Abstract
Antarctic terrestrial biota are generally limited by the inexorably linked environmental factors of low summer temperature and lack of available water. However, in parts of the Antarctic, both these factors are changing rapidly on contemporary timescales. Terrestrial biota have concurrently been faced with changes in the timing of UV-B maxima associated with spring ozone depletion. The region of the Antarctic Peninsula and Scotia Arc has experienced one of the most rapid rates of environmental warming seen worldwide over the last 30–50 years. Together with local changes in precipitation, this has resulted in a rapid reduction in extent and thinning of many ice-fields and glaciers, exposing new terrain for colonisation while, at the same time, altering patterns of water availability in terrestrial habitats. The rapid development of communities on newly-exposed ground is also facilitated by the existence of soil propagule banks, which contain propagules of both local and exotic origin. In this paper we collate and review evidence from a range of observational and manipulative studies that investigate the effect of climate change, especially increased temperature, on the processes of colonisation and subsequent community development by plants in the Antarctic. Biological changes that have been associated with climate change are visible in the form of expansions in range and local population numbers amongst elements of the flora. Environmental manipulation experiments further demonstrate the possibility of large and rapid species and community responses to climate amelioration, with many resident biota responding positively, at least in the absence of increased competition from exotic colonists. Manipulation studies are also starting to elucidate more subtle responses to climate changes, at levels ranging from cell biochemistry to habitat and food web structure. Integrating such subtle responses is vital to improving our ability to understand the consequences of climate change, as these may lead to much greater consequential impacts on communities and ecosystems.
This is a preview of subscription content, log in via an institution to check access.
References
Adamson, H. and Adamson, E. 1992. Possible effects of global climate change on Antarctic terrestrial vegetation. In: Impact of Climate Change on Antarctica–Australia. Australian Government Publishing Service, Canberra, pp. 52–62.
D.J. Allen S. Nogués N.R. Baker (1998) ArticleTitleOzone depletion and increased UV-B radiation: is there a real threat to photosynthesis? J. Exp. Bot. 49 1775–1788 Occurrence Handle1:CAS:528:DyaK1cXnsFCmsr4%3D Occurrence Handle10.1093/jexbot/49.328.1775
R. Bargagli P.A. Broady D.W.H. Walton (1996) ArticleTitlePreliminary investigation of the thermal biosystem of Mount Rittmann fumaroles (northern Victoria Land, Antarctica) Antarct. Sci. 8 121–126
C.J. Barrow (1978) ArticleTitlePostglacial pollen diagrams from South Georgia (sub-Antarctic) and West Falkland Island (South Atlantic) J. Biogeog. 5 251–274
D.M. Bergstrom S.L. Chown (1999) ArticleTitleLife at the front: history, ecology and change on southern ocean islands Trends Ecol. Evol. 14 472–476 Occurrence Handle10542453 Occurrence Handle10.1016/S0169-5347(99)01688-2
W. Block (1984) Terrestrial microbiology, invertebrates and ecosystems R.M. Laws (Eds) Antarctic Ecology vol 1. Academic Press London 163–236
W. Block (1996) ArticleTitleCold or drought – the lesser of two evils for terrestrial arthropods? Eur. J. Entomol. 93 325–339
Budd W.F. and Simmonds I. 1991. The impact of global warming on the Antarctic mass balance and global sea level. In: Weller G., Wilson C.L. and Severin B.A.B. (eds), Proceedings of the International Conference on the Role of Polar regions in Global Change.
