Saltmarsh archives of vegetation and land use change from Big River Marsh, SW Newfoundland, Canada

Katherine A. Selby; Helen M. Roe; Alexander J. Wright; Orson van de Plassche; Sally R. Derrett

doi:10.1007/s00334-021-00845-y

Saltmarsh archives of vegetation and land use change from Big River Marsh, SW Newfoundland, Canada

Katherine A. Selby, Helen M. Roe, Alexander J. Wright, Orson van de Plassche, Sally R. Derrett^*

^*Corresponding author for this work

Environment and Geography

Research output: Contribution to journal › Article › peer-review

Abstract

Pollen and plant macrofossils are often well-preserved in coastal sediments, providing a palaeoenvironmental record of sea-level and landscape change. In this study, we examine the pollen and plant macrofossil assemblages of a well-dated saltmarsh sediment core from southwest Newfoundland, Canada, to establish recent coastal vegetation and land use change, to increase the knowledge of anthropogenic activities in the area and develop pollen chronozones for reconstructing marsh accumulation rates and to examine the representation of plant macrofossil remains in the wetland pollen profile. Grouping the pollen record into upland and wetland assemblages allows local events related to hydrological change to be separated from landscape-scale changes. The wetland pollen and plant macrofossil records indicate a general acceleration in sea-level rise ca. ad 1700. The sedge pollen and plant macrofossil records attest to multiple phases of rhizome encroachment during inferred periods of marine regression. Two chronozones are identified from the upland pollen profile; the first associated with the settlement of St. George’s Bay ca. ad 1800, signalled by increases in Plantago lanceolata and Ambrosia pollen; the second with the permanent settlement of the Port au Port peninsula ca. ad 1850, indicated by increased P. lanceolata and Rumex pollen. Comparison of the plant macrofossil and wetland pollen profiles highlights the underrepresentation of grass pollen preserved in the saltmarsh sediments and a need for further analysis of the zonation, pollen dispersal and macrofossil representation of sedge species in saltmarshes.

Original language	English
Number of pages	18
Journal	Vegetation History and Archaeobotany
Early online date	21 Jun 2021
DOIs	https://doi.org/10.1007/s00334-021-00845-y
Publication status	E-pub ahead of print - 21 Jun 2021

Bibliographical note

Funding Information:
The Foraminifera-derived sea-level research associated with this study (published by Kemp et al. ) was supported by a grant from the Netherlands to OvdP and is gratefully acknowledged.

Publisher Copyright:
© 2021, The Author(s).

Keywords

Age-depth model
Chronozones
Plant macrofossils
Pollen stratigraphy
Saltmarshes

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Selby2021_Article_SaltmarshArchivesOfVegetationA
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Final published version, 2.03 MBLicence: CC BY

Cite this

@article{af00da03de7b4a28992d0bc2201ee445,

title = "Saltmarsh archives of vegetation and land use change from Big River Marsh, SW Newfoundland, Canada",

abstract = "Pollen and plant macrofossils are often well-preserved in coastal sediments, providing a palaeoenvironmental record of sea-level and landscape change. In this study, we examine the pollen and plant macrofossil assemblages of a well-dated saltmarsh sediment core from southwest Newfoundland, Canada, to establish recent coastal vegetation and land use change, to increase the knowledge of anthropogenic activities in the area and develop pollen chronozones for reconstructing marsh accumulation rates and to examine the representation of plant macrofossil remains in the wetland pollen profile. Grouping the pollen record into upland and wetland assemblages allows local events related to hydrological change to be separated from landscape-scale changes. The wetland pollen and plant macrofossil records indicate a general acceleration in sea-level rise ca. ad 1700. The sedge pollen and plant macrofossil records attest to multiple phases of rhizome encroachment during inferred periods of marine regression. Two chronozones are identified from the upland pollen profile; the first associated with the settlement of St. George{\textquoteright}s Bay ca. ad 1800, signalled by increases in Plantago lanceolata and Ambrosia pollen; the second with the permanent settlement of the Port au Port peninsula ca. ad 1850, indicated by increased P. lanceolata and Rumex pollen. Comparison of the plant macrofossil and wetland pollen profiles highlights the underrepresentation of grass pollen preserved in the saltmarsh sediments and a need for further analysis of the zonation, pollen dispersal and macrofossil representation of sedge species in saltmarshes.",

keywords = "Age-depth model, Chronozones, Plant macrofossils, Pollen stratigraphy, Saltmarshes",

author = "Selby, {Katherine A.} and Roe, {Helen M.} and Wright, {Alexander J.} and {van de Plassche}, Orson and Derrett, {Sally R.}",

note = "Funding Information: The Foraminifera-derived sea-level research associated with this study (published by Kemp et al. ) was supported by a grant from the Netherlands to OvdP and is gratefully acknowledged. Publisher Copyright: {\textcopyright} 2021, The Author(s).",

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language = "English",

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AU - Selby, Katherine A.

