Short-term variability and control of phytoplankton photosynthetic activity in a macrotidal ecosystem (the Strait of Dover, eastern English Channel)
Short-term changes in phytoplankton photosynthetic activity were studied during different periods of the years 2009 and 2010 in the coastal waters of a macrotidal ecosystem (the Strait of Dover, eastern English Channel). During each sampling period, samples were taken every 1.45 h., from sunrise to...
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| Published in | Marine biology Vol. 160; no. 7; pp. 1661 - 1679 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer-Verlag
01.07.2013
Springer Springer Nature B.V Springer Verlag |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Short-term changes in phytoplankton photosynthetic activity were studied during different periods of the years 2009 and 2010 in the coastal waters of a macrotidal ecosystem (the Strait of Dover, eastern English Channel). During each sampling period, samples were taken every 1.45 h., from sunrise to sunset, during at least 5 days distributed along a complete spring–neap tide cycle. The photosynthetic parameters were obtained by measuring rapid light curves using pulse amplitude modulated fluorometry and were related to environmental conditions and phytoplankton taxonomic composition. The maximum quantum yield (
F
v
/
F
m
) showed clear light-dependent changes and could vary from physiological maxima (0.68–0.60) to values close to 0.30 during the course of 1 day, suggesting the operation of photoprotective mechanisms. The maximum electron transport rate (ETR
m
) and maximal light utilization efficiency (
α
) were generally positively correlated and showed large diel variability. These parameters fluctuated significantly from hour to hour within each day and the intraday pattern of variation changed significantly among days of each sampling period. Stepwise multiple linear regressions analyses indicated that light fluctuations explained a part of this variability but a great part of variability stayed unexplained.
F
v
/
F
m
, ETR
m
and
α
were not only dependent on the light conditions of the sampling day but also on those of the previous days. A time lag of 3 days in the effect of light on ETR
m
and
α
variation was highlighted. At these time scales, changes in phytoplankton community structure seemed to have a low importance in the variability in photosynthetic parameters. The photoacclimation index
E
k
showed a lower variability and was generally different from the incident irradiance, indicating a limited acclimation capacity with a poor optimization of light harvesting during the day. However, in well-mixed systems such as the Strait of Dover, the short-term photoacclimation is disrupted by the high level of variability in environmental conditions. Also, the variability observed in the present study can be associated with a particular kind of photosynthetic response: the “
E
k
-independent” variability. The physiological basis of this photosynthetic response is largely unresolved and further researches on this subject are still required to better explain the dynamics of phytoplankton activity in the Strait of Dover. |
|---|---|
| AbstractList | Short-term changes in phytoplankton photosynthetic activity were studied during different periods of the years 2009 and 2010 in the coastal waters of a macrotidal ecosystem (the Strait of Dover, eastern English Channel). During each sampling period, samples were taken every 1.45 h., from sunrise to sunset, during at least 5 days distributed along a complete spring-neap tide cycle. The photosynthetic parameters were obtained by measuring rapid light curves using pulse amplitude modulated fluorometry and were related to environmental conditions and phytoplankton taxonomic composition. The maximum quantum yield (Fv/Fm) showed clear light-dependent changes and could vary from physiological maxima (0.68-0.60) to values close to 0.30 during the course of 1 day, suggesting the operation of photoprotective mechanisms. The maximum electron transport rate (ETRm) and maximal light utilization efficiency (a) were generally positively correlated and showed large diel variability. These parameters fluctuated significantly from hour to hour within each day and the intraday pattern of variation changed significantly among days of each sampling period. Stepwise multiple linear regressions analyses indicated that light fluctuations explained a part of this variability but a great part of variability stayed unexplained. Fv/Fm, ETRm and a were not only dependent on the light conditions of the sampling day but also on those of the previous days.A time lag of 3 days in the effect of light on ETRm and a variation was highlighted. At these time scales, changes in phytoplankton community structure seemed to have a low importance in the variability in photosynthetic parameters. The photoacclimation index Ek showed a lower variability and was generally different from the incident irradiance, indicating a limited acclimation capacity with a poor optimization of light harvesting during the day. However, in well-mixed systems such as the Strait of Dover, the short-term photoacclimation is disrupted by the high level of variability in environmental conditions. Also, the variability observed in the present study can be associated with a particular kind of photosynthetic response: the ''Ek-independent'' variability. The physiological basis of this photosynthetic response is largely unresolved and further researches on this subject are still required