6 – Plant Succession, Competition, and the Physiological Constraints of Species in the Arctic
暂无分享,去创建一个
[1] J. Svoboda,et al. Succession in Marginal Arctic Environments , 1987 .
[2] W. D. Billings,et al. Root Production and Root Turnover in a Wet Tundra Ecosystem, Barrow, Alaska , 1975 .
[3] Plant communities and plant production in the western Queen Elizabeth Islands , 1984 .
[4] F. Chapin,et al. ESTIMATED) AGES OF MATURE TUSSOCKS OF ERIOPHORUM VAGINATUM ALONG A LA1TITUJDINAL GRADIENT IN CENTRAL ALASKA, U.S.A. , 1985 .
[5] F. S. Chapin,et al. The Mineral Nutrition of Wild Plants , 1980 .
[6] A. Ulrich,et al. Plant Nutrient Limitations of Tundra Plant Growth , 1978 .
[7] R. Densmore,et al. Seed dispersal and dormancy patterns in northern willows: ecological and evolutionary significance , 1983 .
[8] H. M. Raup. Vegetation and Cryoplanation , 1951 .
[9] N. Fetcher,et al. Changes in Arctic Tussock Tundra Thirteen Years after Fire , 1984 .
[10] L. C. Bliss. A Comparison of Plant Development in Microenvironments of Arctic and Alpine Tundras , 1956 .
[11] F. Chapin,et al. Changes in Soil Properties and Vegetation Following Disturbance of Alaskan Arctic Tundra , 1981 .
[12] Helios Hernandez. Natural plant recolonization of surficial disturbances, Tuktoyaktuk Peninsula Region, Northwest Territories , 1973 .
[13] P. Miller,et al. WATER RELATIONS OF PLANT SPECIES IN THE WET COASTAL TUNDRA AT BARROW, ALASKA , 1975 .
[14] L. C. Bliss,et al. Overwinter Phenology of Plants in a Polar Semi-desert , 1977 .
[15] J. McGraw. Seed bank size and distribution of seeds in cottongrass tussock tundra, Eagle Creek, Alaska , 1980 .
[16] L. Tieszen. PHOTOSYNTHESIS AND RESPIRATION IN ARCTIC TUNDRA GRASSES: FIELD LIGHT INTENSITY AND TEMPERATURE RESPONSES , 1973 .
[17] W. D. Billings,et al. VEGETATIONAL CHANGE AND ICE-WEDGE POLYGONS THROUGH THE THAW-LAKE CYCLE IN ARCTIC ALASKA , 1980 .
[18] F. Chapin,et al. Ecotypic Differentiation in Carex Aquatilis on Ice-Wedge Polygons in the Alaskan Coastal Tundra , 1979 .
[19] R. Wein. Frequency and Characteristics of Arctic Tundra Fires , 1976 .
[20] J. Svoboda,et al. Polar deserts, their plant cover and plant production in the Canadian High Arctic , 1984 .
[21] N. Grulke,et al. GROWTH FORMS, CARBON ALLOCATION, AND REPRODUCTIVE PATTERNS OF HIGH ARCTIC SAXIFRAGES , 1985 .
[22] L. C. Bliss,et al. PLANT REPRODUCTION IN A HIGH ARCTIC ENVIRONMENT , 1980 .
[23] B. Freedman,et al. Vascular plant communities of a polar oasis at Alexandra Fiord (79° N), Ellesmere Island, Canada , 1989 .
[24] F. Bazzaz. The Physiological Ecology of Plant Succession , 1979 .
[25] L. J. Bledsoe,et al. Environmental regulation of nitrogen fixation in a high arctic lowland ecosystem , 1991 .
[26] W. D. Billings,et al. Geomorphic Processes and Vegetational Change along the Meade River Sand Bluffs in Northern Alaska , 1978 .
[27] L. C. Bliss,et al. Microscale pattern of vascular plant distribution in two high arctic plant communities , 1984 .
