TY - JOUR
T1 - Environmental drivers of temporal succession in recent dinoflagellate cyst assemblages from a coastal site in the North-East Atlantic (Lisbon Bay, Portugal)
AU - Ribeiro, Sofia
AU - Amorim, Ana
N1 - Funding Information:
This work has been developed within projects PROFIT — “Interdisciplinary study of processes underlying the phytoplankton dynamics in the Portuguese upwelling system” — (PDCTE/CTA/50386/2003) and PORTCOAST — “Present and future Portuguese coastal climate and its impacts on the biological communities” — (POCTI/CLI/58348/2004), funded by the Portuguese Foundation for Science and Technology. The authors would like to thank Teresa Moita and Sofia Palma, from IPIMAR, for kindly making available environmental data used in this study. Lino Costa is greatly acknowledged for advices regarding statistical analyses, and Vera Veloso for the help with sampling and slide preparation. Thanks are also due to two anonymous reviewers, for constructive comments that helped improve this manuscript. Sofia Ribeiro holds a PhD scholarship from the Portuguese Foundation for Science and Technology (SFRH/BD/30847/2006).
PY - 2008/7
Y1 - 2008/7
N2 - Temporal changes in the community structure of recent dinoflagellate cyst assemblages of Lisbon Bay (Iberian upwelling system) were investigated between 2000 and 2005. The assemblages were diverse and characterized by high inter-annual variability, rather than a clear seasonal pattern. In order to identify the main environmental drivers of community changes, several regional (river runoff, rainfall, upwelling, radiation, daylength) and in situ (sea surface temperature, salinity, bottom and surface chlorophyll a concentration) environmental parameters were tested. Multivariate statistical analysis allowed the identification of water stability as the main environmental gradient influencing the community composition, with river runoff in the preceding rain season and upwelling being the two drivers of stratification and turbulence, respectively. Both these processes can be described as nutrient enrichment processes, but the cyst signal indicates that the two mechanisms select for different functional groups. The main upwelling cyst signal is characterised by the dominance of heterotrophic species (Protoperidinioid species) and presence of the autotrophic chain-forming Gymnodinium catenatum, while the river runoff cyst signal is characterised by dominance of autotrophs forming calcareous cysts, mainly Scrippsiella spp. Lingulodinium polyedrum is suggested to be indicative of upwelling conditions in the region but reflecting an ecological niche different from the more classical heterotrophic assemblage and G. catenatum. Our results reinforce the applicability of dinoflagellate cysts as environmental tracers in the warm-temperate region of the NE Atlantic, and contribute to the development of palaeoenvironmental cyst-based signals.
AB - Temporal changes in the community structure of recent dinoflagellate cyst assemblages of Lisbon Bay (Iberian upwelling system) were investigated between 2000 and 2005. The assemblages were diverse and characterized by high inter-annual variability, rather than a clear seasonal pattern. In order to identify the main environmental drivers of community changes, several regional (river runoff, rainfall, upwelling, radiation, daylength) and in situ (sea surface temperature, salinity, bottom and surface chlorophyll a concentration) environmental parameters were tested. Multivariate statistical analysis allowed the identification of water stability as the main environmental gradient influencing the community composition, with river runoff in the preceding rain season and upwelling being the two drivers of stratification and turbulence, respectively. Both these processes can be described as nutrient enrichment processes, but the cyst signal indicates that the two mechanisms select for different functional groups. The main upwelling cyst signal is characterised by the dominance of heterotrophic species (Protoperidinioid species) and presence of the autotrophic chain-forming Gymnodinium catenatum, while the river runoff cyst signal is characterised by dominance of autotrophs forming calcareous cysts, mainly Scrippsiella spp. Lingulodinium polyedrum is suggested to be indicative of upwelling conditions in the region but reflecting an ecological niche different from the more classical heterotrophic assemblage and G. catenatum. Our results reinforce the applicability of dinoflagellate cysts as environmental tracers in the warm-temperate region of the NE Atlantic, and contribute to the development of palaeoenvironmental cyst-based signals.
KW - Dinoflagellate cyst signals
KW - Gymnodinium catenatum
KW - Lingulodinium polyedrum
KW - Runoff
KW - Upwelling
KW - Water stability
UR - http://www.scopus.com/inward/record.url?scp=47849119458&partnerID=8YFLogxK
U2 - 10.1016/j.marmicro.2008.01.013
DO - 10.1016/j.marmicro.2008.01.013
M3 - Article
AN - SCOPUS:47849119458
SN - 0377-8398
VL - 68
SP - 156
EP - 178
JO - Marine Micropaleontology
JF - Marine Micropaleontology
IS - 1-2
ER -