to better explain the dynamics of phytoplankton activity in the Strait of Dover. Short-term changes in phytoplankton photosynthetic activity were studied during different periods of the years 2009 and 2010 in the coastal waters of a macrotidal ecosystem (the Strait of Dover, eastern English Channel). During each sampling period, samples were taken every 1.45 h., from sunrise to sunset, during at least 5 days distributed along a complete spring-neap tide cycle. The photosynthetic parameters were obtained by measuring rapid light curves using pulse amplitude modulated fluorometry and were related to environmental conditions and phytoplankton taxonomic composition. The maximum quantum yield ([F.sub.v]/[F.sub.m]) showed clear light-dependent changes and could vary from physiological maxima (0.68-0.60) to values close to 0.30 during the course of 1 day, suggesting the operation of photoprotective mechanisms. The maximum electron transport rate (ET[R.sub.m]) and maximal light utilization efficiency (α) were generally positively correlated and showed large diel variability. These parameters fluctuated significantly from hour to hour within each day and the intraday pattern of variation changed significantly among days of each sampling period. Stepwise multiple linear regressions analyses indicated that light fluctuations explained a part of this variability but a great part of variability stayed unexplained. [F.sub.v]/[F.sub.m], ET[R.sub.m] and α were not only dependent on the light conditions of the sampling day but also on those of the previous days. A time lag of 3 days in the effect of light on ET[R.sub.m] and α variation was highlighted. At these time scales, changes in phytoplankton community structure seemed to have a low importance in the variability in photosynthetic parameters. The photoacclimation index [E.sub.k] showed a lower variability and was generally different from the incident irradiance, indicating a limited acclimation capacity with a poor optimization of light harvesting during the day. However, in well-mixed systems such as the Strait of Dover, the short-term photoacclimation is disrupted by the high level of variability in environmental conditions. Also, the variability observed in the present study can be associated with a particular kind of photosynthetic response: the "[E.sub.k]-independent" variability. The physiological basis of this photosynthetic response is largely unresolved and further researches on this subject are still required to better explain the dynamics of phytoplankton activity in the Strait of Dover. Short-term changes in phytoplankton photosynthetic activity were studied during different periods of the years 2009 and 2010 in the coastal waters of a macrotidal ecosystem (the Strait of Dover, eastern English Channel). During each sampling period, samples were taken every 1.45 h., from sunrise to sunset, during at least 5 days distributed along a complete spring–neap tide cycle. The photosynthetic parameters were obtained by measuring rapid light curves using pulse amplitude modulated fluorometry and were related to environmental conditions and phytoplankton taxonomic composition. The maximum quantum yield ( F v / F m ) showed clear light-dependent changes and could vary from physiological maxima (0.68–0.60) to values close to 0.30 during the course of 1 day, suggesting the operation of photoprotective mechanisms. The maximum electron transport rate (ETR m ) and maximal light utilization efficiency ( α ) were generally positively correlated and showed large diel variability. These parameters fluctuated significantly from hour to hour within each day and the intraday pattern of variation changed significantly among days of each sampling period. Stepwise multiple linear regressions analyses indicated that light fluctuations explained a part of this variability but a great part of variability stayed unexplained. F v / F m , ETR m and α were not only dependent on the light conditions of the sampling day but also on those of the previous days. A time lag of 3 days in the effect of light on ETR m and α variation was highlighted. At these time scales, changes in phytoplankton community structure seemed to have a low importance in the variability in photosynthetic parameters. The photoacclimation index E k showed a lower variability and was generally different from the incident irradiance, indicating a limited acclimation capacity with a poor optimization of light harvesting during the day. However, in well-mixed systems such as the Strait of Dover, the short-term photoacclimation is disrupted by the high level of variability in environmental conditions. Also, the variability observed in the present study can be associated with a particular kind of photosynthetic response: the “ E k -independent” variability. The physiological basis of this photosynthetic response is largely unresolved and further researches on this subject are still required to better explain the dynamics of phytoplankton activity in the Strait of Dover. Short-term changes in phytoplankton photosynthetic activity were studied during different periods of the years 2009 and 2010 in the coastal waters of a macrotidal ecosystem (the Strait of Dover, eastern English Channel). During each sampling period, samples were taken every 1.45 h., from sunrise to sunset, during at least 5 days distributed along a complete spring-neap tide cycle. The photosynthetic parameters were obtained by measuring rapid light curves using pulse amplitude modulated fluorometry and were related to environmental conditions