Lake restoration: successes, failures and long-term effects

Lake restoration: successes, failures and long-term effects

1. Eutrophication constitutes a serious threat to many European lakes and many approaches have been used during the past 20–30 years to improve lake water quality. Results from the various lake restoration initiatives are diverse and the long-term effects are not well described. 2. In this study we evaluated data from more than 70 restoration projects conducted mainly in shallow, eutrophic lakes in Denmark and the Netherlands. Special focus was given to the removal of zooplanktivorous and benthivorous fish, by far the most common internal lake measure. 3. In more than half of the biomanipulation projects, Secchi depth increased and chlorophyll a decreased to less than 50% within the first few years. In some of the shallow lakes, total phosphorus and total nitrogen levels decreased considerably, indicating an increased retention or loss by denitrification. The strongest effects seemed to be obtained 4–6 years after the start of fish removal. 4. The long-term effect of restoration initiatives can only be described for a few lakes, but data from biomanipulated lakes indicate a return to a turbid state within 10 years or less in most cases. One of reasons for the lack of long-term effects may be internal phosphorus loading from a mobile pool accumulated in the sediment. 5. Synthesis and applications. Lake restoration, and in particular fish removal in shallow eutrophic lakes, has been widely used in Denmark and the Netherlands, where it has had marked effects on lake water quality in many lakes. Long-term effects ( > 8–10 years) are less obvious and a return to turbid conditions is often seen unless fish removal is repeated. Insufficient external loading reduction, internal phosphorus loading and absence of stable submerged macrophyte communities to stabilize the clear-water state are the most probable causes for this relapse to earlier conditionsEutrophication constitutes a serious threat to many European lakes and many approaches have been used during the past 20-30 years to improve lake water quality. Results from the various lake restoration initiatives are diverse and the long-term effects are not well described. In this study we evaluated data from more than 70 restoration projects conducted mainly in shallow, eutrophic lakes in Denmark and the Netherlands. Special focus was given to the removal of zooplanktivorous and benthivorous fish, by far the most common internal lake measure. In more than half of the biomanipulation projects, Secchi depth increased and chlorophyll a decreased to less than 50% within the first few years. In some of the shallow lakes, total phosphorus and total nitrogen levels decreased considerably, indicating an increased retention or loss by denitrification. The strongest effects seemed to be obtained 4-6 years after the start of fish removal. The long-term effect of restoration initiatives can only be described for a few lakes, but data from biomanipulated lakes indicate a return to a turbid state within 10 years or less in most cases. One of reasons for the lack of long-term effects may be internal phosphorus loading from a mobile pool accumulated in the sediment. Synthesis and applications. Lake restoration, and in particular fish removal in shallow eutrophic lakes, has been widely used in Denmark and the Netherlands, where it has had marked effects on lake water quality in many lakes. Long-term effects (> 8-10 years) are less obvious and a return to turbid conditions is often seen unless fish removal is repeated. Insufficient external loading reduction, internal phosphorus loading and absence of stable submerged macrophyte communities to stabilize the clear-water state are the most probable causes for this relapse to earlier conditions.

