Abstract
We compared the bud demography of deciduous, dioecious Salix arctica Pall. plants between vegetation of contrasting muskox grazing pressure, and between female, male and vegetative plants, on central Ellesmere Island, Canada. We developed age- and stage-based transition matrix models in order to investigate the contribution of annual shoot generations, and the significance of different bud types (dormant, vegetative, catkin, eaten) to bud population growth. The bud population growth rates were higher in all shoot generations of the grazed plants compared with the ungrazed plants. This was a consequence of a higher bud production rate in the grazed plants, whereas the bud survival rate was similar among all plants. Vegetative plants had the highest bud population growth rates, but the difference was significant only between vegetative plants and females in the grazed habitat. The damage frequency did not differ among female, male and vegetative plants in the grazed habitat, where 96% of the plants were grazed. According to the age- and stage-based model, the newest bud generation and the vegetative shoots determine the majority of demographic processes of the plant. Longer-term observations are required to investigate annual fluctuation in bud population dynamics and herbivory levels in order to make predictions about the long-term impact of muskox on bud demography of S. arctica.
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References
Ahman, I. (1997) Growth, herbivory and disease in relation to gender in Salix viminalis L. Oecologia 111, 61-68.
Archer, S. and Tieszen, L.L. (1980) Growth and physiological responses of tundra plants to defoliation. Arctic and Alpine Research 4, 531-552.
Bazely, D.R. and Jefferies, R.L. (1985) Goose faeces: a source of nitrogen for plant growth in a grazed salt marsh. Journal of Applied Ecology 22, 693-703.
Bazely, D.R. and Jefferies, R.L. (1989) Leaf and shoot demography of an arctic stoloniferous grass, Puccinellia phryganodes, in response to grazing. Journal of Ecology 77, 811-822.
Boecklen, W.J., Mopper, S. and Price, P.W. (1994) Sex-biased herbivory in arroyo willow: are there general patterns among herbivores? Oikos 71, 267-272.
Bryant, J.P., Chapin, F.S., III and Klein, D.R. (1983) Carbon/nutrient balance of boreal plants in relation to vertebrate herbivory. Oikos 40, 357-368.
Bullock, J.M., Clear Hill, B. and Silvertown, J. (1994) Tiller dynamics of two grasses -- responses to grazing, density and weather. Journal of Ecology 82, 331-340.
Cargill, S.M. and Jefferies, R.L. (1984) The effects of grazing by lesser snow geese on the vegetation of a subarctic salt marsh. Journal of Applied Ecology 21, 669-686.
Carlsson, B.Å. and Callaghan, T.V. (1990) Effects of flowering on the shoot dynamics of Carex bigelowii along an altitudinal gradient in Swedish Lapland. Journal of Ecology 78, 152-165.
Carlsson, B.Å. and Callaghan, T.V. (1991) Simulation of fluctuating populations of Carex bigelowii tillers classified by type, age and size. Oikos 60, 231-240.
Caswell, H. (1989) Matrix Population Models. Sinauer Associates, Inc., Sunderland, MA.
Chapin, F.S., III (1980) Nutrient allocation and responses to defoliation in tundra plants. Arctic and Alpine Research 12, 553-563.
Crawford, R.M.M. and Balfour, J. (1983) Female predominant sex ratios and physiological differentiation in arctic willows. Journal of Ecology 71, 149-160.
Crawford, R.M.M. and Balfour, J. (1990) Female-biased sex ratios and differential growth in Arctic willows. Flora 184, 291-302.
Danell, K., Hjälten, J., Ericson, L. and Elmqvist, T. (1991) Vole feeding on male and female willow shoots along a gradient of plant productivity. Oikos 62, 145-152.
Dawson, T.E. and Bliss, L.C. (1989) Patterns of water use and the tissue water relations in the dioecious shrub, Salix arctica: the physiological basis for habitat partitioning between the sexes. Oecologia 79, 332-343.
Dawson, T.E. and Bliss, L.C. (1993) Plants as mosaics, leaf-, ramet-, and gender-level variation in the physiology of the dwarf willow, Salix arctica. Functional Ecology 7, 293-304.
Ehrlén, J. (1995) Demography of the perennial herb Lathyrus vernus. II. Herbivory and population dynamics. Journal of Ecology 83, 297-308.
Elmqvist, T., Ericson, L., Danell, K. and Salomonson, A. (1987) Flowering, shoot production, and vole bark herbivory in a boreal willow. Ecology 68, 1623-1629.
Elmqvist, T., Ericson, L., Danell, K. and Salomonson, A. (1988) Latitudinal sex ratio variation in willows, Salix spp., and gradients in vole herbivory. Oikos 51, 259-266.
Eriksson, O. (1988) Ramet behaviour and population growth in the clonal herb Potentilla anserina. Journal of Ecology 76, 522-536.
Fetcher, N. and Shaver, G.R. (1983) Life histories of tillers of Eriophorum vaginatum in relation to tundra disturbance. Journal of Ecology 71, 131-147.
Henry, G.H.R. (1987) Ecology of sedge meadow communities of a polar desert oasis: Alexandra Fiord, Ellesmere Island, Canada. Ph.D. dissertation, University of Toronto, Toronto, Canada.
Henry, G.H.R. (1998) Environmental influences on the structure of sedge meadows in the Canadian High Arctic. Plant Ecology 134, 119-129.
Henry, G.H.R. and Svoboda, J. (1994) Comparisons of grazed and non-grazed High-Arctic sedge meadows. In J. Svoboda and B. Freedman, (eds) Ecology of a Polar Oasis Alexandra Fiord, Ellesmere Island, Canada. Captus University Publications, Toronto, Canada, pp. 193-194.
