BENTHIC FORAMINIFERAL ASSEMBLAGE ANALYSIS AS PART OF THE LARISSA PROJECT FOR BARILARI BAY, WESTERN ANTARCTIC PENINSULA

Verbanaz, Ryan

01 August 2013

This study used Jumbo Piston Core 126, collected from the Nathaniel B. Palmer during cruise NBP10-01, to investigate environmental variability in Barilari Bay, western Antarctic Peninsula as part of the LARsen Ice Shelf System, Antarctica (LARISSA) project. A total of 107 samples were collected every 20cm from a 21.42m sediment core. Benthic foraminiferal data from Jumbo Piston Core 126 was analyzed using Principal Component (PC), Canonical Correspondence Analysis (CCA), and cluster analyses to assist in the Holocene oceanographic and climatic interpretation of Barilari Bay. The first three principal components explain 79.5% of the variance in the foraminiferal abundance data. PC1 comprises 49.6% of the variance and represents the Bulimina aculeata assemblage. PC2 and PC3 explain 16.3% and 13.6% of the variance and characterize the Fursenkoina fusiformis and Pseudobolivina antarctica assemblages, respectively. F. fusiformis assemblage represents the presence of a less saline water mass associated with ice shelf decay. The agglutinated P. antarctica assemblage is indicative of Hyper Saline Shelf Water (HSSW). TheB. aculeata assemblage is associated with Upper Circumpolar Deep Water (UCDW) (Ishman and Domack, 1994) Sediments from ~1100-950 calibrated years Before Present (cal. yr BP) are characterized by theB. aculeata assemblage, indicating the presence of UCDW. At ~950 cal. yr BP the UCDW receded coincident with glacial conditions observed during what is interpreted as the Little Ice Age. The ~950-350 cal. yr BP interval represents glacial conditions interpreted from the high PC scores of the P. antarctica assemblage and low foraminiferal abundances due to HSSW and a high sedimentation rate from glacial runoff. Intermittent pulses of UCDW are observed in the 950-350 cal. yr BP interval, expressed by the PC peaks in the B. aculeata assemblage. Between ~300 and 100 cal. yr BP the middle of the fjord was dominated by the F. fusiformis assemblage, suggesting ice shelf decay and open marine conditions. At ~50 cal. yr BP UCDW progressed back into Barilari Bay and is currently the dominant water mass.

Benthic Foraminifera

Glacial history

Holocene

Paleoceanography

Paleoclimatology

Western Antarctic Peninsula

Phytoplankton ecology and biogeochemistry of the warming Antarctic sea-ice zone

Annett, Amber

January 2013

Marine productivity along the western Antarctic Peninsula (WAP) is declining. The WAP is site of the fastest regional warming in the southern hemisphere, and has experienced atmospheric and oceanic temperature increases leading to increased glacial inputs and reduced winter sea-ice cover. Sea-ice is a key link between climate and phytoplankton production, as melting sea-ice stratifies the water column and provides a source of micronutrients to surface waters. Reductions in ice cover have been accompanied by declining chlorophyll (chl; a proxy for phytoplankton biomass), and a shift to smaller cell sizes in phytoplankton communities. These reductions have implications for carbon drawdown and production available to higher trophic levels. However, little is known about phytoplankton shifts at the community level, as existing studies are based on satellite records and photosynthetic pigment analyses. To elucidate the nature of the changes within phytoplankton assemblages, high-resolution time-series data of diatom speciation are coupled to environmental data from five years in Ryder Bay (Adelaide Island, WAP). Long-term monitoring at this site by the British Antarctic Survey has identified a strong relationship between chl and water column stratification, and this study spans a wide range of physical conditions and biological production. By comparing high- and low-chl phytoplankton assemblages, this study investigates the mechanisms underlying productivity changes and the manner in which these changes impact nutrient cycling, drawdown and trophic transfer. The results presented here are the first full season in-situ records documenting differences in phytoplankton and diatom assemblages between highand low-chl years. The primary difference between chl conditions is a dramatic decline in diatom abundance. This analysis indicates that the mechanism producing low-chl seasons is less stratified surface waters, where light levels are much more variable than in high-chl years. Overall production is reduced, and small increases are seen in biomass of prymnesiophytes, which are better adapted to variable light. These shifts in phytoplankton composition and size structure are consistent with a southward propagation of observed climate change effects. Within the diatom community, changes in seasonal succession and a decrease in species richness occurred following low winter sea-ice. As the main component of high productivity and that most efficiently transferred to higher trophic levels, variation in diatom production due to environmental conditions is a mechanism to explain the observed WAP ecosystem changes and chl decline. Changes in phytoplankton stocks and composition also affect nutrient use, and here the use of silicon and iron (Si and Fe, respectively, which limit productivity in large areas of the Southern Ocean) is investigated. Seasonal Si budgets estimated from Si isotopes indicate a 40 – 70% decline in Si use between high-chl and intermediate-chl years, in agreement with other indices of productivity. The consequences of reduced demand and changing supply suggest future accumulation of Si in WAP surface waters. This should increase Si export away from the WAP shelf, which may act as a mechanism to enhance productivity and carbon drawdown in the wider Southern Ocean. Sources of Fe were assessed by direct measurement and naturally occurring radioisotopes of radium. These reveal significant inputs at the surface (due to glacial sources) and to deep waters (from shelf/slope sediments), which dominate supply to the surface mixed layer at different times. Iron availability and nutrient drawdown indicate that Fe is supplied to WAP surface waters in excess of biological demand. Projected changes to Fe sources and sinks indicate that continued warming will increase the WAP Fe inventory. As for Si, this excess Fe may also be advected away from the shelf, making this region a net Fe source to the Southern Ocean.

