INVESTIGADORES
FERREYRA Gustavo Adolfo
artículos
Título:
Spatial and temporal variability of chlorophyll-a and particulate organic matter in the sediments and the water column of Potter Cove (Antarctica)
Autor/es:
ATENCIO, A., M.L. BERTOLIN, L. LONGHI, G.A. FERREYRA, M.E. FERRARIO, I.R. SCHLOSS
Revista:
Reports on Polar and Marine Research
Referencias:
Año: 2008 vol. 571 p. 154 - 161
Resumen:
Sunlight fuels marine primary production. Light reaching the seafloor sustains
benthic primary production (Ackleson, 2003) that contributes to the total primary
production of coastal ecosystems and consequently to the organic matter
availability for the consumers in the system (e.g., Delesalle et al., 1993).
Benthic diatoms can retain photosynthetic capacity in the dark and even inside
sediments, thus potentially forming an important pool of primary producers,
which can resume photosynthesis if exposed to light again (Fielding et al.,
1988).
Several authors showed that total phytoplankton biomass in the South
Shetlands is very low (Brandini and Rebello, 1994). This is also the case in
Potter Cove, where the combination of mixing processes (Schloss and Ferreyra,
2002) and low water transparency due to the input of suspended particulate
matter from freshwater runoff (Klöser et al., 1993, 1994) could be responsible
for the low phytoplankton biomass (Schloss et al., 1997).
The pulses of organic matter derived from phytoplankton production in the water
column have long been considered to be one of the main sources of particulate
organic matter (POM) for zoobenthos nourishment (Barnes and Clarke, 1994;
Fabiano et al., 1997). Benthic consumers are usually dependent on productivity
in the water column. Phytoplankton, and especially diatoms, constitute an
important food source for benthic organisms such as suspension and deposit
feeders (Goddard and Hoggett, 1982). However, the low phytoplankton
production found in Potter Cove would not be sufficient to fulfil the nutritional
requirements of the high densities of benthic filter feeders (Tatián, 1999). We
therefore hypothesize that microphytobenthos biomass represents a significant
fraction of the POM pool in this environment, contributing to satisfy benthic
suspension and deposit feeders energy needs.
The aim of this paper was to investigate the temporal and spatial variability of
chlorophyll-a (Chl-a) and organic matter in surface sediments of Potter Cove
(Antarctica) in a year-round study. To address the importance of water columnderived
material for the sedimentary organic matter pool, we also analysed the
seasonal variation of pelagic total particulate matter (TPM), suspended POM,
Chl-a, as well as light penetration in the water column. Fluctuations of wind
speed and direction were registered and analysed throughout the year in order
to understand their influence on the dynamics of these parameters.
speed and direction were registered and analysed throughout the year in order
to understand their influence on the dynamics of these parameters.et al., 1993).
Benthic diatoms can retain photosynthetic capacity in the dark and even inside
sediments, thus potentially forming an important pool of primary producers,
which can resume photosynthesis if exposed to light again (Fielding et al.,
1988).
Several authors showed that total phytoplankton biomass in the South
Shetlands is very low (Brandini and Rebello, 1994). This is also the case in
Potter Cove, where the combination of mixing processes (Schloss and Ferreyra,
2002) and low water transparency due to the input of suspended particulate
matter from freshwater runoff (Klöser et al., 1993, 1994) could be responsible
for the low phytoplankton biomass (Schloss et al., 1997).
The pulses of organic matter derived from phytoplankton production in the water
column have long been considered to be one of the main sources of particulate
organic matter (POM) for zoobenthos nourishment (Barnes and Clarke, 1994;
Fabiano et al., 1997). Benthic consumers are usually dependent on productivity
in the water column. Phytoplankton, and especially diatoms, constitute an
important food source for benthic organisms such as suspension and deposit
feeders (Goddard and Hoggett, 1982). However, the low phytoplankton
production found in Potter Cove would not be sufficient to fulfil the nutritional
requirements of the high densities of benthic filter feeders (Tatián, 1999). We
therefore hypothesize that microphytobenthos biomass represents a significant
fraction of the POM pool in this environment, contributing to satisfy benthic
suspension and deposit feeders energy needs.
The aim of this paper was to investigate the temporal and spatial variability of
chlorophyll-a (Chl-a) and organic matter in surface sediments of Potter Cove
(Antarctica) in a year-round study. To address the importance of water columnderived
material for the sedimentary organic matter pool, we also analysed the
seasonal variation of pelagic total particulate matter (TPM), suspended POM,
Chl-a, as well as light penetration in the water column. Fluctuations of wind
speed and direction were registered and analysed throughout the year in order
to understand their influence on the dynamics of these parameters.
speed and direction were registered and analysed throughout the year in order
to understand their influence on the dynamics of these parameters.et al.,
1988).
