Functional similarity analysis highlights ecosystem impacts and restoration needs

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Functional similarity analysis highlights ecosystem impacts and restoration needs. / Pakeman, Robin J.; Lewis, Rob J.

In: Applied Vegetation Science, Vol. 21, No. 2, 04.2018, p. 258-266.

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Pakeman, Robin J. ; Lewis, Rob J. / Functional similarity analysis highlights ecosystem impacts and restoration needs. In: Applied Vegetation Science. 2018 ; Vol. 21, No. 2. pp. 258-266.

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@article{33c05e2bbc544a37818e58c78c0f5f4e,
title = "Functional similarity analysis highlights ecosystem impacts and restoration needs",
abstract = "Aims: To test a recently developed method of assessing functional beta-diversity - as the difference in location of the convex hull in trait space - as a means of assessing the impact of species loss and colonization over time on functional composition. This approach was tested using data from a survey and subsequent resurvey of Scottish coastal vegetation.Location: Scotland, UK.Results: Fixed dunes, slacks, unimproved grassland and mires showed the highest functional overlap through time (high correspondence in convex hull position between two surveys), while salt marsh, improved grassland and heath showed the lowest. Fixed dune was the most stable in terms of retaining the highest proportion of the original convex hull, while salt marsh was least stable. Salt marsh also showed the highest new functional space occupied, whilst mires and slacks showed the least colonization by functionally distinct species. Generally sites on the west coast of Scotland were most stable, while those on the east showed the greatest functional changes. Assessing functional beta-diversity provided a different picture to assessing species beta-diversity; high species turnover might have little impact on the functional characteristics of the vegetation, whereas the invasion of one functionally different species can have a sizeable impact on ecosystem processes.Conclusions: The method proved effective in highlighting habitats and sites where species changes had the largest impact on the functional space occupied by the plant assemblage. The method provides complementary information to that derived from other types of analysis, including about the potential needs for improved management or full-scale restoration.",
keywords = "coastal vegetation, convex hull, functional richness, functional beta-diversity, machair, plant functional traits, sand dune, EUROPEAN FISH ASSEMBLAGES, DIVERSITY INDEXES, BETA DIVERSITY, PLANT TRAITS, COMMUNITIES, VEGETATION, TURNOVER, COASTAL, DEPOSITION, UK",
author = "Pakeman, {Robin J.} and Lewis, {Rob J.}",
year = "2018",
month = "4",
doi = "10.1111/avsc.12353",
language = "English",
volume = "21",
pages = "258--266",
journal = "Applied Vegetation Science",
issn = "1402-2001",
publisher = "Wiley-Blackwell Publishing, Inc",
number = "2",

}

RIS

TY - JOUR

T1 - Functional similarity analysis highlights ecosystem impacts and restoration needs

AU - Pakeman, Robin J.

AU - Lewis, Rob J.

PY - 2018/4

Y1 - 2018/4

N2 - Aims: To test a recently developed method of assessing functional beta-diversity - as the difference in location of the convex hull in trait space - as a means of assessing the impact of species loss and colonization over time on functional composition. This approach was tested using data from a survey and subsequent resurvey of Scottish coastal vegetation.Location: Scotland, UK.Results: Fixed dunes, slacks, unimproved grassland and mires showed the highest functional overlap through time (high correspondence in convex hull position between two surveys), while salt marsh, improved grassland and heath showed the lowest. Fixed dune was the most stable in terms of retaining the highest proportion of the original convex hull, while salt marsh was least stable. Salt marsh also showed the highest new functional space occupied, whilst mires and slacks showed the least colonization by functionally distinct species. Generally sites on the west coast of Scotland were most stable, while those on the east showed the greatest functional changes. Assessing functional beta-diversity provided a different picture to assessing species beta-diversity; high species turnover might have little impact on the functional characteristics of the vegetation, whereas the invasion of one functionally different species can have a sizeable impact on ecosystem processes.Conclusions: The method proved effective in highlighting habitats and sites where species changes had the largest impact on the functional space occupied by the plant assemblage. The method provides complementary information to that derived from other types of analysis, including about the potential needs for improved management or full-scale restoration.

AB - Aims: To test a recently developed method of assessing functional beta-diversity - as the difference in location of the convex hull in trait space - as a means of assessing the impact of species loss and colonization over time on functional composition. This approach was tested using data from a survey and subsequent resurvey of Scottish coastal vegetation.Location: Scotland, UK.Results: Fixed dunes, slacks, unimproved grassland and mires showed the highest functional overlap through time (high correspondence in convex hull position between two surveys), while salt marsh, improved grassland and heath showed the lowest. Fixed dune was the most stable in terms of retaining the highest proportion of the original convex hull, while salt marsh was least stable. Salt marsh also showed the highest new functional space occupied, whilst mires and slacks showed the least colonization by functionally distinct species. Generally sites on the west coast of Scotland were most stable, while those on the east showed the greatest functional changes. Assessing functional beta-diversity provided a different picture to assessing species beta-diversity; high species turnover might have little impact on the functional characteristics of the vegetation, whereas the invasion of one functionally different species can have a sizeable impact on ecosystem processes.Conclusions: The method proved effective in highlighting habitats and sites where species changes had the largest impact on the functional space occupied by the plant assemblage. The method provides complementary information to that derived from other types of analysis, including about the potential needs for improved management or full-scale restoration.

KW - coastal vegetation

KW - convex hull

KW - functional richness

KW - functional beta-diversity

KW - machair

KW - plant functional traits

KW - sand dune

KW - EUROPEAN FISH ASSEMBLAGES

KW - DIVERSITY INDEXES

KW - BETA DIVERSITY

KW - PLANT TRAITS

KW - COMMUNITIES

KW - VEGETATION

KW - TURNOVER

KW - COASTAL

KW - DEPOSITION

KW - UK

U2 - 10.1111/avsc.12353

DO - 10.1111/avsc.12353

M3 - Journal article

VL - 21

SP - 258

EP - 266

JO - Applied Vegetation Science

JF - Applied Vegetation Science

SN - 1402-2001

IS - 2

ER -