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Main Authors: Sondergaard, M., Jeppesen, E., Lauridsen, T.L., Skov, C., van Nes, E.H., Roijackers, R.M.M., Lammens, E., Portielje, R.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:aquatic ecology, biomanipulation, danish lakes, denmark, effects, eutrophication, evaluation, food-web manipulation, hydrobiology, lakes, netherlands, nutrient loading reductions, of-the-art, phosphorus, planktivorous fish, rehabilitation, shallow eutrophic lake, submerged macrophytes, temperate lakes, top-down, water framework directive, water quality, aquatische ecologie, denemarken, effecten, eutrofiëring, evaluatie, fosfor, herstel, hydrobiologie, kaderrichtlijn water, meren, nederland, waterkwaliteit,
Online Access:https://research.wur.nl/en/publications/lake-restoration-successes-failures-and-long-term-effects
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id dig-wur-nl-wurpubs-360286
record_format koha
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic aquatic ecology
biomanipulation
danish lakes
denmark
effects
eutrophication
evaluation
food-web manipulation
hydrobiology
lakes
netherlands
nutrient loading reductions
of-the-art
phosphorus
planktivorous fish
rehabilitation
shallow eutrophic lake
submerged macrophytes
temperate lakes
top-down
water framework directive
water quality
aquatische ecologie
denemarken
effecten
eutrofiëring
evaluatie
fosfor
herstel
hydrobiologie
kaderrichtlijn water
meren
nederland
waterkwaliteit
aquatic ecology
biomanipulation
danish lakes
denmark
effects
eutrophication
evaluation
food-web manipulation
hydrobiology
lakes
netherlands
nutrient loading reductions
of-the-art
phosphorus
planktivorous fish
rehabilitation
shallow eutrophic lake
submerged macrophytes
temperate lakes
top-down
water framework directive
water quality
aquatische ecologie
denemarken
effecten
eutrofiëring
evaluatie
fosfor
herstel
hydrobiologie
kaderrichtlijn water
meren
nederland
waterkwaliteit
spellingShingle aquatic ecology
biomanipulation
danish lakes
denmark
effects
eutrophication
evaluation
food-web manipulation
hydrobiology
lakes
netherlands
nutrient loading reductions
of-the-art
phosphorus
planktivorous fish
rehabilitation
shallow eutrophic lake
submerged macrophytes
temperate lakes
top-down
water framework directive
water quality
aquatische ecologie
denemarken
effecten
eutrofiëring
evaluatie
fosfor
herstel
hydrobiologie
kaderrichtlijn water
meren
nederland
waterkwaliteit
aquatic ecology
biomanipulation
danish lakes
denmark
effects
eutrophication
evaluation
food-web manipulation
hydrobiology
lakes
netherlands
nutrient loading reductions
of-the-art
phosphorus
planktivorous fish
rehabilitation
shallow eutrophic lake
submerged macrophytes
temperate lakes
top-down
water framework directive
water quality
aquatische ecologie
denemarken
effecten
eutrofiëring
evaluatie
fosfor
herstel
hydrobiologie
kaderrichtlijn water
meren
nederland
waterkwaliteit
Sondergaard, M.
Jeppesen, E.
Lauridsen, T.L.
Skov, C.
van Nes, E.H.
Roijackers, R.M.M.
Lammens, E.
Portielje, R.
Lake restoration: successes, failures and long-term effects
description 1. Eutrophication constitutes a serious threat to many European lakes and many approaches have been used during the past 20–30 years to improve lake water quality. Results from the various lake restoration initiatives are diverse and the long-term effects are not well described. 2. In this study we evaluated data from more than 70 restoration projects conducted mainly in shallow, eutrophic lakes in Denmark and the Netherlands. Special focus was given to the removal of zooplanktivorous and benthivorous fish, by far the most common internal lake measure. 3. In more than half of the biomanipulation projects, Secchi depth increased and chlorophyll a decreased to less than 50% within the first few years. In some of the shallow lakes, total phosphorus and total nitrogen levels decreased considerably, indicating an increased retention or loss by denitrification. The strongest effects seemed to be obtained 4–6 years after the start of fish removal. 4. The long-term effect of restoration initiatives can only be described for a few lakes, but data from biomanipulated lakes indicate a return to a turbid state within 10 years or less in most cases. One of reasons for the lack of long-term effects may be internal phosphorus loading from a mobile pool accumulated in the sediment. 