M.M. Caldwell S.D. Flint (1994) ArticleTitleStratospheric ozone reduction, solar UV-B radiation and terrestrial ecosystems Clim. Change 28 375–394 Occurrence Handle1:CAS:528:DyaK2MXjtV2hsrc%3D Occurrence Handle10.1007/BF01104080
T.V. Callaghan S. Jonasson (1995) ArticleTitleArctic terrestrial ecosystems and environmental change Phil. Trans. R. Soc. Lond., A 352 259–276
C.S. Cockell J. Knowland (1999) ArticleTitleUltraviolet radiation screening compounds Biol. Rev. 74 311–345 Occurrence Handle10466253 Occurrence Handle1:STN:280:DyaK1MzpsFOntQ%3D%3D Occurrence Handle10.1017/S0006323199005356
P. Convey (1996a) ArticleTitleOverwintering strategies of terrestrial invertebrates from Antarctica – the significance of flexibility in extremely seasonal environments Eur. J. Entomol. 93 489–505
P. Convey (1996b) ArticleTitleThe influence of environmental characteristics on life history attributes of Antarctic terrestrial biota Biol. Rev. 71 191–225
P. Convey (1996c) ArticleTitleReproduction of Antarctic flowering plants Antarct. Sci. 8 127–134
P. Convey (1997) ArticleTitleEnvironmental change: possible consequences for life histories of Antarctic terrestrial biota Korean J. Polar Res. 8 127–144
P. Convey (2001a) Antarctic Ecosystems S.A. Levin (Eds) Encyclopedia of Biodiversity vol 1. Academic Press San Diego 171–184
P. Convey (2001b) Terrestrial ecosystem response to climate changes in the Antarctic G.-R. Walther C.A. Burga P.J. Edwards (Eds) ‘Fingerprints’ of climate change – adapted behaviour and shifting species ranges Kluwer New York 17–42
P. Convey (2003) Maritime Antarctic climate change: signals from terrestrial biology E. Domack A. Burnett A. Leventer P. Convey M. Kirby R. Bindschadler (Eds) Antarctic Peninsula Climate Variability: Historical and Palaeoenvironmental Perspectives Antarctic Research Series, vol. 79. American Geophysical Union Washington D.C 145–158
P. Convey D.D. Wynn-Williams (2002) ArticleTitleAntarctic soil nematode response to artificial environmental manipulation Eur. J. Soil Biol. 38 255–259 Occurrence Handle10.1016/S1164-5563(02)01155-X
P. Convey W. Block H.J. Peat (2003) ArticleTitleSoil arthropods as indicators of water stress in Antarctic terrestrial habitats? Global Change Biol. 9 1718–1730 Occurrence Handle10.1046/j.1365-2486.2003.00691.x
P. Convey R.I.L. Smith D.A. Hodgson H.J. Peat (2000) ArticleTitleThe flora of the South Sandwich Islands, with particular reference to the influence of geothermal heating J. Biogeog. 27 1279–1295 Occurrence Handle10.1046/j.1365-2699.2000.00512.x
P. Convey P.J.A. Pugh C. Jackson A.W. Murray C.T. Ruhland F.S. Xiong T.A. Day (2002) ArticleTitleResponse of Antarctic terrestrial arthropods to multifactorial climate manipulation over a four year period Ecology 83 3130–3140 Occurrence Handle10.1890/0012-9658(2002)083[3130:ROATMT]2.0.CO;2
R.W.M. Corner R.I.L. Smith (1973) ArticleTitleBotanical evidence of ice recession in the Argentine Islands Br. Antarct. Surv. Bull. 35 83–86
H.V. Danks (1999) ArticleTitleLife cycles in polar arthropods – flexible or programmed? Eur. J. Entomol. 96 83–102
T.A. Day (2001) ArticleTitleMultiple trophic levels in UV-B assessments – completing the ecosystem New Phytol. 152 183–186 Occurrence Handle10.1046/j.0028-646X.2001.00267.x