579.8

Retração das geleiras Drummond e Widdowson em respostas às recentes mudanças ambientais na Península Antártica (1957-2016) seus espaços e agentes

Simões, Carolina Lorenz

January 2017

Este trabalho investiga a dinâmica de retração frontal de duas geleiras de maré, Drummond (66°40'S, 65°43'O) e Widdowson (66°43'S, 65°46'O), na costa ocidental da Península Antártica. O estudo usou fotografias aéreas e imagens satelitais LANDSAT (a partir de 1986) para determinar a variação de área dessas geleiras no período 1957–2015 e analisar a sensibilidade às recentes mudanças ambientais na Península Antártica. O modelo digital de elevação AsterGDEM2 foi usado para caracterizar a morfologia e morfometria da bacia de drenagem dessas massas de gelo. A análise estatística dos dados de temperatura média anual da Estação Vernadsky (65°14’ S, 64°15’ O) mostra tendência ao aquecimento atmosférico no período 1950–2015 (0,047°C ano-1) nesta parte da Península Antártica ocidental. As frentes das duas geleiras retraíram ao longo dos últimos 68 anos, no entanto a geleira Widdowson apresentou uma perda maior (36,03 km2, ou 16,81% da área original) e uma linha de neve mais elevada (200 m a.n.m. em 2016) do que a geleira Drummond (18,84 km2, ou 4,26% da área original; linha de neve a 100 m a.n.m. em 2016) no período. Essa diferença na retração da duas geleiras, lado a lado e com a mesma orientação de fluxo do gelo, são atribuídas as diferentes declividades da superfície e proporção da área de acumulação sobre a área total. A geleira de menor área, Widdowson, somente atingiu um ponto de estabilização (apoiada ao embasamento rochoso lateral) em 2001, enquanto a frente da Drummond estabilizou-se em 1974. Além disso, a geleira Widdowson é mais íngreme no setor frontal, o que pode ter influenciado na taxa de desprendimento de icebergs e gerado um deslizamento basal mais eficiente, aumentando a velocidade de fluxo do gelo e, por consequência, aumentando as taxas de retração. Esses resultados condizem com estudos para outras geleiras de descarga com frentes flutuantes na Península Antártica, as quais são mais sensíveis às mudanças climáticas. A dinâmica dessas geleiras também é influenciada por mudanças nas forçantes oceânicas, taxas de precipitação, derretimento superficial e morfologias diferentes do embasamento rochoso; esses pontos devem ser tratados em trabalhos futuros. Como subproduto desta investigação, foi gerado um banco de dados em SIG para a continuidade do monitoramento das duas geleiras. / This work investigates the ice front retreat dynamics of two tidewater glaciers, Drummond (66°40'S, 65°43'W) and Widdowson (66°43'S, 65°46'W), on the western coast of the Antarctic Peninsula, associated with environmental changes in the last six decades. The study uses aerial photographs and LANDSAT satellite images (from 1986 onwards) to determine these glaciers area variations in the period 1957–2015 and to analyze their sensitivity to recent environmental changes in the Antarctic Peninsula. The digital elevation model ASTERDEM2 was edited by a routine to characterize the morphology and the morphometry of the drainage basins of these ice masses. The statistical analysis of the updated mean annual temperature data from the Faraday/Vernadsky station (65°14’ S, 64°15’ W) shows a trend towards regional atmospheric warming in the period 1950–2015 (0.047°C year-1) in this part of the West Antarctic Peninsula. The ice fronts of these two glaciers have retreated for the last 68 years, however, the Widdowson Glacier had a more significant loss (36.03 km² or 16.81% of the original area) and a higher snow line elevation (200 m a.s.l. in 2016) than the Drummond Glacier (18.84 km2, or 4.26% of the original area; snow line at 90 m a.s.l. in 2016) in the period. This retreat difference of the two glaciers, side by side and with the same ice flow orientation is attributed to different surface slopes and accumulation area proportion over the total area. The smaller area glacier, Widdowson, has shown to be more sensitive to environmental changes and only reached a stabilization point (supported to the lateral bedrock) in 2001, while the Drummond front stabilized in 1974. In addition, the Widdowson glacier is steeper in the frontal sector, which may have influenced on the calving rate and generate a more efficient basal slip, increasing the ice flow rate and, consequently, increasing the retraction rate. These results are consistent with studies for other floating outlet glaciers with calving in the Antarctic Peninsula, which are more sensitive to climate change. The dynamics of these glaciers is also influenced by changes in ocean forcing, precipitation rates, surface melting and bedrock morphology; these points should be investigated in future works. As a by-product of this research, a GIS database wasgenerated for a continuous monitoring of the two glaciers.

