Summary
Measurements of hydrographic parameters (temperature, salinity, nitrate, nitrite, phosphate, chlorophyll a, phaeophytin, and oxygen) in McMurdo Sound, Antarctica during spring, 1984, before the regional phytoplankton bloom, and summer, 1984, after the peak of the bloom, indicate the several processes contribute to changes in the vertical and horizontal structure of the water column. Regional variation in the source of water masses within the Sound, ice cover patterns, and meltwater from the Ross Ice Shelf and nearby continental glaciers result in east-west and north-south gradients in the thermohaline, nutrient, and productivity characteristics of the Sound. These patterns are also related to the extremely variable structure and productivity of shallow water benthic macrofaunal communities in McMurdo Sound. Hydrographic patterns during Spring (November) were indicative of conditions at the end of winter prior to the spring phytoplankton bloom. The water column was nearly isothermal with temperatures near or below the surface freezing point of seawater with only a slight salinity increase with depth. Salinity was lower in the west Sound than in the east, probably in response to glacial meltwater input from the Ross Ice Shelf and/or terrestrial sources. Nutrient levels were high and nearly homogenous throughout the Sound. Chlorophyll a was low (<1.0 μg/l) throughout most of the Sound, but was lowest in the western sound, as expected from the circulation pattern (Barry and Dayton 1988). Oxygen was uniformly low during spring. The summer hydrographic distributions, estimated from samples collected during the decline of the regional plankton bloom, were dramatically different than in during spring. Both the salinity and temperature were vertically stratified at all sites, particularly in the west Sound. Temperatures near the surface were well above the freezing point and occasionally near or above 0°C. Near surface salinity in the western Sound was nearly fresh (0.4 ppt) at some locations in the southwestern Sound. Chlorophyll a was high throughout the Sound relative to spring concentrations, and nutrient levels (NO3, PO4) were strongly depressed near the surface, due mainly to phytoplankton uptake rather than by dilution. Primary productivity estimates based on the summer nitrate and phosphate deficits over 90 days were 1.96–2.02 and 0.39–1.02 gCm-2d-1 for the east and west sound, respectively. Nutrient ratios indicated that glacial meltwater from the Ross Ice Shelf and/or nearby terrestrial sources may be an important component of the summer meltwater input to the western Sound. Enhanced water column stability due to this input may prolong the maintenance of high water column stability as this water mass flows northward and result in particularly high productivity in northern McMurdo Sound.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Amos AF (1978) Green iceberg sampled in the Weddell Sea. Antarct J US 13:63–64
Barry JP, Dayton PK (1988) Current patterns in McMurdo Sound, Antarctica and their implications for productivity of local benthic communities. Polar Biol 8:367–376
Berkman PA, Marks DS, Shreve GP (1986) Winter sediment resuspension in McMurdo Sound, Antarctica, and its ecological implications. Prolar Biol 6:1–3
Biggs DC (1978) Matters arising. Non-biogenic fixed nitrogen in Antarctic surface waters. Nature 276:96–97
Bunt JS (1964a) Primary productivity under sea ice in Antarctic waters. 1. Concentrations and photosynthetic activities of microalgae in the waters of McMurdo Sound, Antarctica. Antarct Res Ser 1:13–26