T.A. Day C.T. Ruhland F. Xiong (2001) ArticleTitleInfluence of solar UV-B radiation on Antarctic terrestrial plants: results from a 4-year field study J. Photochem. Photobiol., B Biol. 62 78–87 Occurrence Handle1:CAS:528:DC%2BD3MXns1ekurk%3D Occurrence Handle10.1016/S1011-1344(01)00161-0
T.A. Day C.T. Ruhland C.W. Grobe F. Xiong (1999) ArticleTitleGrowth and reproduction of Antarctic vascular plants in response to warming and UV radiation reductions in the field Oecologia 119 24–35 Occurrence Handle10.1007/s004420050757
J.A. Edwards (1974) ArticleTitleStudies in Colobanthus quitensis (Kunth) Bartl and Deschampsia antarctica Desv.: VI: reproductive performance on Signy Island Br. Antarct. Surv. Bull. 39 67–86
J.A. Edwards (1980) ArticleTitleAn experimental introduction of vascular plants from South Georgia to the maritime Antarctic Br. Antarct. Surv. Bull. 49 73–80
J.A. Edwards D.M. Greene (1973) ArticleTitleThe survival of Falklands Island transplants at South Georgia and Signy Island, South Orkney Islands Br. Antarct. Surv. Bull. 33-34 33–45
J.C. Farman B.G. Gardiner J.D. Shanklin (1985) ArticleTitleLarge losses of total ozone in Antarctica reveal seasonal ClOx/Nox interaction Nature 315 207–210 Occurrence Handle1:CAS:528:DyaL2MXktFSltrc%3D Occurrence Handle10.1038/315207a0
J.H.C. Fenton (1982) ArticleTitleVegetation re-exposed after burial by ice and its relationship to changing climate in the South Orkney Islands Br. Antarct. Surv. Bull. 51 247–255
E.L. Fiscus F.L. Booker (1995) ArticleTitleIs increased UV-B a threat to crop photosynthesis and productivity? Photosynth. Res. 43 81–92 Occurrence Handle1:CAS:528:DyaK2MXmsVShtbg%3D Occurrence Handle10.1007/BF00042965
J.A. Fowbert R.I.L. Smith (1994) ArticleTitleRapid population increase in native vascular plants in the Argentine Islands, Antarctic Peninsula Arct. Alpine Res. 26 290–296 Occurrence Handle10.2307/1551941
A.J. Fox A.P.R. Cooper (1998) ArticleTitleClimate-change indicators from archival aerial photography of the Antarctic Peninsula Ann. Glaciol. 27 636–642
D.W. Freckman R.A. Virginia (1997) ArticleTitleLow-diversity Antarctic soil nematode communities: distribution and response to disturbance Ecology 78 363–369 Occurrence Handle10.2307/2266013
Y. Frenot J.-C. Gloaguen P. Trehen (1997) Climate change in Kerguelen Islands and colonization of recently deglaciated areas by Poa kerguelensis and P. annua B. Battaglia J. Valencia D.W.H. Walton (Eds) Antarctic Communities: Species, Structure and Survival. Cambridge University Press Cambridge
Y. Frenot S.L. Chown J. Whinam P. Selkirk P. Convey M. Skotnicki D. Bergstrom (2005) ArticleTitleBiological invasions in the Antarctic: extent, impacts and implications Biol. Rev. 80 45–72 Occurrence Handle15727038 Occurrence Handle10.1017/S1464793104006542
A.L. George A.W. Murray P.O. Montiel (2001) ArticleTitleTolerance of Antarctic cyanobacterial mats to enhanced UV radiation FEMS Microbiol. Ecol. 37 91–101 Occurrence Handle1:CAS:528:DC%2BD3MXmt1Kls7w%3D
A.L. George H.J. Peat A.G.J. Buma (2002) ArticleTitleEvaluation of DNA dosimetry to assess ozone-mediated variability of biologically harmful ultraviolet radiation in Antarctica Photochem. Photobiol. 76 274–280 Occurrence Handle12403448 Occurrence Handle1:CAS:528:DC%2BD38XnsFGrur0%3D Occurrence Handle10.1562/0031-8655(2002)076<0274:EODDTA>2.0.CO;2