Geleiras

Sensoriamento remoto

Antártica, Península (Antártica)

Outlet glacier

Ice front retreat

Western antarctic peninsula

Climate change

Remote sensing of the cryosphere

Gradients in Season, Latitude, and Sea Ice: Their Effect on Metabolism and Stable Isotopic Composition of Antarctic Micronekton

Ombres, Erica H.

01 January 2013

Respiration, metabolic enzyme assays, and body composition parameters were measured in the Antarctic krill Euphausia superba during the summer, fall and winter on the Western Antarctic Peninsula (WAP). E. superba of all sizes decrease their metabolism from the summer to the winter. These same parameters were also measured along the WAP during the austral fall 2010. E. superba's enzyme activity indicated that there was a latitudinal gradient to the decline in metabolism along the WAP with the more northerly sites having significantly higher metabolic enzyme activities than the sites to the south. Carbon (δ13C) and nitrogen (δ15N) stable isotopes were measured in E. superba along the WAP to determine if there were any latitudinal trends. δ13C showed a significant trend with latitude with more depleted δ13C values in the southern portion of the WAP. Carbon (δ13C) and nitrogen (δ15N) stable isotopes were also measured in two important prey fishes along the WAP, the silverfish Pleuragramma antarcticum and the myctophid Electrona antarctica. P. antarcticum had a more variable and more enriched δ13C value than E. antarctica indicative of P. antarcticum's more neritic habitat. There were no significant differences between the δ15N values of the two fish, indicating that although they feed in different areas they were feeding at the same trophic level. Carbon (δ13C) and nitrogen (δ15N) stable isotopes were measured in twenty species in the marginal ice zone (MIZ) of the Weddell Sea at the beginning of the austral summer. Samples were taken from under the ice, at the ice edge and in the open ocean. A significant trend in the δ13C values of all species was found with the under-ice δ13C values being more depleted than those in the open ocean. This is most likely due to the reduced atmospheric exchange of CO2, upwelled water with depleted δ13C values, and continuous biological respiration under the ice, all of which contribute to very depleted δ13C values. δ15N values were significantly lower in the open ocean than the other ice conditions due to the increased reliance on primary production. The diapausing copepods Calanoides acutus and Rhincalanus gigas showed similar patterns in their isotopic signatures across the ice zones. Cluster analysis revealed trophic shifts between the different ice zones. The ice edge zone proved to contain the most species and was the best habitat for most species. The trophic shifts observed within species in the differing ice conditions mimicked the seasonal changes they undergo during the course of the productive season every year.

Electrona antarctica

Euphausia superba

Pleuragramma antarcticum

Southern Ocean

Western Antarctic Peninsula

Ecology and Evolutionary Biology

Physiology

Retração das geleiras Drummond e Widdowson em respostas às recentes mudanças ambientais na Península Antártica (1957-2016) seus espaços e agentes