Bunt JS (1964b) Primary productivity under sea ice in Antarctic waters. 2. Influence of light and other factors on photosynthetic activities of Antarctic marine microalgae Antarct Res Ser 1:27–32
Bunt JS, Lee CC (1970) Seasonal primary production in Antarctic sea ice at McMurdo Sound in 1967. J Mar Res 28:304–320
Clarke DB, Ackley SF (1984) Sea Ice structure and biological activity in the Antarctic marginal ice zone. J Geophys Union 89:2087–2095
Crary AP, Robinson ES, Bennett HF, Boyd WW Jr (1962) Glaciological studies of the Ross Ice Shelf, Antarctica 1957–1960. IGY Glaciological Rep Ser 6 (New York), pp 193
Dayton PK, Oliver JS (1977) Antarctic soft bottom benthos in oligotrophic and eutrophic environments. Science 197:55–58
Dayton PK, Watson D, Palmisano A, Barry JP, Oliver JS, Rivera D (1986) Distribution patterns of benthic microalgal standing stock at McMurdo Sound, Antarctica. Polar Biol 6:207–213
Debenham F (1965) The genesis of the McMurdo Ice Shelf, Antarctica. Glaciol 5:829–832
DeLaca TE, Lipps JH, Hessler RR (1980) The morphology and ecology of a new large agglutinated Antarctic foraminifer (Textulariina: Notodendrodidae nov.) Zool Linn Soc 69:205–224
Dieckmann G, Rohardt G, Hellmer H, Kipfstuhl J (1986) The occurrence of ice platelets at 250 m depth near the Filchner Ice Shelf and its significance for sea ice biology. Deep-Sea Res 33:141–148
El-Sayed SZ, Mandelli EF (1965) Primary production and standing crop of phytoplankton in the Weddell Sea and Drake Passage. Antarct Res Ser 5:87–106
El-Sayed SZ, Taguchi S (1981) Primary production and standing crop of phytoplankton along the ice edge in the Weddell Sea. Deep-Sea Res 28:1017–1032
Fofonoff NP, Millard RC Jr (1983) UNESCO technical papers in marine science 44. Algorithms for computation of fundamental properties of seawater, pp 53
Fraser WR, Ainley DG (1986) Ice edges and seabird occurence in Antarctica. BioScience 36:258–263
Gow AJ, Weeks WF, Hendrickson G, Rowland R (1965) New light on the mode of uplift of the fish and fossiliferous moraines of the McMurdo Ice Shelf, Antarctica. J Glaciol 5:813–828
Gow AJ, Ackley SF, Weeks WF, Govoni JW (1982) Physical and structural characteristics of Antarctic sea ice. Ann Glaciol 3:113–117
Heath RA (1977) Circulation across the Ice Shelf Edge in McMurdo Sound, Antarctica. In: Dunbar MJ (ed) Polar oceans. Proc Polar Oceans Conf, pp 129–149
Hodson RE, Azam F, Carlucci AF, Fuhrman JA, Karl DM, Holm-Hansen O (1981) Microbial uptake of dissolved organic matter in McMurdo Sound, Antarctica. Mar Biol 61:89–94
Holm-Hansen O (1985) Nutrient cycles in Antarctic marine ecosystems. In: Siegfried WR, Condy PR, Laws RM (eds) Antarctic nutrient cylces and food webs, pp 6–10
Horner R, Schrader GC (1982) Relative contributions of ice algae, phytoplankton, and benthic microalgae to primary production in nearshore regions of the Beaufort Sea. Arctic 35:485–503
Horrigan SG (1981) Primary production under the Ross Ice Shelf, Antarctica. Limnol Oceanogr 26:378–382
Jacobs SS, Haines WE (1982) Ross Ice Shelf project: Oceanographic data in the Ross Sea and along George V Coast, 1976–1979. Lamont-Doherty Geological Observatory of Columbia University. Palisades, New York, pp 505
Jacobs SS, Amos AF, Bruchhausen PM (1970) Ross Sea oceanography and Antarctic bottom water formation. Deep-Sea Res 17:935–962
Jacobs SS, Gordon AL, Ardai JL Jr (1979 a) Circulation and melting beneath the Ross Ice Shelf. Science 203:439–443