J.E. Gordon R.J. Timmis (1992) ArticleTitleGlacier fluctuations on South Georgia during the 1970s and early 1980s Antarct. Sci. 4 215–226
C.W. Grobe C.T. Ruhland T.A. Day (1997) ArticleTitleA new population of Colobanthus quitensis near Arthur Harbor, Antarctica: correlating recruitment with warmer summer temperatures Arct. Alpine Res. 29 217–221 Occurrence Handle10.2307/1552049
A. Huiskes D. Lud T. Moerdijk-Poortvliet J. Rozema (1999) Impact of UV-B radiation on Antarctic terrestrial vegetation J. Rozema (Eds) Stratospheric Ozone Depletion: the Effects of Enhanced UV-B Radiation on Terrestrial Ecosystems. Backuys Leiden
D. Johnson C.D. Campbell J.A. Lee T.V. Callaghan D. Gwynne-Jones (2002) ArticleTitleArctic microorganisms respond more to elevated UV-B radiation than CO2 Nature 416 82–83 Occurrence Handle11882896 Occurrence Handle1:CAS:528:DC%2BD38Xitlajt7k%3D Occurrence Handle10.1038/416082a
A.D. Kennedy (1993) ArticleTitleWater as a limiting factor in the Antarctic terrestrial environment: a biogeographical synthesis Arct. Alpine Res. 25 308–315 Occurrence Handle10.2307/1551914
A.D. Kennedy (1994) ArticleTitleSimulated climate change: a field manipulation study of polar microarthropod community response to global warming Ecography 17 131–140
A.D. Kennedy (1995a) ArticleTitleAntarctic terrestrial ecosystem responses to global environmental change Ann. Rev. Ecol. Syst. 26 683–704 Occurrence Handle10.1146/annurev.es.26.110195.003343
A.D. Kennedy (1995b) ArticleTitleTemperature effects of passive greenhouse apparatus in high-latitude climate change experiments Funct. Ecol. 9 340–350
A.D. Kennedy (1995c) ArticleTitleSimulated climate change: are passive greenhouses a valid microcosm for testing the biological effects of environmental perturbations? Global Change Biol. 1 29–42 Occurrence Handle10.1111/j.1365-2486.1995.tb00004.x
J.C. King S.A. Harangozo (1998) ArticleTitleClimate change in the western Antarctic Peninsula since 1945: observations and possible causes Ann. Glaciol. 27 571–575
J.C. King J. Turner G.J. Marshall W.M. Connally T.A. Lachlan-Cope (2003) Antarctic Peninsula climate variability and its causes as revealed by analysis of instrumental records E. Domack A. BurnettA. Leventer P. Convey M. Kirby R. Bindschadler (Eds) Antarctic Peninsula Climate Variability: Historical and Palaeoenvironmental Perspectives. Antarctic Research Series vol .79. American Geophysical Union Washington D.C 17–30
D. Lud A.H.L. Huiskes T.C.W. Moerdijk J. Rozema (2001) ArticleTitleThe effects of altered levels of UV-B radiation on an Antarctic grass and lichen Plant Ecol. 154 87–99 Occurrence Handle10.1023/A:1012987728343
D. Lud T.C.W. Moerdijk W.H. Poll Particlevan de A.G.J. Buma A.H.L. Huiskes (2002) ArticleTitleDNA damage and photosynthesis in Antarctic and Arctic Sanionia uncinata (Hedw.) Loeske under ambient and enhanced levels of UV-B radiation Plant Cell Environ. 25 1579–1589 Occurrence Handle1:CAS:528:DC%2BD3sXislequw%3D%3D Occurrence Handle10.1046/j.1365-3040.2002.00914.x
D. Lud M. Schlensog B. Schroeter A.H.L. Huiskes (2003) ArticleTitleThe influence of UV-B radiation on light-dependent photosynthetic performance in Sanionia uncinata (Hedw.) Loeske in Antarctica Polar Biol. 26 225–232