Several authors showed that total phytoplankton biomass in the South
Shetlands is very low (Brandini and Rebello, 1994). This is also the case in
Potter Cove, where the combination of mixing processes (Schloss and Ferreyra,
2002) and low water transparency due to the input of suspended particulate
matter from freshwater runoff (Klöser et al., 1993, 1994) could be responsible
for the low phytoplankton biomass (Schloss et al., 1997).
The pulses of organic matter derived from phytoplankton production in the water
column have long been considered to be one of the main sources of particulate
organic matter (POM) for zoobenthos nourishment (Barnes and Clarke, 1994;
Fabiano et al., 1997). Benthic consumers are usually dependent on productivity
in the water column. Phytoplankton, and especially diatoms, constitute an
important food source for benthic organisms such as suspension and deposit
feeders (Goddard and Hoggett, 1982). However, the low phytoplankton
production found in Potter Cove would not be sufficient to fulfil the nutritional
requirements of the high densities of benthic filter feeders (Tatián, 1999). We
therefore hypothesize that microphytobenthos biomass represents a significant
fraction of the POM pool in this environment, contributing to satisfy benthic
suspension and deposit feeders energy needs.
The aim of this paper was to investigate the temporal and spatial variability of
chlorophyll-a (Chl-a) and organic matter in surface sediments of Potter Cove
(Antarctica) in a year-round study. To address the importance of water columnderived
material for the sedimentary organic matter pool, we also analysed the
seasonal variation of pelagic total particulate matter (TPM), suspended POM,
Chl-a, as well as light penetration in the water column. Fluctuations of wind
speed and direction were registered and analysed throughout the year in order
to understand their influence on the dynamics of these parameters.
speed and direction were registered and analysed throughout the year in order
to understand their influence on the dynamics of these parameters.et al., 1993, 1994) could be responsible
for the low phytoplankton biomass (Schloss et al., 1997).
The pulses of organic matter derived from phytoplankton production in the water
column have long been considered to be one of the main sources of particulate
organic matter (POM) for zoobenthos nourishment (Barnes and Clarke, 1994;
Fabiano et al., 1997). Benthic consumers are usually dependent on productivity
in the water column. Phytoplankton, and especially diatoms, constitute an
important food source for benthic organisms such as suspension and deposit
feeders (Goddard and Hoggett, 1982). However, the low phytoplankton
production found in Potter Cove would not be sufficient to fulfil the nutritional
requirements of the high densities of benthic filter feeders (Tatián, 1999). We
therefore hypothesize that microphytobenthos biomass represents a significant
fraction of the POM pool in this environment, contributing to satisfy benthic
suspension and deposit feeders energy needs.
The aim of this paper was to investigate the temporal and spatial variability of
chlorophyll-a (Chl-a) and organic matter in surface sediments of Potter Cove
(Antarctica) in a year-round study. To address the importance of water columnderived
material for the sedimentary organic matter pool, we also analysed the
seasonal variation of pelagic total particulate matter (TPM), suspended POM,
Chl-a, as well as light penetration in the water column. Fluctuations of wind
speed and direction were registered and analysed throughout the year in order
to understand their influence on the dynamics of these parameters.
speed and direction were registered and analysed throughout the year in order
to understand their influence on the dynamics of these parameters.et al., 1997).
The pulses of organic matter derived from phytoplankton production in the water
column have long been considered to be one of the main sources of particulate
organic matter (POM) for zoobenthos nourishment (Barnes and Clarke, 1994;
Fabiano et al., 1997). Benthic consumers are usually dependent on productivity
in the water column. Phytoplankton, and especially diatoms, constitute an
important food source for benthic organisms such as suspension and deposit
feeders (Goddard and Hoggett, 1982). However, the low phytoplankton
production found in Potter Cove would not be sufficient to fulfil the nutritional
requirements of the high densities of benthic filter feeders (Tatián, 1999). We
therefore hypothesize that microphytobenthos biomass represents a significant
fraction of the POM pool in this environment, contributing to satisfy benthic
suspension and deposit feeders energy needs.
The aim of this paper was to investigate the temporal and spatial variability of
chlorophyll-a (Chl-a) and organic matter in surface sediments of Potter Cove
(Antarctica) in a year-round study. To address the importance of water columnderived
material for the sedimentary organic matter pool, we also analysed the
seasonal variation of pelagic total particulate matter (TPM), suspended POM,
Chl-a, as well as light penetration in the water column. Fluctuations of wind
speed and direction were registered and analysed throughout the year in order
to understand their influence on the dynamics of these parameters.
speed and direction were registered and analysed throughout the year in order
to understand their influence on the dynamics of these parameters.