia from the last glacial maximum to present: Key biogeographic patterns. Quaternary Science Reviews, 157, 80-97. https://doi.org/10.1016/j.quascirev.2016.11.022

Vancouver

Binney H, Edwards M, Macias-Fauria M, Lozhkin A, Anderson P, Kaplan JO и др. Vegetation of Eurasia from the last glacial maximum to present: Key biogeographic patterns. Quaternary Science Reviews. 2017 февр. 1;157:80-97. doi: 10.1016/j.quascirev.2016.11.022

Author

Binney, Heather ; Edwards, Mary ; Macias-Fauria, Marc и др. / Vegetation of Eurasia from the last glacial maximum to present : Key biogeographic patterns. в: Quaternary Science Reviews. 2017 ; Том 157. стр. 80-97.

BibTeX

@article{d43e8f133c4849f9b63e25208c67218d,
title = "Vegetation of Eurasia from the last glacial maximum to present: Key biogeographic patterns",
abstract = "Continental-scale estimates of vegetation cover, including land-surface properties and biogeographic trends, reflect the response of plant species to climate change over the past millennia. These estimates can help assess the effectiveness of simulations of climate change using forward and inverse modelling approaches. With the advent of transient and contiguous time-slice palaeoclimate simulations, vegetation datasets with similar temporal qualities are desirable. We collated fossil pollen records for the period 21,000–0 cal yr BP (kyr cal BP; calibrated ages) for Europe and Asia north of 40°N, using extant databases and new data; we filtered records for adequate dating and sorted the nomenclature to conform to a consistent yet extensive taxon list. From this database we extracted pollen spectra representing 1000-year time-slices from 21 kyr cal BP to present and used the biomization approach to define the most likely vegetation biome represented. Biomes were mapped for the 22 time slices, and key plant functional types (PFTs, the constituents of the biomes) were tracked though time. An error matrix and index of topographic complexity clearly showed that the accuracy of pollen-based biome assignments (when compared with modern vegetation) was negatively correlated with topographic complexity, but modern vegetation was nevertheless effectively mapped by the pollen, despite moderate levels of misclassification for most biomes. The pattern at 21 ka is of herb-dominated biomes across the whole region. From the onset of deglaciation (17–18 kyr cal BP), some sites in Europe record forest biomes, particularly the south, and the proportion of forest biomes gradually increases with time through 14 kyr cal BP. During the same period, forest biomes and steppe or tundra biomes are intermixed across the central Asian mountains, and forest biomes occur in coastal Pacific areas. These forest biome occurrences, plus a record of dated plant macrofossils, indicate that some tree populations existed in southern and Eastern Europe and central and far-eastern Eurasia. PFT composition of the herbaceous biomes emphasises the significant contribution of diverse forbs to treeless vegetation, a feature often obscured in pollen records. An increase in moisture ca. 14 kyr cal BP is suggested by a shift to woody biomes and an increase in sites recording initialization and development of lakes and peat deposits, particularly in the European portion of the region. Deforestation of Western Europe, presumably related to agricultural expansion, is clearly visible in the most recent two millennia.",
keywords = "Biomes, Eurasia, Late Quaternary, Pollen, Vegetation, QUANTITATIVE RECONSTRUCTION, 120 KYR, LAND-COVER, PLEISTOCENE EXTINCTIONS, BOREAL FOREST, CLIMATE-CHANGE, NORTHERN REFUGIA, TERRESTRIAL BIOSPHERE, WOOLLY MAMMOTH, PLANT MACROFOSSIL DATA",
author = "Heather Binney and Mary Edwards and Marc Macias-Fauria and Anatoly Lozhkin and Patricia Anderson and Kaplan, {Jed O.} and Andrei Andreev and Elena Bezrukova and Tatiana Blyakharchuk and Vlasta Jankovska and Irina Khazina and Sergey Krivonogov and Konstantin Kremenetski and Jo Nield and Elena Novenko and Natalya Ryabogina and Nadia Solovieva and Kathy Willis and Valentina Zernitskaya",
note = "Publisher Copyright: {\textcopyright} 2016 The Authors Copyright: Copyright 2020 Elsevier B.V., All rights reserved.",
year = "2017",
month = feb,
day = "1",
doi = "10.1016/j.quascirev.2016.11.022",
language = "English",
volume = "157",
pages = "80--97",
journal = "Quaternary Science Reviews",
issn = "0277-3791",
publisher = "Elsevier Ltd",

}

RIS

TY - JOUR

T1 - Vegetation of Eurasia from the last glacial maximum to present

T2 - Key biogeographic patterns

AU - Binney, Heather

AU - Edwards, Mary

AU - Macias-Fauria, Marc

AU - Lozhkin, Anatoly

AU - Anderson, Patricia

AU - Kaplan, Jed O.

AU - Andreev, Andrei

AU - Bezrukova, Elena

AU - Blyakharchuk, Tatiana

AU - Jankovska, Vlasta

AU - Khazina, Irina

AU - Krivonogov, Sergey

AU - Kremenetski, Konstantin

AU - Nield, Jo

AU - Novenko, Elena

AU - Ryabogina, Natalya

AU - Solovieva, Nadia

AU - Willis, Kathy

AU - Zernitskaya, Valentina

N1 - Publisher Copyright: © 2016 The Authors Copyright: Copyright 2020 Elsevier B.V., All rights reserved.