5. Synthesis and applications. Lake restoration, and in particular fish removal in shallow eutrophic lakes, has been widely used in Denmark and the Netherlands, where it has had marked effects on lake water quality in many lakes. Long-term effects ( > 8–10 years) are less obvious and a return to turbid conditions is often seen unless fish removal is repeated. Insufficient external loading reduction, internal phosphorus loading and absence of stable submerged macrophyte communities to stabilize the clear-water state are the most probable causes for this relapse to earlier conditionsEutrophication constitutes a serious threat to many European lakes and many approaches have been used during the past 20-30 years to improve lake water quality. Results from the various lake restoration initiatives are diverse and the long-term effects are not well described. In this study we evaluated data from more than 70 restoration projects conducted mainly in shallow, eutrophic lakes in Denmark and the Netherlands. Special focus was given to the removal of zooplanktivorous and benthivorous fish, by far the most common internal lake measure. In more than half of the biomanipulation projects, Secchi depth increased and chlorophyll a decreased to less than 50% within the first few years. In some of the shallow lakes, total phosphorus and total nitrogen levels decreased considerably, indicating an increased retention or loss by denitrification. The strongest effects seemed to be obtained 4-6 years after the start of fish removal. The long-term effect of restoration initiatives can only be described for a few lakes, but data from biomanipulated lakes indicate a return to a turbid state within 10 years or less in most cases. One of reasons for the lack of long-term effects may be internal phosphorus loading from a mobile pool accumulated in the sediment. Synthesis and applications. Lake restoration, and in particular fish removal in shallow eutrophic lakes, has been widely used in Denmark and the Netherlands, where it has had marked effects on lake water quality in many lakes. Long-term effects (> 8-10 years) are less obvious and a return to turbid conditions is often seen unless fish removal is repeated. Insufficient external loading reduction, internal phosphorus loading and absence of stable submerged macrophyte communities to stabilize the clear-water state are the most probable causes for this relapse to earlier conditions.
format Article/Letter to editor
topic_facet aquatic ecology
biomanipulation
danish lakes
denmark
effects
eutrophication
evaluation
food-web manipulation
hydrobiology
lakes
netherlands
nutrient loading reductions
of-the-art
phosphorus
planktivorous fish
rehabilitation
shallow eutrophic lake
submerged macrophytes
temperate lakes
top-down
water framework directive
water quality
aquatische ecologie
denemarken
effecten
eutrofiëring
evaluatie
fosfor
herstel
hydrobiologie
kaderrichtlijn water
meren
nederland
waterkwaliteit
author Sondergaard, M.
Jeppesen, E.
Lauridsen, T.L.
Skov, C.
van Nes, E.H.
Roijackers, R.M.M.
Lammens, E.
Portielje, R.
author_facet Sondergaard, M.
Jeppesen, E.
Lauridsen, T.L.
Skov, C.
van Nes, E.H.
Roijackers, R.M.M.
Lammens, E.
Portielje, R.
author_sort Sondergaard, M.
title Lake restoration: successes, failures and long-term effects
title_short Lake restoration: successes, failures and long-term effects
title_full Lake restoration: successes, failures and long-term effects
title_fullStr Lake restoration: successes, failures and long-term effects
title_full_unstemmed Lake restoration: successes, failures and long-term effects
title_sort lake restoration: successes, failures and long-term effects
url https://research.wur.nl/en/publications/lake-restoration-successes-failures-and-long-term-effects
work_keys_str_mv AT sondergaardm lakerestorationsuccessesfailuresandlongtermeffects
AT jeppesene lakerestorationsuccessesfailuresandlongtermeffects
AT lauridsentl lakerestorationsuccessesfailuresandlongtermeffects
AT skovc lakerestorationsuccessesfailuresandlongtermeffects
AT vanneseh lakerestorationsuccessesfailuresandlongtermeffects
AT roijackersrmm lakerestorationsuccessesfailuresandlongtermeffects
AT lammense lakerestorationsuccessesfailuresandlongtermeffects
AT portieljer lakerestorationsuccessesfailuresandlongtermeffects
