Polar Biology

, Volume 7, Issue 2, pp 97–113 | Cite as

The biota and environment of fumaroles on Mt Melbourne, northern Victoria Land

  • Paul Broady
  • David Given
  • Laurence Greenfield
  • Keith Thompson


The aim of this investigation was to provide a general description of the biota and environment of fumarolic ground close to the summit (2733 m) of Mt Melbourne. Heat flow through the ground was examined and analyses made of the physico-chemical properties of the soil. Bryophyte vegetation comprisedCampylopus pyriformis (K.F. Schultz) Brid. andCephaloziella exiliflora (Tayl.) Steph. The former is a new antarctic record. These grew as scattered and confluent cushions where surface ground temperatures ranged between 14°–31°C. Algae were epiphytic on bryophytes and formed crusts over most other areas of warm ground. Six species of cyanophytes and five unicellular chlorophytes are described. The majority were mesophilic butMastigocladus laminosus showed a strong preference for soil temperatures >30°C. A loosely lichenised chlorophyte was also encountered. The only soil fauna was a testate amoeba,Corythion dibium. Heterotrophic microorganisms included thermotolerant fungi, actinomycetes and bacteria as well as typical mesophilic microflora. Nitrogen fixation, analysed using both C2H2 reduction and15N2 enrichment, occured in bryophyte cushions and surface algal crusts containingM. laminosus and in sub-surface samples lacking cyanophytes. The biota are compared with those found at other thermal localities in Antarctica and the dispersal of propagules to these areas is discussed.