and phytoplankton taxonomic composition. The maximum quantum yield (F ^sub v^/F ^sub m^) showed clear light-dependent changes and could vary from physiological maxima (0.68-0.60) to values close to 0.30 during the course of 1 day, suggesting the operation of photoprotective mechanisms. The maximum electron transport rate (ETR^sub m^) and maximal light utilization efficiency ([alpha]) were generally positively correlated and showed large diel variability. These parameters fluctuated significantly from hour to hour within each day and the intraday pattern of variation changed significantly among days of each sampling period. Stepwise multiple linear regressions analyses indicated that light fluctuations explained a part of this variability but a great part of variability stayed unexplained. F ^sub v^/F ^sub m^, ETR^sub m^ and [alpha] were not only dependent on the light conditions of the sampling day but also on those of the previous days. A time lag of 3 days in the effect of light on ETR^sub m^ and [alpha] variation was highlighted. At these time scales, changes in phytoplankton community structure seemed to have a low importance in the variability in photosynthetic parameters. The photoacclimation index E ^sub k^ showed a lower variability and was generally different from the incident irradiance, indicating a limited acclimation capacity with a poor optimization of light harvesting during the day. However, in well-mixed systems such as the Strait of Dover, the short-term photoacclimation is disrupted by the high level of variability in environmental conditions. Also, the variability observed in the present study can be associated with a particular kind of photosynthetic response: the "E ^sub k^-independent" variability. The physiological basis of this photosynthetic response is largely unresolved and further researches on this subject are still required to better explain the dynamics of phytoplankton activity in the Strait of Dover.[PUBLICATION ABSTRACT] Short-term changes in phytoplankton photosynthetic activity were studied during different periods of the years 2009 and 2010 in the coastal waters of a macrotidal ecosystem (the Strait of Dover, eastern English Channel). During each sampling period, samples were taken every 1.45 h., from sunrise to sunset, during at least 5 days distributed along a complete spring-neap tide cycle. The photosynthetic parameters were obtained by measuring rapid light curves using pulse amplitude modulated fluorometry and were related to environmental conditions and phytoplankton taxonomic composition. The maximum quantum yield (Fv/Fm) showed clear light-dependent changes and could vary from physiological maxima (0.68-0.60) to values close to 0.30 during the course of 1 day, suggesting the operation of photoprotective mechanisms. The maximum electron transport rate (ETRm) and maximal light utilization efficiency (α) were generally positively correlated and showed large diel variability. These parameters fluctuated significantly from hour to hour within each day and the intraday pattern of variation changed significantly among days of each sampling period. Stepwise multiple linear regressions analyses indicated that light fluctuations explained a part of this variability but a great part of variability stayed unexplained. Fv/Fm, ETRm and α were not only dependent on the light conditions of the sampling day but also on those of the previous days. A time lag of 3 days in the effect of light on ETRm and α variation was highlighted. At these time scales, changes in phytoplankton community structure seemed to have a low importance in the variability in photosynthetic parameters. The photoacclimation index Ek showed a lower variability and was generally different from the incident irradiance, indicating a limited acclimation capacity with a poor optimization of light harvesting during the day. However, in well-mixed systems such as the Strait of Dover, the short-term photoacclimation is disrupted by the high level of variability in environmental conditions. Also, the variability observed in the present study can be associated with a particular kind of photosynthetic response: the "Ek-independent" variability. The physiological basis of this photosynthetic response is largely unresolved and further researches on this subject are still required to better explain the dynamics of phytoplankton activity in the Strait of Dover. © 2013 Springer-Verlag Berlin Heidelberg. Short-term changes in phytoplankton photosynthetic activity were studied during different periods of the years 2009 and 2010 in the coastal waters of a macrotidal ecosystem (the Strait of Dover, eastern English Channel). During each sampling period, samples were taken every 1.45 h., from sunrise to sunset, during at least 5 days distributed along a complete spring-neap tide cycle. The photosynthetic parameters were obtained by measuring rapid light curves using pulse amplitude modulated fluorometry and were related to environmental conditions and phytoplankton taxonomic composition. The maximum quantum yield (F sub(v)/F sub(m)) showed clear light-dependent changes and could vary from physiological maxima (0.68-0.60) to values close to 0.30 during the course of 1 day, suggesting the operation of photoprotective mechanisms. The maximum electron transport rate (ETR sub(m)) and maximal light utilization efficiency ( alpha ) were generally positively correlated and showed large diel variability. These parameters fluctuated significantly from hour to hour within each day and the intraday pattern of