W.A. Marshall (1996) ArticleTitleBiological particles over Antarctica Nature 383 680 Occurrence Handle1:CAS:528:DyaK28XmsVGgu78%3D Occurrence Handle10.1038/383680a0
W.A. Marshall P. Convey (1997) ArticleTitleDispersal of moss propagules in the maritime Antarctic Polar Biol. 18 376–383 Occurrence Handle10.1007/s003000050203
J.B. McGraw T.A. Day (1997) ArticleTitleSize and characteristics of a natural seed bank in Antarctica Arct. Alpine Res. 29 213–216 Occurrence Handle10.2307/1552048
P. Montiel A. Smith D. Keiller (1999) ArticleTitlePhotosynthetic responses of selected Antarctic plants to solar radiation in the southern maritime Antarctic Polar Res. 18 229–235
K.K. Newsham (2003) ArticleTitleUV-B radiation arising from stratospheric ozone depletion influences the pigmentation of the Antarctic moss Andreaea regularis Oecologia 135 327–331 Occurrence Handle12721820 Occurrence Handle1:STN:280:DC%2BD3s3gt1OntQ%3D%3D
K.K. Newsham D.A. Hodgson A.W.A. Murray H.J. Peat R.I.L. Smith (2002) ArticleTitleResponse of two Antarctic bryophytes to stratospheric ozone depletion Global Change Biol. 8 972–983 Occurrence Handle10.1046/j.1365-2486.2002.00509.x
P.E. Noon H.J.B. Birks V.J. Jones J.C. Ellis-Evans (2001) ArticleTitleQuantitative models for reconstructing catchment ice-extent using physical-chemical characteristics of lake sediments J. Paleolimnol. 25 375–392 Occurrence Handle10.1023/A:1011193401627
N. Paul (2001) ArticleTitlePlant responses to UV-B: time to look beyond stratospheric ozone depletion? New Phytol. 150 5–8 Occurrence Handle10.1046/j.1469-8137.2001.00090.x
P.J.A. Pugh J. Davenport (1997) ArticleTitleColonisation vs. disturbance: the effects of sustained ice-scouring on intertidal communities J Exp. Mar. Biol. Ecol. 210 1–21 Occurrence Handle10.1016/S0022-0981(96)02711-6
W.C. Quayle L.S. Peck H. Peat J.C. Ellis-Evans P.R. Harrigan (2002) ArticleTitleExtreme responses to climate change in Antarctic lakes Science 295 645 Occurrence Handle11809962 Occurrence Handle1:CAS:528:DC%2BD38XptF2gtw%3D%3D Occurrence Handle10.1126/science.1064074
W.C Quayle P. Convey L.S. Peck J.C. Ellis-Evans H.G. Butler H.J. Peat (2003) Ecological responses of maritime Antarctic lakes to regional climate change E. Domack A. Burnett A. Leventer P. Convey M. Kirby R. Bindschadler (Eds) Antarctic Peninsula Climate Variability: Historical and Palaeoenvironmental Perspectives. Antarctic Research Series vol. 79. American Geophysical Union Washington D.C 159–170
A. Quesada J.L. Mouget W.F. Vincent (1995) ArticleTitleGrowth of Antarctic cyanobacteria under ultraviolet radiation – UVA counteracts UVB inhibition J. Phycol. 31 242–248 Occurrence Handle10.1111/j.0022-3646.1995.00242.x
A. Quesada L. Goff D. Karentz (1998) ArticleTitleEffects of natural UV radiation on Antarctic cyanobacterial mats Proc. NIPR Symp. Polar Biol. 11 98–111
L. Roberts (1989) ArticleTitleDoes the ozone hole threaten antarctic life? Science 244 288–289 Occurrence Handle17738296
M.C. Rousseaux C.L. Ballaré C.V. Giordano A.L. Scopel A.M. Zima M. Szwarcberg-Bracchitta P.S. Searles M.M. Caldwell S.B. Diaz (1999) ArticleTitleOzone depletion and UV-B radiation: impact on plant DNA damage in southern South America Proc. Natl. Acad. Sci. U.S.A. 96 15310–15315 Occurrence Handle10611381 Occurrence Handle1:CAS:528:DC%2BD3cXhtFehsw%3D%3D Occurrence Handle10.1073/pnas.96.26.15310