[28] N. Grulke,et al. Comparative Life History Characteristics of Two High Arctic Grasses, Northwest Territories , 1988 .
[29] David Tilman,et al. Secondary Succession and the Pattern of Plant Dominance Along Experimental Nitrogen Gradients , 1987 .
[30] John G. DENNISt. DISTRIBUTION PA'I"I'ERNS OF BELOWGROUND STANDING CROP IN ARCTIC TUNDRA AT BARROW, ALASKA* , 1977 .
[31] L. C. Bliss,et al. Adaptations of Luzula confusa to the Polar Semi-Desert Environment , 1984 .
[32] L. C. Bliss. Seed Germination in Arctic and Alpine Species , 1958 .
[33] J. E. Cantlon,et al. Succession on River Alluvium in Northern Alaska , 1957 .
[34] L. C. Bliss,et al. Susceptibility to Environmental Impact in the Queen Elizabeth Islands , 1974 .
[35] W. D. Billings,et al. TUNDRA VEGETATIONAL PATTERNS AND SUCCESSION IN RELATION TO MICROTOPOGRAPHY NEAR ATKASOOK, ALASKA , 1980 .
[36] P. Barrett,et al. Disturbance and the Successional Response of Arctic Plants on Polar Desert Habitats , 1975 .
[37] L. C. Bliss,et al. Responses of Ranunculus sabinei and Papaver radicatum to removal of the moss layer in a high-arctic meadow , 1987 .
[38] J. Ehleringer,et al. Some Aspects of Water Relations of Arctic and Alpine Regions , 1978 .
[39] J. McGraw. EXPERIMENTAL ECOLOGY OF DRYAS OCTOPETALA ECOTYPES: RELATIVE RESPONSE TO COMPETITORS , 1985 .
[40] J. Challinor,et al. Vehicle perturbation effects upon a Tundra soil-plant system. I. Effects on morphological and physical environmental properties of the soils , 1975 .
[41] J. P. Grime,et al. Evidence for the Existence of Three Primary Strategies in Plants and Its Relevance to Ecological and Evolutionary Theory , 1977, The American Naturalist.
[42] P. Webber,et al. Two Low Arctic Vegetation Maps near Atkasook, Alaska , 1980 .
[43] R. Wein,et al. Changes in Arctic Eriophorum Tussock Communities Following Fire , 1973 .
[44] F. Stuart Chapin,et al. Individualistic Growth Response of Tundra Plant Species to Environmental Manipulations in the Field , 1985 .
[45] David T. Tissue,et al. Response of Eriophorum Vaginatum to Elevated CO_2 and Temperature in the Alaskan Tussock Tundra , 1987 .
[46] Leslie A. Viereck,et al. PAT"TERNS OF VEGETATION RECOVERY AFT"'ER TUNDRA FIRES IN NORTHWESTERN ALASKA, U.S.A. , 1987 .
[47] L. C. Bliss,et al. Root growth in a polar semidesert environment , 1978 .
[48] L. Ovenden. Vegetation colonizing the bed of a recently drained thermokarst lake (Illisarvik), Northwest Territories , 1986 .
[49] F. Chapin,et al. Competitive Ability and Adaptation to Fertile and Infertile Soils in Two Eriophorum Species , 1989 .
[50] R. Wein,et al. Plant community responses to disturbances in the western Canadian Arctic , 1972 .
[51] F. Chapin. Phosphate Uptake and Nutrient Utilization by Barrow Tundra Vegetation , 1978 .
[52] D. Despain,et al. CO2 assimilation by Dryas integrifolia on Devon Island, Northwest Territories , 1973 .
[53] E. Odum. The strategy of ecosystem development. , 1969, Science.
[54] W. Oechel,et al. Maximum CO2‐assimilation rates of vascular plants on an Alaskan arctic tundra slope , 1989 .