AU - Roe, Helen M.

AU - Wright, Alexander J.

AU - van de Plassche, Orson

AU - Derrett, Sally R.

N1 - Funding Information: The Foraminifera-derived sea-level research associated with this study (published by Kemp et al. ) was supported by a grant from the Netherlands to OvdP and is gratefully acknowledged. Publisher Copyright: © 2021, The Author(s).

PY - 2021/6/21

Y1 - 2021/6/21

N2 - Pollen and plant macrofossils are often well-preserved in coastal sediments, providing a palaeoenvironmental record of sea-level and landscape change. In this study, we examine the pollen and plant macrofossil assemblages of a well-dated saltmarsh sediment core from southwest Newfoundland, Canada, to establish recent coastal vegetation and land use change, to increase the knowledge of anthropogenic activities in the area and develop pollen chronozones for reconstructing marsh accumulation rates and to examine the representation of plant macrofossil remains in the wetland pollen profile. Grouping the pollen record into upland and wetland assemblages allows local events related to hydrological change to be separated from landscape-scale changes. The wetland pollen and plant macrofossil records indicate a general acceleration in sea-level rise ca. ad 1700. The sedge pollen and plant macrofossil records attest to multiple phases of rhizome encroachment during inferred periods of marine regression. Two chronozones are identified from the upland pollen profile; the first associated with the settlement of St. George’s Bay ca. ad 1800, signalled by increases in Plantago lanceolata and Ambrosia pollen; the second with the permanent settlement of the Port au Port peninsula ca. ad 1850, indicated by increased P. lanceolata and Rumex pollen. Comparison of the plant macrofossil and wetland pollen profiles highlights the underrepresentation of grass pollen preserved in the saltmarsh sediments and a need for further analysis of the zonation, pollen dispersal and macrofossil representation of sedge species in saltmarshes.

AB - Pollen and plant macrofossils are often well-preserved in coastal sediments, providing a palaeoenvironmental record of sea-level and landscape change. In this study, we examine the pollen and plant macrofossil assemblages of a well-dated saltmarsh sediment core from southwest Newfoundland, Canada, to establish recent coastal vegetation and land use change, to increase the knowledge of anthropogenic activities in the area and develop pollen chronozones for reconstructing marsh accumulation rates and to examine the representation of plant macrofossil remains in the wetland pollen profile. Grouping the pollen record into upland and wetland assemblages allows local events related to hydrological change to be separated from landscape-scale changes. The wetland pollen and plant macrofossil records indicate a general acceleration in sea-level rise ca. ad 1700. The sedge pollen and plant macrofossil records attest to multiple phases of rhizome encroachment during inferred periods of marine regression. Two chronozones are identified from the upland pollen profile; the first associated with the settlement of St. George’s Bay ca. ad 1800, signalled by increases in Plantago lanceolata and Ambrosia pollen; the second with the permanent settlement of the Port au Port peninsula ca. ad 1850, indicated by increased P. lanceolata and Rumex pollen. Comparison of the plant macrofossil and wetland pollen profiles highlights the underrepresentation of grass pollen preserved in the saltmarsh sediments and a need for further analysis of the zonation, pollen dispersal and macrofossil representation of sedge species in saltmarshes.

KW - Age-depth model

KW - Chronozones

KW - Plant macrofossils

KW - Pollen stratigraphy

KW - Saltmarshes

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DO - 10.1007/s00334-021-00845-y

M3 - Article

AN - SCOPUS:85108380534

SN - 0939-6314

JO - Vegetation History and Archaeobotany

JF - Vegetation History and Archaeobotany

ER -

Saltmarsh archives of vegetation and land use change from Big River Marsh, SW Newfoundland, Canada

Abstract

Bibliographical note

Keywords

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