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Delineation of ocean surface provinces over a complex marine domain (off SW Iberia): an objective abiotic-based approach
Publication . Krug, Lilian; Platt, Trevor; Barbosa, Ana B.
incorporating its dynamic nature. The area off Southwest Iberian Peninsula (SWIP), located between
temperate and subtropical waters, includes oceanic and coastal domains affected by atmospheric and
ocean circulation patterns, as well as coastal processes. The objectives of this study were to delineate a
dynamic abiotic-based partition of the heterogeneous surface SWIP area into environmental provinces
(EPs), evaluating their spatio-temporal distribution and abiotic properties, as well as the biological
relevance of the partition. An unsupervised classification was based on nearly 10 years (2002–2011) of
satellite- and model-derived data representative of physical, chemical and optical surface environments.
Twelve EPs (two coastal, two slope and eight oceanic) presented areal coverage varying along the annual
cycle with patterns significantly related to phytoplankton abundance and productivity. Highly significant
intra-annual variability in province-specific area coverage and distinctions in the abiotic properties
distinguished EPs predominant during cold (autumn–winter) and warm (spring–summer) periods. Areal
coverage and abiotic properties of EPs predominant during the cold period presented higher variability in
comparison to warm period EPs. During the warm period, the signature of coastal upwelling was evident,
particularly over the western slope and coastal EPs. Riverine discharge was also a relevant local control of
abiotic properties over coastal EPs. Overall, the spatio-temporal coverage patterns of EPs and abiotic and
biotic properties showed a good agreement with previous studies of the SWIP area, particularly along the
oceanic and slope sectors. The combination of a broad dataset, derived from products available through
operational oceanography programs, and objective unsupervised data classification methods, represented
a suitable strategy for characterizing SWIP ocean surface environment. Direct applications of this partition
include its use as support for designing sampling strategies, ocean modelling, interpreting environmental
and biological patterns, and ecosystem-based management.
Patterns and drivers of phytoplankton phenology off SW Iberia: a phenoregion based perspective
Publication . Krug, Lilian; Platt, Trevor; Sathyendranath, Shubha; Barbosa, Ana B.
Phytoplankton patterns, tightly linked to the dynamics of the ocean surface layer and its atmospheric forcing,
have major impacts on ecosystem functioning and are valuable indicators of its response to environmental
variability and change. Phytoplankton phenology and its underlying drivers are spatially variable, and the study
of its patterns, particularly over heterogeneous regions, benefits from a delineation of regions with specific
phenological properties, or phenoregions. The area Southwest off the Iberian Peninsula (SWIP, NE Atlantic)
integrates a highly complex set of coastal and ocean domains that collectively challenge the understanding of
regional phytoplankton phenology and related forcing mechanisms. This study aims to evaluate phytoplankton
phenology patterns over the SWIP area, during an 18-year period (September 1997 – August 2015), using an
objective, unsupervised partition strategy (Hierarchical Agglomerative Clustering – HAC) based on phenological
indices derived from satellite ocean colour data. The partition is then used to describe region-specific phytoplankton phenological patterns related to bloom magnitude, frequency, duration and timing. Region-specific variability patterns in phenological indices and their linkages with environmental determinants, including local ocean physical-chemical variables, hydrodynamic variables and large scale climate indices, were explored using Generalized Additive Models (GAM). HAC analyses identified five coherent phenoregions over SWIP, with distinctive phytoplankton phenological properties: two open ocean and three coastal regions. Over the open ocean, a single, low magnitude and long bloom event per year, was regularly observed. Coastal phenoregions exhibited up to six short bloom events per year, and higher intra-annual and variability. GAM models explained 50–90% of the variance of all phenological indices except bloom initiation timing, and revealed that interannual patterns in phytoplankton phenology and their environmental drivers varied markedly among the five phenoregions. Over the oceanic phenoregions, large-scale climate indices (Eastern Atlantic Pattern, Atlantic Meridional Oscillation), mixed layer depth (MLD) and nitrate concentration preceding primary bloom events were influential predictors, reflecting the relevance of nutrient limitation. For the Coastal-Slope, a relatively more light-limited phenoregion, North Atlantic Oscillation and wind speed were more relevant, and bloom magnitude was also positively influenced by riverine discharge. This variable was a significant predictor of bloom frequency, magnitude and duration over the Riverine-influenced region. Over the Upwelling-influenced
region, upwelling intensity and mean annual MLD showed stronger partial effects on phytoplankton phenology.
Overall, our phenology-based unsupervised approach produced a biologically-relevant SWIP partition, providing an evaluation of the complexity of interactions between phytoplankton and multiple environmental forcing, particularly over coastal areas.
Assessing the impact of environmental forcing on the condition of anchovy larvae in the Cadiz Gulf using nucleic acid and fatty acid-derived indices
Publication . Teodosio, Maria; Garrido, Susana; Peters, J.; Miguel de Sousa Leitão, Francisco; Re, P.; Peliz, A.; Santos, A.M.P.
