Abstract
Phenological background information for alpine species is limited from extremely high altitudes. Flowering and fruiting phenology was monitored for 24 plant species at 5,180 m a.s.l. near the base camp area on the north slope of Mt. Qomolangma (Mt. Everest) in Tibet, western China. The dates of first flowering, peak flowering, end of flowering, first fruiting, peak fruiting and flowering period were recorded. There was a wide variation in onset of flowering, long flowering duration, a relative synchrony between the onset of flowering and fruiting, and one species was exclusively vegetative. These results suggest that the species have evolved various phenological strategies as adaptations to the short growing season with limited resources and pollinators in this harsh alpine environment at extremely high elevations. With a background of global warming, local plant species will represent an advancing trend in onset of flowering.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alatalo, J.M. and Totland, Ø. 1997. Response to simulated climatic change in an alpine and subarctic pollen-risk strategist, Silene acaulis. Global Change Biology 3: 74–79.
Baker, G.A., Rundel, P.W., and Parsons, D.J. 1982. Comparative phenology and growth in three chaparral shrubs. Botanical Gazette 143: 94–100.
Billings, W.D. and Mooney, H.A. 1968. The ecology of arctic and alpine plants. Biological Reviews 43: 481–529.
Billings, W.D. 1974. Adaptations and origins of alpine plants. Arctic and Alpine Research 6: 129–142.
Blionis, G.J., Halley, J.M., and Vokou, D. 2001. Flowering phenology of Campanula on Mt Olympus, Greece. Ecography 24: 696–706.
Bliss, L.C. 1971. Arctic and alpine plant life cycles. Annual Review of Ecology and Systematics 2: 405–438.
Callaghan, T.V. and Jonasson, S. 1995. Implications for changes in arctic plant biodiversity from environmental manipulation experiments. In: Chapin III, F.S. and Körner, C. (eds.), Arctic and Alpine Biodiversity: Patterns, Causes and Ecosystem Consequences, Ecological Studies, Vol. 113. Berlin, Germany: Springer-Verlag. Pp. 151–166.
Chmielewski, F.M. and Rötzer, T. 2001. Response of tree phenology to climate change across Europe. Agricultural and Forest Meteorology 108: 101–112.
Eriksson, O. 1997. Clonal life histories and the evolution of seed recruitment. In: de Kroon, H. and van Groenendael, J. (eds.), The Ecology and Evolution of Clonal Plants. Leyden: Backhuys. Pp. 211–226
Evans, E.W., Smith, C.C., and Gendron, R.P. 1989. Timing of reproduction in a prairie legume: seasonal impacts of insects consuming flowers and seeds. Oecologia 78: 220–230.
Fabbro, T. and Körner, C. 2004. Altitudinal differences in flower traits and reproductive allocation. Flora 199: 70–81.
Fukai, S. 1999. Phenology in rainfed lowland rice. Field Crops Research 64: 51–56.
Galen, C. and Stanton, M.L. 1991. Consequences of emergence phenology for reproductive success in Ranunculus adoneus (Ranunculaceae). American Journal of Botany 78: 978–988.
Gentry, A.H. 1974. Flowering phenology and diversity in tropical Bignoniaceae. Biotropica 6: 64–68.
Grime, J.P. 1977. Evidence for the existence of three primary strategies in plants and its relevance to ecological and evolutionary theory. American Naturalist 111: 1169–1194.
Grime, J.P. 1979. Plant Strategies and Vegetation Processes. Toronto: John Wiley & Sons.
Grime, J.P. 2002. Plant Strategies, Vegetation Processes, and Ecosystem Properties, 2nd Edition. Toronto: John Wiley & Sons.
Guisan, A., Theurillat, J.P., and Spichiger, R. 1995. Effects of climate change on alpine plant diversity and distribution: the modeling and monitoring perspectives. In: Guisan, A., Holten, J.I., Spichiger, R., and Tessier, L. (eds.), Potential Ecological Impacts of Climate Change in the Alps and Fennoscandian Mountains. Genève, Switzerland: Conservatoire et Jardin Botaniques. Pp.129–135.
Hänninen, H. 1990. Modelling bud dormancy release in trees from cool and temperate regions. Acta Forestalia Fennica 213: 1–47.