Henry, G.H.R., Svoboda, J. and Freedman, B. (1986) Survey of vegetated areas and muskox populations in central Ellesmere Island. Arctic 39, 78-81.
Jefferies, R.L., Svoboda, J., Henry, G.H.R., Raillard, M. and Ruess, R. (1992) Tundra grazing systems and climate change. In F.S. Chapin III, R.L. Jefferies, J.F. Reynolds, G.R. Shaver, J. Svoboda and E.W. Chu (eds) Arctic Ecosystems in a Changing Climate: an Ecophysiological Perspective. Academic Press, San Diego California, pp. 391-412.
Jing, S.W. and Coley, P.D. (1990) Dioccy and herbivory: the effect of growth rate on plant defense in Acer negundo. Oikos 58, 369-377.
Johnstone, J.F. and Henry, G.H.R. (1997) Retrospective analysis of growth and reproduction in Cassiope tetragona, and relations to climate in the Canadian High Arctic. Arctic and Alpine Research 29, 459-469.
Jones, M.H., MacDonald, S.E. and Henry, G.H.R. (1999) Sex-and habitat-specific responses of a high arctic willow, Salix arctica, to experimental climate change. Oikos 87, 129-138.
Jónsdóttir, I.S. (1991) Effects of grazing on tiller size and population dynamics in a clonal sedge (Carex bigelowii) Oikos 62, 177-188.
Jónsdóttir, I.S., Virtanen, R. and Kärnefelt, I (1999) Large-scale differentiation and dynamics in tundra plant populations and vegetation. Ambio 28, 230-238.
Kevan, P.G. (1990) Sexual differences in temperatures of blossoms on a dioccious plant, Salix arctica: significance for life in the arctic. Arctic and Alpine Research 22, 283-289.
Klein, D.R. and Bay, C. (1990) Foraging dynamics of muskoxen in Peary Land, northern Greenland. Holarctic Ecology 13, 269-280.
Klein, D.R. and Bay, C. (1991) Diet selection by vertebrate herbivores in the high arctic of Greenland. Holarctic Ecology 14, 152-155.
Lehtilä, K., Tuomi, J. and Sulkinoja, M. (1994) Bud demography of the mountain birch Betula pubescens ssp. tortuosa near tree line. Ecology 75, 945-955.
Maillette, L. (1982a) Structural dynamics of silver birch (Betula pendula). 1. The fates of buds. Journal of Applied Ecology 19, 203-218.
Maillette, L. (1982b) Structural dynamics of silver birch (Betula pendula). 2. A matrix model of the bud population. Journal of Applied Ecology 19, 219-238.
Morewood, W.D. (1999) Temperature/development relationships and life history strategies of arctic Gynaephora species (Lepidoptera: Lymantriidae) and their insect parasitoids (Hymenoptera: Ichnewmonidae and Diptera: Tachinidae), with reference to global warming. Ph.D. dissertation, University of Victoria, Victoria, Canada. 190 p.
Mulder, C. (1999) Vertebrate herbivores and plants in the Arctic and subarctic: effects on individuals, populations, communities and ecosystems. Perspectives in Plant Ecology, Evolution and Systematics 2, 29-55.
Murray, J.L. (1991) Biomass allocation and nutrient pool in major muskoxen-grazed communities in Sverdrup Pass, 79° N, Ellesmere Island, N.W.T., Canada. M.Sc. thesis, University of Toronto.
Parker, G.R. and Ross, R.K. (1976) Summer habitat use by muskoxen (Ovibos moschatus) and Peary caribou (Rangifer tarandus pearyi) in the Canadian High Arctic. Polarforshung 46, 12-25.
Porsild, A.E. and Cody, W.J. (1980) Vascular Plants of the Continental Northwest Territories, Canada. National Museums of Canada, Ottawa.
Raillard, M.C. and Svoboda, J. (2000) High grazing impact, selectivity, and local density of muskoxen in central Ellesmere Island. Arctic, Antarctic and Alpine Research 32, 278-285.
SAS Institute, Inc. (1990) SAS/STAT User's Guide Version 6. Fourth Edition. SAS Institute Inc, Cary, North Carolina, USA.
Silvertown, J., Franco, M., Pisanty, I. and Mendoza, A. (1993) Comparative plant demography -- relative importance of life-cycle components to the finite rate of increase in woody and herbaceous perennials. Journal of Ecology 81, 465-476.
Tolvanen, A. and Henry, G.H.R. (2000) Population structure of three dominant sedges under muskox herbivory in the high Arctic. Arctic, Antarctic and Alpine Research 32, 449-455.
Tolvanen, A, Schroderus, J. and Henry, G.H.R. (2001) Demography of three dominant sedges under contrasting grazing regimes in the High Arctic. Journal of Vegetation Science 12, 659-670.
Vavrek, M.C., McGraw, J.B. and Yang, H.S. (1997) Within-population variation in demography of Taraxacum officinale: season-and size-dependent survival, growth and reproduction. Journal of Ecology 85, 277-287.
Zar, J.H. (1998) Biostatistical Analysis. Prentice-Hall International, Inc., Englewood Cliffs, New Jersey.
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Tolvanen, A., Schroderus, J. & Henry, G. Age- and stage-based bud demography of Salix arctica under contrasting muskox grazing pressure in the High Arctic. Evolutionary Ecology 15, 443–462 (2001). https://doi.org/10.1023/A:1016049301905
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DOI: https://doi.org/10.1023/A:1016049301905