J. Rozema (Eds) (1999) Stratospheric ozone depletion, the effects of enhanced UV-B radiation on terrestrial ecosystems Backhuys Leiden
C.T. Ruhland T.A. Day (2000) ArticleTitleEffects of ultraviolet-B radiation on leaf elongation, production and phenylpropanoid concentrations of Deschampsia antarctica and Colobanthus quitensis in Antarctica Physiol. Plant. 109 244–251 Occurrence Handle1:CAS:528:DC%2BD3cXkvFCru74%3D Occurrence Handle10.1034/j.1399-3054.2000.100304.x
P.S. Searles B.R. Kropp S.D. Flint M.M. Caldwell (2001) ArticleTitleInfluence of solar UV-B radiation on peatland microbial communities of southern Argentina New Phytol. 152 213–221 Occurrence Handle10.1046/j.0028-646X.2001.00254.x
P. Skvarca W. Rack H. Rott T. Ibarzábaly Donángelo (1998) ArticleTitleEvidence of recent climatic warming on the eastern Antarctic Peninsula Ann. Glaciol. 27 628–632
R.I.L. Smith (1972) ArticleTitleVegetation of the South Orkney Islands with particular reference to Signy Island Br. Antarct. Surv. Sci. Reps. 68 1–124 Occurrence Handle1:CAS:528:DyaE38XltFyjurY%3D
R.I.L. Smith (1984) Terrestrial Plant Biology of the Sub- Antarctic and Antarctic R.M. Laws (Eds) Antarctic Ecology. Academic Press London
R.I.L. Smith (1987) ArticleTitleThe bryophyte propagule bank of Antarctic fellfield soils Symp. Biol. Hung. 35 233–245
R.I.L. Smith (1990) Signy Island as a paradigm of biological and environmental change in Antarctic terrestrial ecosystems K.R. Kerry G. Hempel (Eds) Antarctic Ecosystems, Ecological Change and Conservation. Springer-Verlag Berlin 30–48
R.I.L. Smith (1991) ArticleTitleExotic sporomorpha as inticators of potential immigrant colonists in Antarctica Grana 30 313–324 Occurrence Handle10.1080/00173139109431986
R.I.L. Smith (1993) The role of bryophyte propagule banks in primary succession: case study of an Antarctric fellfield soil J. Miles D.W.H. Walton (Eds) Primary Succession on Land Blackwell Oxford 55–78
R.I.L. Smith (1994) ArticleTitleVascular plants as indicators of regional warming in Antarctica Oecologia 99 322–328 Occurrence Handle10.1007/BF00627745
R.I.L. Smith (1996) ArticleTitleIntroduced plants in Antarctica: potential impacts and conservation issues Biol. Conserv. 76 135–146 Occurrence Handle10.1016/0006-3207(95)00099-2
R.I.L. Smith (1999) ArticleTitleBiological and environmental characteristics of three cosmopolitan mosses dominant in continental Antarctica J. Veg. Sci. 10 231–242 Occurrence Handle10.2307/3237144
R.I.L. Smith (2000) Plant colonisation on a 45-year sequence of annual micromoraines on a South Georgia glacier foreland W. Davison C. Howard-williams I. Hawes (Eds) Antarctic Ecosystems: Models for Wider Ecological Understanding. Caxton Press Christchurch 225–232
R.I.L. Smith (2001) ArticleTitlePlant colonization response to climate change in the Antarctic. Folia Fac. Sci. Nat. Univ. Masarykianae brunensis Geographia 25 19–33
R.I.L. Smith (2003) The enigma of Colobanthus quitensis and Deschampsia antarctica in Antarctica A.H.L. Huiskes W.W.C. Gieskes J. Rozema R.M.L. Schorno S.M. Vies Particlevan der W.J. Wolff (Eds) Antarctic Biology in a Global Context. Backhuys Leiden 234–239
