Phytoplankton constitute the main algal biomass in pelagic ecosystems and, therefore, play a
fundamental role in the functioning of the marine trophic web. Information on long-term
trends in marine phytoplankton may help to distinguish between biological responses to
natural oscillations in climate and global warming, and to evaluate possible regional effects
of eutrophication. The aim of this work was to contribute to the general understanding of
how phytoplankton are spatio-temporally structured at the large-scale. To achieve this aim,
the Continuous Plankton Recorder (CPR) survey data were used to identify the dominant
large-scale spatial patterns of phytoplankton in north-western European continental shelf
waters. Spatial patterns have been described in relation to their variability in time (seasonal
and decadal). Finally, fluctuations of phytoplankton in space and time are described in
relation to changes in the environment of the North Atlantic. The analysis included
approximately 70,000 samples taken between 1960-1995. The large-scale, spatio-temporal
patterns ranged from the meso to the macro-scale (50-10,000 km) and from months to
decades. The structure of the thesis follows a progression from the seasonal to the inter-annual
scale and from phytoplankton biomass to the phytoplankton community. Particular
emphasis is placed on a broad overview of the long-term changes in marine phytoplankton
and interpreting anomalous phytoplankton values.
Overall, the results suggest that the environment plays a fundamental role in structuring the
phytoplankton from the seasonal scale to the decadal scale. The seasonal spatial evolution of
phytoplankton shows close associations to the hydrography of the north-east Atlantic, from
the overall biomass to the timing and ending of the seasonal growth period. At larger-scales,
atmospheric forcing (principally governed by the North Atlantic Oscillation index) has a
dominant effect on decadal variability of phytoplankton populations in the north-east
Atlantic. Although there is considerable regional variability in the long-term trends in
phytoplankton biomass and community structure, underlying patterns emerged to reveal
common trends. During the last decade, there has been a considerable increase in
phytoplankton bion1ass in most regions (particularly the North Sea) and an increase in the
dominance of dinoflagellates amongst the phytoplankton community, while the opposite
pattern was observed for the northern oceanic area of the north-east Atlantic. These different
spatial responses show similar patterns to changes in the decadal variability of sea-surface
temperature influenced by the North Atlantic Oscillation index. While atmospheric
variability plays a key role in the overall long-term and regional patterns of phytoplankton,
oceanic influences on the North Sea ecosystem have been underestimated in the past. The
anomalous phytoplankton biomass values, and large community shifts in the North Sea, are
associated with episodic hydrographic events seen during the late 1970s/early 1980s and the
late 1980s/early 1990s. It is suggested that these hydrographic events conspire to produce
anomalous ocean climate conditions in the North Sea which persist for a number of years and
are significant enough to alter the overall ecology of the North Sea.
Date of Award | 2000 |
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Original language | English |
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Awarding Institution | |
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Large-scale temporal and spatial patterns of marine phytoplankton in the north-east Atlantic
Edwards, M. (Author). 2000
Student thesis: PhD