Jacobs SS, Gordon AL, Amos AF (1976 b) Effect of glacial ice melting on the Antarctic burface water. Nature 277:469–471
Jacobs SS, Fairbanks RG, Horibe Y (1985) Origin and evolution of water masses near the Antarctic Continental margin: Evidence from H2 18O/H2 16O ratios in Seawater. Antarct Res Ser 43:59–86
Jennings JC Jr, Gordon LI, Nelson DM (1984) Nutrient depletion indicates high primary productivity in the Weddell Sea. Nature 309:51–54
Knox GA, Waghorn EJ, Ensor PH (in press) Summer plankton beneath the McMurdo Ice Shelf at White Island, McMurdo Sound, Antarctica. NZJ Mar Freshwater Res
Kurtz DD, Bromwich DH (1985) A recurring, atmospherically forced polynya in Terra Nova Bay. Antarct Res Ser 43:177–202
Leventer A, Dunbar RB (1986) Diatom flux in McMurdo Sound, Antarctica. Mar Micropaleontol 12:49–64
Lewis EL, Perkin RG (1985) The winter oceanography of McMurdo Sound, Antarctica. Antarct Res Ser 43:145–166
Littlepage JL (1965) Oceanographic investigations in McMurdo Sound, Antarctica. Antarct Res Ser 2:1–38
MacAyeal DR (1985) Tidal rectification below the Ross Ice Shelf, Antarctica. Antarct Res Ser 43:109–132
Michel RL, Linick TW, Williams PM (1979) Tritium and Carbon-14 distributions in Seawater from under the RISP 1977–78 hole. Science 203:445–446
Neal CS (1979) The dynamics of the Ross Ice Shelf revealed by radio echo-Sounding. J Glaciol 24:295–307
Nelson DM, Smith WO Jr (1986) Phytoplankton bloom dynamics of the western Ross Sea ice edge. II. Mesoscale cylcing of nitrogen and silicon. Deep-Sea Res 33:1389–1412
Palmisano AC, Sullivan CW (1983) Sea Ice microbial communities (SIMCO). 1. Distribution, abundance, and primary production of ice microalgae in McMurdo Sound, Antarctica in 1980. Polar Biol 2:171–177
Palmisano AC, Soohoo JB, Soohoo SL, Kottmeier ST, Craft LL, Sullivan CW (1986) Photoadaptations in Phaeocystis pouchetii advected beneath annual sea ice in McMurdo Sound, Antarctica J Plankton Res 8:891–906
Parker BC, Heiskell LE, Thompson WJ, Zeller EJ (1978) Non-biogenic fixed nitrogen in Antarctica and some ecological implications. Nature 271:651–652
Pyne AR, Ward BL, Macpherson AJ, Barrett PJ (1985) McMurdo Sound Bathymetry, 1:250000. New Zealand Oceanographic Inst Chart, Miscellaneous Ser No 62
Shulenberger E (1983) Water-column studies near a melting Arctic iceberg. Polar Biol 2:149–158
Smith WO, Nelson DM (1985) Phytoplankton bloom produced by a receding ice edge in the Ross Sea: Spatial coherence with the density field. Science 227:163–166
Smith WO, Nelson DM (1986) Importance of ice edge phytoplankton production in the Southern Ocean. BioScience 36:251–257
Strickland JDH, Parsons TR (1972) A practical handbook of seawater analysis. Fish Res Board Can, pp 310
Sverdrup HU (1953) On conditions for the vernal blooming of phytoplankton. J Cons, Cons Int Explor Mer 18:287–295
Tressler, WL, Ommundsen AM (1962) Seasonal oceanographic studies in McMurdo Sound, Antarctica. USN Hydrographic Office Technical Report 125
Wilson DL, Smith WO Jr, Nelson DM (1986) Phytoplankton bloom dynamics of the western Ross Sea ice edge. I. Primary productivity and species-specific production. Deep-Sea Res 33:1357–1387
Zwally JH, Comiso JC, Gordon AL (1985) Antarctic offshore leads and polynyas and oceanographic effects. Antarct Res Ser 43:203–226
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Barry, J.P. Hydrographic patterns in McMurdo Sound, Antarctica and their relationship to local benthic communities. Polar Biol 8, 377–391 (1988). https://doi.org/10.1007/BF00442029
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00442029