Hansen, J., Johnson, D., Lacis, A., Lebedeff, S., Lee, P., Rind, D., and Russell, G. 1981. Climate impact of increasing atmospheric carbon dioxide. Science 213: 957–966.
Heinrich, B. 1976. Flowering phenologies: bog, woodland, and disturbed habitats. Ecology 57: 890–899.
Henry, G.H.R. and Molau, U. 1997. Tundra plants and climate change: the International Tundra Experiment (ITEX). Global Change Biology 3: 1–9.
Herrera, J. 1986. Flowering and fruiting phenology in the coastal shrublands of Doñana, south Spain. Plant Ecology 68: 91–98.
Herrera, J. 1987. Flower and fruit biology in southern Spanish Mediterranean shrublands. Annals of the Missouri Botanical Garden 74: 69–78.
Inouye, D.W. and Pyke, G.H. 1988. Pollination biology in the Snowy Mountains of Australia: comparisons with montane Colorado, USA. Australian Journal of Ecology 13: 191–210.
IPCC 2007. Summary for Policymakers. In: Solomon, S., Qin, D., Manning, M., Chen, Z., Marquis, M., Averyt, K.B., Tignor, M., and Miller, H.L. (eds.), Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, UK: Cambridge University Press.
Körner, C. 1995. Impact of atmospheric changes on alpine vegetation: the ecophysiological perspective. In: Guisan, A., Holten, J.I., Spichiger, R., and Tessier, L. (eds.), Potential Ecological Impacts of Climate Change in the Alps and Fennoscandian Mountains. Genève, Switzerland: Conservatoire et Jardin Botaniques. Pp. 13–120.
Körner, C. 1999. Alpine Plant Life: Functional Plant Ecology of High Mountain Ecosystems. Berlin: Springer-Verlag.
Klimes, L., Klimesová, J., Hendriks, R., and van Groenendael, J. 1997. Clonal plant architecture: a comparative analysis of form and function. In: de Kroon, H. and van Groenendael, J. (eds.), The Ecology and Evolution of Clonal Plants. Leiden, Netherlands: Backhuys. Pp. 1–29.
Komeda, Y. 2004. Genetic regulation of time to flower in Arabidopsis thaliana. Annual Review of Plant Biology 55: 521–535.
Kummerov, J. 1983. Comparative phenology of Mediterranean-type plant communities. In: Kruger, F.J., Mitchell, D.T., and Jarvis, J.U.M. (eds.), Mediterranean-type ecosystems: The role of nutrients. Berlin, Germany: Springer-Verlag. Pp. 300–317.
Lack, A.J. 1982. The ecology of flowers of chalk grassland and their insect pollinators. Journal of Ecology 70: 773–790.
Lieth, H. 1975. Primary production of the major vegetation units of the world. In: Lieth, H. and Whittaker, R.H. (eds.), Primary Productivity of the Biosphere. Berlin, Germany: Springer-Verlag. Pp. 203–216.
Liu, X.D. and Chen, B.D. 2000. Climatic warming in the Tibetan Plateau during recent decades. International Journal of Climatology 20: 1729–1742.
Liu, Z.M., Yang, J.D., and Liu, X.M. 2000. Effects of Several Environmental Factors on Plant Physiology in Qinghai-Xizang Plateau. Journal of Desert Research 20: 309–313. (In Chinese)
Makrodimos, N., Blionis, G.J., Krigas, N., and Vokou, D. 2008. Flower morphology, phenology and visitor patterns in an alpine community on Mt Olympos, Greece. Flora — Morphology, Distribution, Functional Ecology of Plants 203: 449–468.
Mooney, H.A., Parsons, D., and Kummerow, J. 1974. Plant development in mediterranean climates. In: Lieth, H. (ed.), Phenology and Seasonality Modeling. Berlin, Germany: Springer-Verlag. Pp. 255–267.
Opler, P.A., Frankie, G.W., and Baker, H.G. 1980. Comparative phenological studies of treelet and shrub species in tropical wet and dry forests in the lowlands of Costa Rica. Journal of Ecology 68: 167–188.
Parrish, J.A.D. and Bazzaz, F.A. 1979. Differences in pollination niche relationships in early and late successional plant communities. Ecology 60: 597–610.