variation changed significantly among days of each sampling period. Stepwise multiple linear regressions analyses indicated that light fluctuations explained a part of this variability but a great part of variability stayed unexplained. F sub(v)/F sub(m), ETR sub(m) and alpha were not only dependent on the light conditions of the sampling day but also on those of the previous days. A time lag of 3 days in the effect of light on ETR sub(m) and alpha variation was highlighted. At these time scales, changes in phytoplankton community structure seemed to have a low importance in the variability in photosynthetic parameters. The photoacclimation index E sub(k) showed a lower variability and was generally different from the incident irradiance, indicating a limited acclimation capacity with a poor optimization of light harvesting during the day. However, in well-mixed systems such as the Strait of Dover, the short-term photoacclimation is disrupted by the high level of variability in environmental conditions. Also, the variability observed in the present study can be associated with a particular kind of photosynthetic response: the "E sub(k)-independent" variability. The physiological basis of this photosynthetic response is largely unresolved and further researches on this subject are still required to better explain the dynamics of phytoplankton activity in the Strait of Dover. |
| Audience | Academic |
| Author | Lefebvre, Sébastien Artigas, Luis Felipe Houliez, Emilie Lizon, Fabrice Schmitt, François G. |
| Author_xml | – sequence: 1 givenname: Emilie surname: Houliez fullname: Houliez, Emilie email: emilie.houliez@ed.univ-lille1.fr, houliez-emilie@voila.fr organization: Laboratoire d’Océanologie et de Géosciences, CNRS, Université Lille Nord de France, Université des Sciences et Technologies de Lille, Lille 1 – sequence: 2 givenname: Fabrice surname: Lizon fullname: Lizon, Fabrice organization: Laboratoire d’Océanologie et de Géosciences, CNRS, Université Lille Nord de France, Université des Sciences et Technologies de Lille, Lille 1 – sequence: 3 givenname: Sébastien surname: Lefebvre fullname: Lefebvre, Sébastien organization: Laboratoire d’Océanologie et de Géosciences, CNRS, Université Lille Nord de France, Université des Sciences et Technologies de Lille, Lille 1 – sequence: 4 givenname: Luis Felipe surname: Artigas fullname: Artigas, Luis Felipe organization: Laboratoire d’Océanologie et de Géosciences, CNRS, Université Lille Nord de France, Université du Littoral Côte d’Opale – sequence: 5 givenname: François G. surname: Schmitt fullname: Schmitt, François G. organization: Laboratoire d’Océanologie et de Géosciences, CNRS, Université Lille Nord de France, Université des Sciences et Technologies de Lille, Lille 1 |
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| ContentType | Journal Article |
| Copyright | Springer-Verlag Berlin Heidelberg 2013 2014 INIST-CNRS COPYRIGHT 2013 Springer Distributed under a Creative Commons Attribution 4.0 International License |
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| DOI | 10.1007/s00227-013-2218-4 |
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| Issue | 7 |
| Keywords | Photosynthetic Parameter Phytoplankton Phytoplankton Community Structure Phytoplankton Assemblage Photoprotective Mechanism Short term Strait Ecosystem Activity Photosynthesis Tides |
| Language | English |
| License | http://www.springer.com/tdm CC BY 4.0 Distributed under a Creative Commons Attribution 4.0 International License: http://creativecommons.org/licenses/by/4.0 |
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| PublicationSubtitle | International Journal on Life in Oceans and Coastal Waters |
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| References_xml | – reference: CruzSSerôdioJRelationship of rapid light curves of variable fluorescence to photoacclimation and non-photochemical quenching in a benthic diatomAquat Bot200888325626410.1016/j.aquabot.2007.11.0011:CAS:528:DC%2BD1cXivVOqs7o%3D – reference: HenleyWJMeasurement and interpretation of photosynthetic light-response curves in algae in the context of photoinhibition and diel changesJ Phycol199329672973810.1111/j.0022-3646.1993.00729.x – reference: ClaustreHKerhervéPMartyJCPrieurLPhytoplankton photoadaptation related to some frontal physical processesJ Mar Syst1994525126510.1016/0924-7963(94)90050-7 – reference: SchapiraMVincentDGentilhommeVSeurontLTemporal patterns of phytoplankton assemblages, size spectra and diversity during the wane of a Phaeocystis globosa spring bloom in hydrologically contrasted coastal watersJ Mar Biol Assoc UK200888464966210.1017/S00253154080013061:CAS:528:DC%2BD1cXns1Omtrw%3D – reference: BretonEBrunetCSautourBBrylinskiJMAnnual variations of phytoplankton biomass in the eastern English Channel: comparison by pigment signatures and microscopic countsJ Plankton Res20002281423144010.1093/plankt/22.8.14231:CAS:528:DC%2BD3cXmtlCksr4%3D – reference: LavaudJRousseauBEtienneALEnrichment of the light-harvesting complex in diadinoxanthin and implications for the nonphotochemical fluorescence quenching in diatomsBiochemistry (Mosc)200342195802580810.1021/bi027112i1:CAS:528:DC%2BD3sXjtVGhtbg%3D – reference: Aminot A, Kérouel R (2007) Dosage automatique des nutriments dans les eaux marines, vol 1. 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| Title | Short-term variability and control of phytoplankton photosynthetic activity in a macrotidal ecosystem (the Strait of Dover, eastern English Channel) |
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