Simões, Carolina Lorenz

January 2017

Este trabalho investiga a dinâmica de retração frontal de duas geleiras de maré, Drummond (66°40'S, 65°43'O) e Widdowson (66°43'S, 65°46'O), na costa ocidental da Península Antártica. O estudo usou fotografias aéreas e imagens satelitais LANDSAT (a partir de 1986) para determinar a variação de área dessas geleiras no período 1957–2015 e analisar a sensibilidade às recentes mudanças ambientais na Península Antártica. O modelo digital de elevação AsterGDEM2 foi usado para caracterizar a morfologia e morfometria da bacia de drenagem dessas massas de gelo. A análise estatística dos dados de temperatura média anual da Estação Vernadsky (65°14’ S, 64°15’ O) mostra tendência ao aquecimento atmosférico no período 1950–2015 (0,047°C ano-1) nesta parte da Península Antártica ocidental. As frentes das duas geleiras retraíram ao longo dos últimos 68 anos, no entanto a geleira Widdowson apresentou uma perda maior (36,03 km2, ou 16,81% da área original) e uma linha de neve mais elevada (200 m a.n.m. em 2016) do que a geleira Drummond (18,84 km2, ou 4,26% da área original; linha de neve a 100 m a.n.m. em 2016) no período. Essa diferença na retração da duas geleiras, lado a lado e com a mesma orientação de fluxo do gelo, são atribuídas as diferentes declividades da superfície e proporção da área de acumulação sobre a área total. A geleira de menor área, Widdowson, somente atingiu um ponto de estabilização (apoiada ao embasamento rochoso lateral) em 2001, enquanto a frente da Drummond estabilizou-se em 1974. Além disso, a geleira Widdowson é mais íngreme no setor frontal, o que pode ter influenciado na taxa de desprendimento de icebergs e gerado um deslizamento basal mais eficiente, aumentando a velocidade de fluxo do gelo e, por consequência, aumentando as taxas de retração. Esses resultados condizem com estudos para outras geleiras de descarga com frentes flutuantes na Península Antártica, as quais são mais sensíveis às mudanças climáticas. A dinâmica dessas geleiras também é influenciada por mudanças nas forçantes oceânicas, taxas de precipitação, derretimento superficial e morfologias diferentes do embasamento rochoso; esses pontos devem ser tratados em trabalhos futuros. Como subproduto desta investigação, foi gerado um banco de dados em SIG para a continuidade do monitoramento das duas geleiras. / This work investigates the ice front retreat dynamics of two tidewater glaciers, Drummond (66°40'S, 65°43'W) and Widdowson (66°43'S, 65°46'W), on the western coast of the Antarctic Peninsula, associated with environmental changes in the last six decades. The study uses aerial photographs and LANDSAT satellite images (from 1986 onwards) to determine these glaciers area variations in the period 1957–2015 and to analyze their sensitivity to recent environmental changes in the Antarctic Peninsula. The digital elevation model ASTERDEM2 was edited by a routine to characterize the morphology and the morphometry of the drainage basins of these ice masses. The statistical analysis of the updated mean annual temperature data from the Faraday/Vernadsky station (65°14’ S, 64°15’ W) shows a trend towards regional atmospheric warming in the period 1950–2015 (0.047°C year-1) in this part of the West Antarctic Peninsula. The ice fronts of these two glaciers have retreated for the last 68 years, however, the Widdowson Glacier had a more significant loss (36.03 km² or 16.81% of the original area) and a higher snow line elevation (200 m a.s.l. in 2016) than the Drummond Glacier (18.84 km2, or 4.26% of the original area; snow line at 90 m a.s.l. in 2016) in the period. This retreat difference of the two glaciers, side by side and with the same ice flow orientation is attributed to different surface slopes and accumulation area proportion over the total area. The smaller area glacier, Widdowson, has shown to be more sensitive to environmental changes and only reached a stabilization point (supported to the lateral bedrock) in 2001, while the Drummond front stabilized in 1974. In addition, the Widdowson glacier is steeper in the frontal sector, which may have influenced on the calving rate and generate a more efficient basal slip, increasing the ice flow rate and, consequently, increasing the retraction rate. These results are consistent with studies for other floating outlet glaciers with calving in the Antarctic Peninsula, which are more sensitive to climate change. The dynamics of these glaciers is also influenced by changes in ocean forcing, precipitation rates, surface melting and bedrock morphology; these points should be investigated in future works. As a by-product of this research, a GIS database wasgenerated for a continuous monitoring of the two glaciers.