C2H2 Heat Flow Soil Temperature Nitrogen Fixation Strong Preference 
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  1. Adamson RG, Cavaney RJ (1967) Volcanic debris layers near Mount Melbourne, northern Victoria Land, Antarctica. NZJ Geol Geophys 10:418–421Google Scholar
  2. Akiyama M (1968) A list of terrestrial and subterranean algae from the Ongul Islands, Antarctica. Antarct Rec 32:71–77Google Scholar
  3. Black CA, (ed) (1965) Methods of soil analysis, vols 1 and 2. American Society of Agronomy Inc, WisconsinGoogle Scholar
  4. Broady PA (1976) Six new species of terrestrial algae from Signy Island, South Orkney Islands, Antarctica. Br Phycol J 11:387–405Google Scholar
  5. Broady PA (1982) New records of chlorophycean micro-algae cultured from antarctic rerrestrial habitats. Nova Hedwigia 36:445–484Google Scholar
  6. Broady PA (1984) Taxonomic and ecological investigations of algae on steam-warmed soil on Mt Erebus, Ross Island, Antarctica. Phycologia 23:257–271Google Scholar
  7. Broady PA (1987) The morphology, distribution and ecology ofPseudococcomyxa simplex (Mainx) Fott (Chlorophyta, Chlorellaceae) a widespread terrestrial antarctic alga. Polar Biol 7:25–30Google Scholar
  8. Cameron RE, Benoit RE (1970) Microbial and ecological investigations of recent cinder cones, Deception Island, Antarctica—a preliminary report. Ecology 51:802–809Google Scholar
  9. Castenholz RW, (1972) The occurrence of the thermophilic blue-green alga,Mastigocladus laminosus, on Surtsey in 1970. Surt Res Prog Rep 6:14–19Google Scholar
  10. Castenholz RW (1973) Ecology of blue-green algae in hot springs. In: Carr NG, Whitton BA (eds) The biology of blue-green algae. Blackwell, London, pp 379–414Google Scholar
  11. Collins NJ (1969) The effects of volcanic activity on the vegetation of Deception Island. Br Antarct Surv Bull 21:79–94Google Scholar
  12. Corley MFV, Frahm J-P (1982) Taxonomy and world distribution ofCampylopus pyriformis (Schultz) Brid. J Byrol 12:187–190Google Scholar
  13. Croome RL (1973) Nitrogen fixation in the algal mats on Marion Island. S Afr J Antarct Res 3:64–67Google Scholar
  14. Davey A (1982)In situ determination of nitrogen fixation in Antarctica using a high sensitivity portable gas chromatograph. Aust J Bot 7:395–402Google Scholar
  15. Davey A (1983) Effects of abiotic factors on nitrogen fixation by bluegreen algae in Antarctica. Polar Biol 2:95–100Google Scholar
  16. Dawson GB (1964) The nature and assessment of heat flow from geothermal areas. NZJ Geol Geophys 7:155–171Google Scholar
  17. Decloitre L (1960) Thecamoebiens de la 8ème Expédition Antarctique Française. Bull Mus Nat Hist Nat Paris, Ser 2, 32:242–251Google Scholar
  18. Ellis DH (1980) Thermophilous fungi isolated from some Antarctic and sub-Antarctic soils. Mycologia 72:1033–1036Google Scholar
  19. Engelskjøn T (1981) Terrestrial vegetation of Bouvetøya: a preliminary account. Nor Polarinst Skri 175:17–28Google Scholar
  20. Fott B, Nováková M (1969) A monograph of the genusChlorella the freshwater species. In: Fott E (ed) Studies in phycology. Schweizerbart'sche Verlagsbuchhandlung, Stuttgart, pp 10–74Google Scholar
  21. Geitler L (1932) Cyanophyceae. Kryptogamen-Flora von Deutschland, Österreich und der Schweiz 14, pp 1196Google Scholar
  22. Giggenbach WF, Kyle PR, Lyon GG (1973) Present volcanic activity on Mount Erebus, Ross Island, Antarctica. Geology 1:135–136Google Scholar
  23. Given DR (1980) Vegetation on heated soils at Karapiti, central North Island, New Zealand, and its relation to ground temperature. NZJ Bot 18:1–13Google Scholar
  24. Greene SW (1967) Bryophyte distribution. In: Greene SW, Gressitt JL, Koob D, Llano GA, Rudolph ED, Singer R, Steere WC, Ugolini FC (eds) Terrestrial life of Antarctica, folio 5. Antarct Map Folio Ser. Washington, American Geophysical Society, pp 11–13Google Scholar
  25. Hirano M (1979) Freshwater alage from Yukidori Zawa, near Syowa Station, Antarctica. Mem Nat Inst Polar Res, Spec Issue 11:1–25Google Scholar
  26. Janetschek H (1963) On the terrestrial fauna of the Ross Sea area, Antarctica. Pac Insects 5:305–311Google Scholar
  27. Kappen L (1985) Vegetation and ecology of ice-free areas of northern Victoria Land, Antarctica. 1. The lichen vegetation of Birthday Ridge and an inland mountain. Polar Biol 4:213–225Google Scholar
  28. Komárek J, Fott B (1983) Chlorophyceae (Grünalgen) Ordnung: Chlorococcales. Das Phytoplankton des Süsswassers, vol 16 pp 1044Google Scholar