Petanidou, T., Ellis, W.N., Margaris, N.S., and Vokou, D. 1995. Constraints on flowering phenology in a phryganic (east Mediterranean shrub) community. American Journal of Botany 82: 607–620.
Pojar, J. 1974. Reproductive dynamics of four plant communities of southwestern British Columbia. Canadian Journal of Botany 52: 1819–1834.
Price, M.V. and Waser, N.M. 1998. Effects of experimental warming on plant reproductive phenology in a subalpine meadow. Ecology 79: 1261–1271.
Primack, R.B. 1980. Variation in the phenology of natural populations of montane shrubs in New Zealand. Journal of Ecology 68: 849–862.
Puckridge, D.W. and O’Toole, J.C. 1981. Dry matter and grain production of rice, using a line source sprinkler in drought studies. Field Crops Research 3: 303–319.
Ren, J.W., Qin, D.H., Kang, S.C., Hou, S.G., Pu, J.C., and Jing, Z.F. 2004. Glacier variations and climate warming and drying in the central Himalayas. Chinese Science Bulletin 49: 65–69. (In Chinese)
Simpson, G.G. and Dean, C. 2002. Arabidopsis, the Rosetta Stone of Flowering Time? Science 296: 285–289.
Smith, R.C., Ainley, D., Baker, K., Domack, E., Emslie, S., Fraser, B., Kennett, J., Leventer, L., Mosley-Thompson, E., Stammerjohn, S., and Vernet, M. 1999. Marine ecosystem sensitivity to climate change. Bioscience 49: 393–404.
Snyder, R.L., Spano, D., Duce, P., and Cesaraccio, C. 2001. Temperature data for phenological models. International Journal of Biometeorology 45: 178–183.
Stenström, M., Gugerli, F., and Henry, G.H.R. 1997. Response of Saxifraga oppositifolia L. to simulated climate change at three contrasting latitudes. Global Change Biology 3: 44–54.
Suzuki, S. and Kudo, G. 1997. Short-term effects of simulated environmental change on phenology, leaf traits, and shoot growth of alpine plants on a temperate mountain, northern Japan. Global Change Biology 3: 108–115.
Thórhallsdóttir, T.E. 1998. Flowering phenology in the central highland of Iceland and implications for climatic warming in the Arctic. Oecologia 114: 43–49.
Waser, N.M. 1978. Competition for hummingbird pollination and sequential flowering in two Colorado wildflowers. Ecology 59: 934–944.
Weinig, C. and Schmitt, J. 2004. Environmental effects on the expression of quantitative trait loci and implications for phenotypic evolution. Bioscience 54: 627–635
Wookey, P.A., Robinson, C.H., Parsons, A.N., Welker, J.M., Press, M.C., Callaghan, T.V., and Lee, J.A. 1995. Environmental constraints on the growth, photosynthesis and reproductive development of Dryas octopetala at a high Arctic polar semi-desert, Svalbard. Oecologia 102: 478–489.
Wu, Z.Y. 1983–1987. Flora Xizangica. Beijing, China: Science Press. (In Chinese)
Yang, X.C., Zhang, Y.L., Zhang, W., Yan, Y.P., Wang, Z.F., Ding, M.J., and Chu, D. 2006. Climate Change in Mt. Qomolangma Region in China during the Last 34 Years. Acta Geographica Sinica 61: 687–696. (In Chinese)
Zhang, X.B., Ren, J.R., and Zhang, D.E. 2001. Phenological observations on Larix principis-rupprechtii Mayr. in primary seed orchard. Journal of Forestry Research 12: 201–204.
Zhang, Y.F. and Zhang, D.Y. 2007. Asexual and sexual reproductive strategies in clonal plants. Frontiers of Biology in China 2: 256–262. (In Chinese)
Zheng, D. 1996. The system of physico-geographical regions of the Qinghai-Tibet (Xizang) Plateau. Science in China (Series D) 39: 410–417. (In Chinese)
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Zhang, L., Turkington, R. & Tang, Y. Flowering and fruiting phenology of 24 plant species on the north slope of Mt. Qomolangma (Mt. Everest). J. Mt. Sci. 7, 45–54 (2010). https://doi.org/10.1007/s11629-010-1107-2
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11629-010-1107-2