Sedimentary macrofossil records reveal ecological change in English lakes:implications for conservation

Aquatic macrophytes play a key role in providing habitat, refuge and food for a range of biota in shallow lakes. However, many shallow lakes have experienced declines in macrophyte vegetation in recent decades, principally due to eutrophication. As changes in macrophyte composition and abundance can...

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Published in:Journal of Paleolimnology
Main Authors: Bennion, Helen, Sayer, Carl D., Clarke, Stewart J., Davidson, Thomas A., Rose, Neil L., Goldsmith, Ben, Rawcliffe, Ruth, Burgess, Amy, Clarke, Gina, Turner, Simon, Wiik, Emma
Format: Article in Journal/Newspaper
Language:English
Published: 2018
Subjects:
Conservation
Eutrophication
Lakes
Macrophytes
Macrofossils
Palaeoecology
FOSSIL CLADOCERAN ASSEMBLAGES
SHALLOW LAKES
SUBMERGED MACROPHYTES
AQUATIC VEGETATION
EUTROPHIC LAKE
EUROPEAN LAKES
MARL LAKES
FUTURE CHALLENGES
TROPHIC STRUCTURE
SURFACE SEDIMENT
Zannichellia palustris
Online Access:https://pure.au.dk/portal/da/publications/sedimentary-macrofossil-records-reveal-ecological-change-in-english-lakes(1f9d484d-86b5-4034-8be0-99be6af1fcba).html
https://doi.org/10.1007/s10933-017-9941-7
https://pure.au.dk/ws/files/166624000/Bennion2018_Article_SedimentaryMacrofossilRecordsR.pdf
id ftuniaarhuspubl:oai:pure.atira.dk:publications/1f9d484d-86b5-4034-8be0-99be6af1fcba
record_format openpolar
spelling ftuniaarhuspubl:oai:pure.atira.dk:publications/1f9d484d-86b5-4034-8be0-99be6af1fcba 2023-11-12T04:28:06+01:00 Sedimentary macrofossil records reveal ecological change in English lakes:implications for conservation Bennion, Helen Sayer, Carl D. Clarke, Stewart J. Davidson, Thomas A. Rose, Neil L. Goldsmith, Ben Rawcliffe, Ruth Burgess, Amy Clarke, Gina Turner, Simon Wiik, Emma 2018-08 application/pdf https://pure.au.dk/portal/da/publications/sedimentary-macrofossil-records-reveal-ecological-change-in-english-lakes(1f9d484d-86b5-4034-8be0-99be6af1fcba).html https://doi.org/10.1007/s10933-017-9941-7 https://pure.au.dk/ws/files/166624000/Bennion2018_Article_SedimentaryMacrofossilRecordsR.pdf eng eng https://pure.au.dk/portal/da/publications/sedimentary-macrofossil-records-reveal-ecological-change-in-english-lakes(1f9d484d-86b5-4034-8be0-99be6af1fcba).html info:eu-repo/semantics/openAccess Bennion , H , Sayer , C D , Clarke , S J , Davidson , T A , Rose , N L , Goldsmith , B , Rawcliffe , R , Burgess , A , Clarke , G , Turner , S & Wiik , E 2018 , ' Sedimentary macrofossil records reveal ecological change in English lakes : implications for conservation ' , Journal of Paleolimnology , vol. 60 , no. 2 , pp. 329-348 . https://doi.org/10.1007/s10933-017-9941-7 Conservation Eutrophication Lakes Macrophytes Macrofossils Palaeoecology FOSSIL CLADOCERAN ASSEMBLAGES SHALLOW LAKES SUBMERGED MACROPHYTES AQUATIC VEGETATION EUTROPHIC LAKE EUROPEAN LAKES MARL LAKES FUTURE CHALLENGES TROPHIC STRUCTURE SURFACE SEDIMENT article 2018 ftuniaarhuspubl https://doi.org/10.1007/s10933-017-9941-7 2023-10-25T22:59:31Z Aquatic macrophytes play a key role in providing habitat, refuge and food for a range of biota in shallow lakes. However, many shallow lakes have experienced declines in macrophyte vegetation in recent decades, principally due to eutrophication. As changes in macrophyte composition and abundance can affect overall ecological structure and function of a lake, an assessment of the timing and nature of such changes is crucial to our understanding of the wider lake ecosystem. In the typical absence of historical plant records, the macro-remains of macrophytes preserved in lake sediments can be used to assess long-term changes in aquatic vegetation. We generated recent (150-200 years) plant macrofossil records for six English lakes subject to conservation protection to define past macrophyte communities, assess trajectories of ecological change and consider the implications of our findings for conservation targets and strategies. The data for all six lakes reveal a diverse submerged macrophyte community, with charophytes as a key component, in the early part of the sedimentary records. The stratigraphies indicate considerable change to the aquatic vegetation over the last two centuries with a general shift towards species more typically associated with eutrophic conditions. A common feature is the decline in abundance of low-growing charophytes and an increase in tall canopy-forming angiosperms such as fine-leaved Potamogeton species, Zannichellia palustris and Callitriche species. We hypothesise, based on findings from long-term datasets and palaeoecological records from enriched shallow lakes where plants are now absent, that the observed shifts provide a warning to managers that the lakes are on a pathway to complete macrophyte loss such that nutrient load reduction is urgently needed. It is the sound understanding of present-day plant ecology that affords such reliable interpretation of the fossil data which, in turn, provide valuable context for current conservation decisions. Article in Journal/Newspaper Zannichellia palustris Aarhus University: Research Journal of Paleolimnology 60 2 329 348
institution Open Polar
collection Aarhus University: Research
op_collection_id ftuniaarhuspubl
language English
topic Conservation
Eutrophication
Lakes
Macrophytes
Macrofossils
Palaeoecology
FOSSIL CLADOCERAN ASSEMBLAGES
SHALLOW LAKES
SUBMERGED MACROPHYTES
AQUATIC VEGETATION
EUTROPHIC LAKE
EUROPEAN LAKES
MARL LAKES
FUTURE CHALLENGES
TROPHIC STRUCTURE
SURFACE SEDIMENT
spellingShingle Conservation
Eutrophication
Lakes
Macrophytes
Macrofossils
Palaeoecology
FOSSIL CLADOCERAN ASSEMBLAGES
SHALLOW LAKES
SUBMERGED MACROPHYTES
AQUATIC VEGETATION
EUTROPHIC LAKE
EUROPEAN LAKES
MARL LAKES
FUTURE CHALLENGES
TROPHIC STRUCTURE
SURFACE SEDIMENT
Bennion, Helen
Sayer, Carl D.