  29. Le Masurier WE, Rex DC (1982) Eruptive potential of volcanoes in Marie Byrd Land. Antarct J US 17:34–36Google Scholar
  30. Longton RE (1973) A classification of terrestrial vegetation near McMurdo Sound, continental Antarctica. Can J Bot 51:2339–2346Google Scholar
  31. Lonton RE, Holdgate MW (1979) The South Sandwich Islands. 4. Botany. Br Antarct Surv Sci Rep 94:53Google Scholar
  32. Lyon GL, Giggenbach WF (1974) Geothermal activity in Victoria Land, Antarctica. NZJ Geol Geophys 17:511–521Google Scholar
  33. Nathan S, Schulte FJ (1967) Recent thermal and volcanic activity on Mount Melbourne, northern Victoria Land, Antarctica. NZJ Geol Geophys 10:422–430Google Scholar
  34. Nichols HW (1973) Growth media—freshwater. In: Stein JR (ed) Handbook of phycological methods, vol 1. Culture methods and growth measurements. Cambridge University Press, Cambridge, pp 7–24Google Scholar
  35. Parker BC, Samsel GL, Prescott GW (1972) Freshwater algae of the Antarctic Peninsula. 1 Systematics and ecology in the U.S. Palmer Station area. In: Llano GA (ed) Antarct Res Ser 20, Antarctic Terrestrial Biology. American Geophysical Union, Washington DC, pp 69–81Google Scholar
  36. Prescott GW (1979) A contribution to a bibliography of Antarctic and Subantarctic algae. Bibl Phycol 45:312Google Scholar
  37. Quility P, Keage P (1985) Volcanic eruption on Heard Island. Polar Rec 22:552Google Scholar
  38. Reisigl H (1969) Bodenalgen-Studien II. Österr Bot Z 116:492–506Google Scholar
  39. Ross JC (1847) Voyage to the Southern Seas, vol 1. John Murray, LondonGoogle Scholar
  40. Scott GMA, Stone IG, Rosser C (1976) The mosses of southern Australia. Academic Press, LondonGoogle Scholar
  41. Seaburg KG, Parker BC, Prescott GW, Whitford LA (1979) The algae of southern Victorialand. A taxonomic and distributional study. Bibl Phycol 46:169Google Scholar
  42. Seppelt RD (1984) The bryoflora of the Vestfold Hills and Ingrid Christensen Coast. Antarctica. ANARE Res Notes 20:31Google Scholar
  43. Smith HG (1978) The distribution and ecology of terrestrial protozoa of sub-Antarctic and maritime Antarctic islands. Br Antarct Surv Sci Rep 95:104Google Scholar
  44. Smith HG (1985) The colonization of volcanic tephra on Deception Island by Protozoa: long-term trends. Br Antarct Surv Bull 66:19–33Google Scholar
  45. Smith RIL (1984a) Colonization and recovery by cryptogams following recent volcanic activity on Deception Island, South Shetland Islands. Br Antarct Surv Bull 62:25–51Google Scholar
  46. Smith RIL (1984b) Colonization by bryophytes following recent volcanic activity on an Antarctic island. J Hattori Bot Lab 56:53–63Google Scholar
  47. Smith RIL (1984c) Terrestrial plant biology of the sub-Antarctic and Antarctic. In: Laws RM (ed) Antarctic ecology, vol 1. Academic Press, London, pp 61–162Google Scholar
  48. Smith VR, Russell S (1982) Acetylene reduction by bryophytecyanobacteria associations on a sub-Antarctic island. Polar Biol 1:153–157Google Scholar
  49. Sudzuki M (1964) On the microfauna of the Antarctic region. 1. Mosswater community at Langhoyde. JARE Sci Rep, Ser E 19:41Google Scholar
  50. Tansey MR, Brock TD (1978) Microbial life at high temperatures: ecological aspects. In: Kushner DJ (ed) Microbial life in extreme environments. Academic Press, London, pp 159–216Google Scholar
  51. Ugolini FC (1965) Soils of Mt Erebus, Antarctica. NZJ Geol Geophys 10:431–442Google Scholar
  52. Ugolini FC, Starkey RL (1966) Soils and micro-organisms from Mt Erebus, Antarctica. Nature 211:440–441Google Scholar
  53. Walton DWH (1984) The terrestrial environment. In: Laws RM (ed) Antarctic ecology, vol 1. Academic Press, London, pp 1–60Google Scholar
  54. Watanabe S (1977) The genusChlorella (Chlorococcales) from Japanese soils (3). J Jpn Bot 52:169–178Google Scholar
  55. Young SB, Kläy JR (1971) Bryophytes in the 1969 crater of Deception Island, Antarctica: an apparent case of rapid long distance dispersal. Ohio J Sci 71:358–362Google Scholar

Copyright information

© Springer-Verlag 1987

Authors and Affiliations

  • Paul Broady
    • 1
  • David Given
    • 2
  • Laurence Greenfield
    • 1
  • Keith Thompson
    • 3
  1. 1.Department of Plant and Microbial SciencesUniversity of CanterburyChristchurch 1New Zealand
  2. 2.Botany DivisionDepartment of Scientific and Industrial ResearchCanterburyNew Zealand
  3. 3.Department of Biological SciencesUniversity of WaikatoHamiltonNew Zealand

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