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spelling dig-wur-nl-wurpubs-3602862024-06-25 Sondergaard, M. Jeppesen, E. Lauridsen, T.L. Skov, C. van Nes, E.H. Roijackers, R.M.M. Lammens, E. Portielje, R. Article/Letter to editor Journal of Applied Ecology 44 (2007) 6 ISSN: 0021-8901 Lake restoration: successes, failures and long-term effects 2007 1. Eutrophication constitutes a serious threat to many European lakes and many approaches have been used during the past 20–30 years to improve lake water quality. Results from the various lake restoration initiatives are diverse and the long-term effects are not well described. 2. In this study we evaluated data from more than 70 restoration projects conducted mainly in shallow, eutrophic lakes in Denmark and the Netherlands. Special focus was given to the removal of zooplanktivorous and benthivorous fish, by far the most common internal lake measure. 3. In more than half of the biomanipulation projects, Secchi depth increased and chlorophyll a decreased to less than 50% within the first few years. In some of the shallow lakes, total phosphorus and total nitrogen levels decreased considerably, indicating an increased retention or loss by denitrification. The strongest effects seemed to be obtained 4–6 years after the start of fish removal. 4. The long-term effect of restoration initiatives can only be described for a few lakes, but data from biomanipulated lakes indicate a return to a turbid state within 10 years or less in most cases. One of reasons for the lack of long-term effects may be internal phosphorus loading from a mobile pool accumulated in the sediment. 5. Synthesis and applications. Lake restoration, and in particular fish removal in shallow eutrophic lakes, has been widely used in Denmark and the Netherlands, where it has had marked effects on lake water quality in many lakes. Long-term effects ( > 8–10 years) are less obvious and a return to turbid conditions is often seen unless fish removal is repeated. Insufficient external loading reduction, internal phosphorus loading and absence of stable submerged macrophyte communities to stabilize the clear-water state are the most probable causes for this relapse to earlier conditionsEutrophication constitutes a serious threat to many European lakes and many approaches have been used during the past 20-30 years to improve lake water quality. Results from the various lake restoration initiatives are diverse and the long-term effects are not well described. In this study we evaluated data from more than 70 restoration projects conducted mainly in shallow, eutrophic lakes in Denmark and the Netherlands. Special focus was given to the removal of zooplanktivorous and benthivorous fish, by far the most common internal lake measure. In more than half of the biomanipulation projects, Secchi depth increased and chlorophyll a decreased to less than 50% within the first few years. In some of the shallow lakes, total phosphorus and total nitrogen levels decreased considerably, indicating an increased retention or loss by denitrification. The strongest effects seemed to be obtained 4-6 years after the start of fish removal. The long-term effect of restoration initiatives can only be described for a few lakes, but data from biomanipulated lakes indicate a return to a turbid state within 10 years or less in most cases. One of reasons for the lack of long-term effects may be internal phosphorus loading from a mobile pool accumulated in the sediment. Synthesis and applications. Lake restoration, and in particular fish removal in shallow eutrophic lakes, has been widely used in Denmark and the Netherlands, where it has had marked effects on lake water quality in many lakes. Long-term effects (> 8-10 years) are less obvious and a return to turbid conditions is often seen unless fish removal is repeated. Insufficient external loading reduction, internal phosphorus loading and absence of stable submerged macrophyte communities to stabilize the clear-water state are the most probable causes for this relapse to earlier conditions. en application/pdf https://research.wur.nl/en/publications/lake-restoration-successes-failures-and-long-term-effects 10.1111/j.1365-2664.2007.01363.x https://edepot.wur.nl/3281 aquatic ecology biomanipulation danish lakes denmark effects eutrophication evaluation food-web manipulation hydrobiology lakes netherlands nutrient loading reductions of-the-art phosphorus planktivorous fish rehabilitation shallow eutrophic lake submerged macrophytes temperate lakes top-down water framework directive water quality aquatische ecologie denemarken effecten eutrofiëring evaluatie fosfor herstel hydrobiologie kaderrichtlijn water meren nederland waterkwaliteit Wageningen University & Research

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