Understanding the environmental processes affecting fish larvae survival is critical for population dynamics,"conservation purposes and to ecosystem-based fishery management. Using anchovies (Engraulis encrasicolus) of the Cadiz Gulf as a study case and considering the "Ocean Triad" hypothesis, we investigate the larval ecophysiological status and potential survival in relation to oceanographic variables. Therefore, this study aims to describe the nutritional condition of anchovy larvae during spawning season (peak in summer) through nucleic acid- and fatty acid (FA)-derived indices and to analyze the effects of the major environmental parameters (Depth, Temperature, Salinity, Plankton biomass) on anchovy survival potential at early phases. Fish larvae were collected in August from 30 m to 400 m depth at 35 stations off the southern Iberian coast. A previous upwelling event influenced the oceanographic conditions of the more western stations off Cape Sao Vicente (CSV). Along the coast, the water became warmer from west to the east through Cape Santa Maria (CSM) ending at Guadiana estuary, where easterly winds originated the development of a counter current. The standardized RNA/ DNA (sRD) of anchovy larvae decreased throughout larval ontogeny, reflecting a reduction of growth during the development. Essential FA concentrations also decreased, but docosahexaenoic acid (DHA) in particular was highly conserved even after the reduction of total FA concentration in anchovy larvae related to the onset of swimming abilities (post-flexion phase). The oceanographic conditions (west upwelling, east counter current, and stratification) led to a nearshore aggregation of plankton and anchovy larvae with good ecophysiological conditions in the central area of the southern coast, where an optimal range of temperature and chlorophyll, as an indirect food proxy for anchovy larval development, were registered. The study proves that the oceanographic conditions of the study area are putative drivers of the ecophysiological condition of anchovy larvae to guarantee potential survival, supporting the "Ocean Triad" hypothesis with major repercussions for recruitment and population dynamics.
Are submarine groundwater discharges affecting the structure and physiological status of rocky intertidal communities?
Publication . Piló, David; Barbosa, Ana B.; Teodosio, Maria; Encarnação, J.; Miguel de Sousa Leitão, Francisco; Range, Pedro; Krug, Lilian; Cruz, J.; Chícharo, Luís
This study evaluated the impacts of submarine groundwater discharges (SGD) on a rocky intertidal community of South Portugal, during April-November 2011. Chlorophyll-a concentration was higher at the SGD site in respect to the Reference site. Epibenthic community structure differed between sites, with an increase in Chthamalus spp. and a decrease in macroalgae coverage at the SGD site. The abundance and body size of Mytilus galloprovincialis were consistently higher at the SGD site. During mid-spring, under potentially higher SGD and less favorable conditions for coastal phytoplankton, the ecophysiological condition of M. galloprovincialis and G. umbilicalis was also higher at the SGD site. These beneficial effects on filter-feeders and herbivores probably resulted from local increases in prey availability, supported by SGD-driven nutrient inputs. Conversely, P. depressa was not favoured by SGD, probably due to a lower dependency on algae as food. The analysis of epibenthic community structure and ecophysiological condition represents a promising approach to disentangle the ecological impacts of SGD on intertidal ecosystems.
Ocean surface provinces off Southwest Iberia based on satellite remote sensing
Publication . Krug, Lilian; Barbosa, Ana B.; Sathyendranath, Shubha
This thesis aimed to partition the complex surface marine domain off Southwest Iberia
Peninsula (SWIP), using satellite remote sensing, and use it to assess phytoplankton
variability patterns and underlying environmental drivers (1997 – 2015). Three unsupervised
partition strategies, based on distinct input databases and temporal representations, detected a
variable number of partition units (regions, provinces) of singular environmental and
phytoplankton patterns within SWIP. An abiotic-based partition delineated 12 dynamic
Environmental Provinces (EPs) that alternated coverage dominance along the annual cycle.
EP patterns were in general related to phytoplankton biomass, indicated by satellite
chlorophyll-a concentration (Chl-a), and productivity, thus supporting the biological
relevance of this abiotic-based partition. A static partition, based on the main variability
modes of Chl-a, derived 9 Chl-a regions. Moreover, a static partition strategy synthesised
phytoplankton phenological patterns over SWIP into 5 phenoregions, with coherent patterns
of timing, magnitude and duration of blooms. The spatial distribution of EPs, Chl-a regions
and phenoregions shared similarities, which can be considered the main spatial patterns of
SWIP ocean surface. In general, the spatial arrangement of the partition units showed a
separation between coastal and open ocean, a latitudinal division (ca. 36.5oN) over the open
ocean and, over the coast and slope, the influence of coastal upwelling along the west
Portuguese coast and Cape São Vicente, and of river discharge along the northeastern Gulf of
Cadiz. The environmental drivers of phytoplankton varied across partition units. Water
column stratification, riverine discharge and upwelling intensity were the most influential
modulators, and large scale climate indices usually showed minor effects. Environmental
variables, Chl-a and phenology showed significant seasonal variability patterns, varying
across regions. Interannual patterns were more complex, and significant trends were mostly
detected within the Gulf of Cadiz. Linkages between environmental variability and
phytoplankton support their use as an indicator of ecosystem status and change.
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Funding agency
Fundação para a Ciência e a Tecnologia
Funding programme
3599-PPCDT
Funding Award Number
PTDC/AAC-CLI/114512/2009