PY - 2017/2/1

Y1 - 2017/2/1

N2 - Continental-scale estimates of vegetation cover, including land-surface properties and biogeographic trends, reflect the response of plant species to climate change over the past millennia. These estimates can help assess the effectiveness of simulations of climate change using forward and inverse modelling approaches. With the advent of transient and contiguous time-slice palaeoclimate simulations, vegetation datasets with similar temporal qualities are desirable. We collated fossil pollen records for the period 21,000–0 cal yr BP (kyr cal BP; calibrated ages) for Europe and Asia north of 40°N, using extant databases and new data; we filtered records for adequate dating and sorted the nomenclature to conform to a consistent yet extensive taxon list. From this database we extracted pollen spectra representing 1000-year time-slices from 21 kyr cal BP to present and used the biomization approach to define the most likely vegetation biome represented. Biomes were mapped for the 22 time slices, and key plant functional types (PFTs, the constituents of the biomes) were tracked though time. An error matrix and index of topographic complexity clearly showed that the accuracy of pollen-based biome assignments (when compared with modern vegetation) was negatively correlated with topographic complexity, but modern vegetation was nevertheless effectively mapped by the pollen, despite moderate levels of misclassification for most biomes. The pattern at 21 ka is of herb-dominated biomes across the whole region. From the onset of deglaciation (17–18 kyr cal BP), some sites in Europe record forest biomes, particularly the south, and the proportion of forest biomes gradually increases with time through 14 kyr cal BP. During the same period, forest biomes and steppe or tundra biomes are intermixed across the central Asian mountains, and forest biomes occur in coastal Pacific areas. These forest biome occurrences, plus a record of dated plant macrofossils, indicate that some tree populations existed in southern and Eastern Europe and central and far-eastern Eurasia. PFT composition of the herbaceous biomes emphasises the significant contribution of diverse forbs to treeless vegetation, a feature often obscured in pollen records. An increase in moisture ca. 14 kyr cal BP is suggested by a shift to woody biomes and an increase in sites recording initialization and development of lakes and peat deposits, particularly in the European portion of the region. Deforestation of Western Europe, presumably related to agricultural expansion, is clearly visible in the most recent two millennia.

AB - Continental-scale estimates of vegetation cover, including land-surface properties and biogeographic trends, reflect the response of plant species to climate change over the past millennia. These estimates can help assess the effectiveness of simulations of climate change using forward and inverse modelling approaches. With the advent of transient and contiguous time-slice palaeoclimate simulations, vegetation datasets with similar temporal qualities are desirable. We collated fossil pollen records for the period 21,000–0 cal yr BP (kyr cal BP; calibrated ages) for Europe and Asia north of 40°N, using extant databases and new data; we filtered records for adequate dating and sorted the nomenclature to conform to a consistent yet extensive taxon list. From this database we extracted pollen spectra representing 1000-year time-slices from 21 kyr cal BP to present and used the biomization approach to define the most likely vegetation biome represented. Biomes were mapped for the 22 time slices, and key plant functional types (PFTs, the constituents of the biomes) were tracked though time. An error matrix and index of topographic complexity clearly showed that the accuracy of pollen-based biome assignments (when compared with modern vegetation) was negatively correlated with topographic complexity, but modern vegetation was nevertheless effectively mapped by the pollen, despite moderate levels of misclassification for most biomes. The pattern at 21 ka is of herb-dominated biomes across the whole region. From the onset of deglaciation (17–18 kyr cal BP), some sites in Europe record forest biomes, particularly the south, and the proportion of forest biomes gradually increases with time through 14 kyr cal BP. During the same period, forest biomes and steppe or tundra biomes are intermixed across the central Asian mountains, and forest biomes occur in coastal Pacific areas. These forest biome occurrences, plus a record of dated plant macrofossils, indicate that some tree populations existed in southern and Eastern Europe and central and far-eastern Eurasia. PFT composition of the herbaceous biomes emphasises the significant contribution of diverse forbs to treeless vegetation, a feature often obscured in pollen records. An increase in moisture ca. 14 kyr cal BP is suggested by a shift to woody biomes and an increase in sites recording initialization and development of lakes and peat deposits, particularly in the European portion of the region. Deforestation of Western Europe, presumably related to agricultural expansion, is clearly visible in the most recent two millennia.

KW - Biomes

KW - Eurasia

KW - Late Quaternary

KW - Pollen

KW - Vegetation

KW - QUANTITATIVE RECONSTRUCTION

KW - 120 KYR

KW - LAND-COVER

KW - PLEISTOCENE EXTINCTIONS

KW - BOREAL FOREST

KW - CLIMATE-CHANGE

KW - NORTHERN REFUGIA

KW - TERRESTRIAL BIOSPHERE

KW - WOOLLY MAMMOTH

KW - PLANT MACROFOSSIL DATA

UR - http://www.scopus.com/inward/record.url?scp=85007348363&partnerID=8YFLogxK

UR - https://www.elibrary.ru/item.asp?id=27844791

U2 - 10.1016/j.quascirev.2016.11.022

DO - 10.1016/j.quascirev.2016.11.022

M3 - Article

AN - SCOPUS:85007348363

VL - 157

SP - 80

EP - 97

JO - Quaternary Science Reviews

JF - Quaternary Science Reviews

SN - 0277-3791

ER -

ID: 10317699