R.I.L. Smith A.M. Coupar (1987) ArticleTitleThe colonization potential of bryophyte propagules in Antarctic fellfield sites Comité National Français des Recherches Antarctiques 58 189–204
V.R. Smith M. Steenkamp (1990) ArticleTitleClimatic change and its ecological implications at a sub-Antarctic island Oecologia 85 14–24 Occurrence Handle10.1007/BF00317338
L. Sømme (1995) Invertebrates in Hot and Cold Arid Environments Springer-Verlag Berlin
J. Sullivan J. Rozema (1999) UV-B effects on terrestrial plant growth and photosynthesis J. Rozema (Eds) Stratospheric ozone depletion, the effects of enhanced UV-B radiation on terrestrial ecosystems. Backhuys Leiden 39–57
J. Turner S.R. Colwell S. Harangozo (1997) ArticleTitleVariability of precipitation over the coastal western Antarctic Peninsula from synoptic observations J. Geophys. Res. 102 13999–14007 Occurrence Handle10.1029/96JD03359
D.G. Vaughan G.J. Marshall W.C. Connolley J.C. King R. Mulvaney (2001) ArticleTitleDevil in the detail Science 293 1777–1779 Occurrence Handle11546858 Occurrence Handle1:CAS:528:DC%2BD3MXmvVSlsbs%3D Occurrence Handle10.1126/science.1065116
W.F. Vincent A. Quesada (1994) ArticleTitleUltraviolet effects on cyanobacteria: implications for Antarctic microbial ecosystems Antarct. Res. Ser. 62 111–124
M.A. Voytek (1990) ArticleTitleAddressing the biological effects of decreased ozone on the Antarctic environment Ambio 19 52–61
G.-R. Walther E. Post P. Convey C. Parmesan M. Menzel T.J.C. Beebee J.-M. Fromentin O. Hoegh-Guldberg F. Bairlein (2002) ArticleTitleEcological responses to recent climate change Nature 416 389–395 Occurrence Handle11919621 Occurrence Handle1:CAS:528:DC%2BD38XislantL8%3D Occurrence Handle10.1038/416389a
D.W.H. Walton (1984) terrestrial environment R.M. Laws (Eds) Antarctic Ecology vol. 1. Academic Press London 1–60
D.W.H. Walton W.F. Vincent M.H. Timperley I. Hawes C. Howard-Williams (1997) Synthesis: polar deserts as indicators of change W.B. Lyons C. Howard-Williams I. Hawes (Eds) Ecosystem Processes in Antarctic Ice-Free Landscapes. Balkema Rotterdam
D.D. Wynn-Williams (1993) Microbial processes and the initial stabilisation of fellfield soil J. Miles D.W.H. Walton (Eds) Primary Succession on Land Blackwell Oxford
D.D. Wynn-Williams (1994) ArticleTitlePotential effects of ultraviolet radiation on Antarctic primary terrestrial colonizers: cyanobacteria, algae, and cryptogams Antarct. Res. Ser. 62 243–257
D.D. Wynn-Williams (1996) ArticleTitleResponse of pioneer soil microalgal colonists to environmental change in Antarctica Microb. Ecol. 31 177–188 Occurrence Handle10.1007/BF00167863
F.S. Xiong T.A. Day (2001) ArticleTitleEffect of solar ultraviolet-B radiation during springtime ozone depletion on photosynthesis and biomass production of Antarctic vascular plants Plant Physiol. 125 738–751 Occurrence Handle11161031 Occurrence Handle1:CAS:528:DC%2BD3MXhs1KlsLk%3D Occurrence Handle10.1104/pp.125.2.738
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Convey, P., Smith, R.I.L. Responses of Terrestrial Antarctic Ecosystems to Climate Change. Plant Ecol 182, 1–10 (2006). https://doi.org/10.1007/s11258-005-9022-2
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/s11258-005-9022-2