Geleiras

Sensoriamento remoto

Antártica, Península (Antártica)

Outlet glacier

Ice front retreat

Western antarctic peninsula

Climate change

Remote sensing of the cryosphere

Retração das geleiras Drummond e Widdowson em respostas às recentes mudanças ambientais na Península Antártica (1957-2016) seus espaços e agentes

Simões, Carolina Lorenz

January 2017

Este trabalho investiga a dinâmica de retração frontal de duas geleiras de maré, Drummond (66°40'S, 65°43'O) e Widdowson (66°43'S, 65°46'O), na costa ocidental da Península Antártica. O estudo usou fotografias aéreas e imagens satelitais LANDSAT (a partir de 1986) para determinar a variação de área dessas geleiras no período 1957–2015 e analisar a sensibilidade às recentes mudanças ambientais na Península Antártica. O modelo digital de elevação AsterGDEM2 foi usado para caracterizar a morfologia e morfometria da bacia de drenagem dessas massas de gelo. A análise estatística dos dados de temperatura média anual da Estação Vernadsky (65°14’ S, 64°15’ O) mostra tendência ao aquecimento atmosférico no período 1950–2015 (0,047°C ano-1) nesta parte da Península Antártica ocidental. As frentes das duas geleiras retraíram ao longo dos últimos 68 anos, no entanto a geleira Widdowson apresentou uma perda maior (36,03 km2, ou 16,81% da área original) e uma linha de neve mais elevada (200 m a.n.m. em 2016) do que a geleira Drummond (18,84 km2, ou 4,26% da área original; linha de neve a 100 m a.n.m. em 2016) no período. Essa diferença na retração da duas geleiras, lado a lado e com a mesma orientação de fluxo do gelo, são atribuídas as diferentes declividades da superfície e proporção da área de acumulação sobre a área total. A geleira de menor área, Widdowson, somente atingiu um ponto de estabilização (apoiada ao embasamento rochoso lateral) em 2001, enquanto a frente da Drummond estabilizou-se em 1974. Além disso, a geleira Widdowson é mais íngreme no setor frontal, o que pode ter influenciado na taxa de desprendimento de icebergs e gerado um deslizamento basal mais eficiente, aumentando a velocidade de fluxo do gelo e, por consequência, aumentando as taxas de retração. Esses resultados condizem com estudos para outras geleiras de descarga com frentes flutuantes na Península Antártica, as quais são mais sensíveis às mudanças climáticas. A dinâmica dessas geleiras também é influenciada por mudanças nas forçantes oceânicas, taxas de precipitação, derretimento superficial e morfologias diferentes do embasamento rochoso; esses pontos devem ser tratados em trabalhos futuros. Como subproduto desta investigação, foi gerado um banco de dados em SIG para a continuidade do monitoramento das duas geleiras. / This work investigates the ice front retreat dynamics of two tidewater glaciers, Drummond (66°40'S, 65°43'W) and Widdowson (66°43'S, 65°46'W), on the western coast of the Antarctic Peninsula, associated with environmental changes in the last six decades. The study uses aerial photographs and LANDSAT satellite images (from 1986 onwards) to determine these glaciers area variations in the period 1957–2015 and to analyze their sensitivity to recent environmental changes in the Antarctic Peninsula. The digital elevation model ASTERDEM2 was edited by a routine to characterize the morphology and the morphometry of the drainage basins of these ice masses. The statistical analysis of the updated mean annual temperature data from the Faraday/Vernadsky station (65°14’ S, 64°15’ W) shows a trend towards regional atmospheric warming in the period 1950–2015 (0.047°C year-1) in this part of the West Antarctic Peninsula. The ice fronts of these two glaciers have retreated for the last 68 years, however, the Widdowson Glacier had a more significant loss (36.03 km² or 16.81% of the original area) and a higher snow line elevation (200 m a.s.l. in 2016) than the Drummond Glacier (18.84 km2, or 4.26% of the original area; snow line at 90 m a.s.l. in 2016) in the period. This retreat difference of the two glaciers, side by side and with the same ice flow orientation is attributed to different surface slopes and accumulation area proportion over the total area. The smaller area glacier, Widdowson, has shown to be more sensitive to environmental changes and only reached a stabilization point (supported to the lateral bedrock) in 2001, while the Drummond front stabilized in 1974. In addition, the Widdowson glacier is steeper in the frontal sector, which may have influenced on the calving rate and generate a more efficient basal slip, increasing the ice flow rate and, consequently, increasing the retraction rate. These results are consistent with studies for other floating outlet glaciers with calving in the Antarctic Peninsula, which are more sensitive to climate change. The dynamics of these glaciers is also influenced by changes in ocean forcing, precipitation rates, surface melting and bedrock morphology; these points should be investigated in future works. As a by-product of this research, a GIS database wasgenerated for a continuous monitoring of the two glaciers.

Geleiras

Sensoriamento remoto

Antártica, Península (Antártica)

Outlet glacier

Ice front retreat

Western antarctic peninsula

Climate change

Remote sensing of the cryosphere