Clarke, Stewart J.
Davidson, Thomas A.
Rose, Neil L.
Goldsmith, Ben
Rawcliffe, Ruth
Burgess, Amy
Clarke, Gina
Turner, Simon
Wiik, Emma
Sedimentary macrofossil records reveal ecological change in English lakes:implications for conservation
topic_facet Conservation
Eutrophication
Lakes
Macrophytes
Macrofossils
Palaeoecology
FOSSIL CLADOCERAN ASSEMBLAGES
SHALLOW LAKES
SUBMERGED MACROPHYTES
AQUATIC VEGETATION
EUTROPHIC LAKE
EUROPEAN LAKES
MARL LAKES
FUTURE CHALLENGES
TROPHIC STRUCTURE
SURFACE SEDIMENT
description Aquatic macrophytes play a key role in providing habitat, refuge and food for a range of biota in shallow lakes. However, many shallow lakes have experienced declines in macrophyte vegetation in recent decades, principally due to eutrophication. As changes in macrophyte composition and abundance can affect overall ecological structure and function of a lake, an assessment of the timing and nature of such changes is crucial to our understanding of the wider lake ecosystem. In the typical absence of historical plant records, the macro-remains of macrophytes preserved in lake sediments can be used to assess long-term changes in aquatic vegetation. We generated recent (150-200 years) plant macrofossil records for six English lakes subject to conservation protection to define past macrophyte communities, assess trajectories of ecological change and consider the implications of our findings for conservation targets and strategies. The data for all six lakes reveal a diverse submerged macrophyte community, with charophytes as a key component, in the early part of the sedimentary records. The stratigraphies indicate considerable change to the aquatic vegetation over the last two centuries with a general shift towards species more typically associated with eutrophic conditions. A common feature is the decline in abundance of low-growing charophytes and an increase in tall canopy-forming angiosperms such as fine-leaved Potamogeton species, Zannichellia palustris and Callitriche species. We hypothesise, based on findings from long-term datasets and palaeoecological records from enriched shallow lakes where plants are now absent, that the observed shifts provide a warning to managers that the lakes are on a pathway to complete macrophyte loss such that nutrient load reduction is urgently needed. It is the sound understanding of present-day plant ecology that affords such reliable interpretation of the fossil data which, in turn, provide valuable context for current conservation decisions.
format Article in Journal/Newspaper
author Bennion, Helen
Sayer, Carl D.
Clarke, Stewart J.
Davidson, Thomas A.
Rose, Neil L.
Goldsmith, Ben
Rawcliffe, Ruth
Burgess, Amy
Clarke, Gina
Turner, Simon
Wiik, Emma
author_facet Bennion, Helen
Sayer, Carl D.
Clarke, Stewart J.
Davidson, Thomas A.
Rose, Neil L.
Goldsmith, Ben
Rawcliffe, Ruth
Burgess, Amy
Clarke, Gina
Turner, Simon
Wiik, Emma
author_sort Bennion, Helen
title Sedimentary macrofossil records reveal ecological change in English lakes:implications for conservation
title_short Sedimentary macrofossil records reveal ecological change in English lakes:implications for conservation
title_full Sedimentary macrofossil records reveal ecological change in English lakes:implications for conservation
title_fullStr Sedimentary macrofossil records reveal ecological change in English lakes:implications for conservation
title_full_unstemmed Sedimentary macrofossil records reveal ecological change in English lakes:implications for conservation
title_sort sedimentary macrofossil records reveal ecological change in english lakes:implications for conservation
publishDate 2018
url https://pure.au.dk/portal/da/publications/sedimentary-macrofossil-records-reveal-ecological-change-in-english-lakes(1f9d484d-86b5-4034-8be0-99be6af1fcba).html
https://doi.org/10.1007/s10933-017-9941-7
https://pure.au.dk/ws/files/166624000/Bennion2018_Article_SedimentaryMacrofossilRecordsR.pdf
genre Zannichellia palustris
genre_facet Zannichellia palustris
op_source Bennion , H , Sayer , C D , Clarke , S J , Davidson , T A , Rose , N L , Goldsmith , B , Rawcliffe , R , Burgess , A , Clarke , G , Turner , S & Wiik , E 2018 , ' Sedimentary macrofossil records reveal ecological change in English lakes : implications for conservation ' , Journal of Paleolimnology , vol. 60 , no. 2 , pp. 329-348 . https://doi.org/10.1007/s10933-017-9941-7
op_relation https://pure.au.dk/portal/da/publications/sedimentary-macrofossil-records-reveal-ecological-change-in-english-lakes(1f9d484d-86b5-4034-8be0-99be6af1fcba).html
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1007/s10933-017-9941-7
container_title Journal of Paleolimnology
container_volume 60
container_issue 2
container_start_page 329
op_container_end_page 348
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