Abstract
An understanding of plant responses to fluctuations in environment is critical to predictions of plant and ecosystem responses to climate change. In the northern hemisphere, the northern limits of distribution of major biomes are probably determined by the tolerance of their dominant physiognomic types (e.g., deciduous hardwood trees) to minimum winter temperatures and can thus be predicted from long-term patterns of temperature fluctuations. At a more detailed level, the responses of functional groups of plants to altered climate can be predicted from their known responses to fluctuations in soil resources (nutrients and water) and the expected effect of climatic change on these soil resources. Laboratory and field experiments demonstrate the feasibility of this approach.
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References
Augspurger C K 1984 Light requirements of neotropical tree seedlings: a comparative study of growth and survival;J. Ecol. 72 777–795
Bloom A J, Chapin F S III and Mooney H A 1985 Resource limitation in plants — an economic analysis;Annu. Rev. Ecol. Syst. 16 363–392
Bradshaw A D 1963 Evolutionary significance of phenotypic plasticity in plants;Adv. Genet. 13 115–155
Bullock S H 1986 Climate of Chamela, Jalisco, and trends in the South Coastal Region of Mexico;Arch. Meteorol Geophys. Bioclimatol. 36 297–316
Campbell B D and Grime J P 1989 A comparative study of plant responsiveness to the duration of episodes of mineral nutrient enrichment;New Phytol. 112 261–267
Chapin F S III 1980 The mineral nutrition of wild plants;Annu. Rev. Ecol. Syst. 11 233–260
Chapin F S III 1991 Effects of multiple environmental stresses on nutrient availability and use; inResponse of plants to multiple Stresses (eds) H A Mooney, W E Winner and E J Pell (San Diego: Academic Press) pp 67–88
Chapin F S III 1993 Functional role of growth forms in ecosystem and global processes; inScaling physiological processes: leaf to globe (eds) J R Ehleringer and C B Field (San Diego: Academic Press) pp 287–312
Chapin F S III, Bloom A J, Field C B and Waring R H 1987 Interaction of environmental factors in the control of plant growth;BioScience 37 49–57
Chapin F S III, Jefferies R L, Reynolds J F, Shaver G R and Svoboda J 1992 Arctic plant physiological ecology in an ecosystem context; inArctic ecosystems in a changing climate (eds) F S Chapin, R L Jefferies, J F Reynolds, G R Shaver and J Svoboda (San Diego: Academic Press) pp 441–451
Chapin F S III and Shaver G R 1985 Individualistic growth response of tundra plant species to manipulation of light, temperature, and nutrients in a field experiment;Ecology 66 564–576
Cohen Y and Pastor J 1991 The responses of a forest model to serial correlations of global warming;Ecology 72 1161–1165
COHMAP members 1988 Climatic changes of the last 18,000 years: observations and model simulations;Science 241 1043–1052
Crick J C and Grime J P 1987 Morphological plasticity and mineral nutrient capture in two herbaceous species of contrasted ecology;New Phytol. 107 403–414
Davis M B 1981 Quaternary history and the stability of forest communities; inForest succession: concepts and applications (eds) D C West, H H Shugart and D B Botkin (New York: Springer-Verlag) pp 132–153
de Ita-Martinez C and Barradas V L 1986 El clima y los patrones de production agricola en una selva baja caducifolia de la costa de Jalisco, Mexico;Biotropica 11 227–235
Drew M C and Saker L R 1975 Nutrient supply and the growth of the seminal root system in barley. II Localized, compensatory increases in lateral root growth and rates of nitrate uptake when nitrate supply is restricted to only part of the root system;J. Exp. Bot. 26 79–90
Field C and Mooney H A 1986 The photosynthesis-nitrogen relationship in wild plants; inOn the economy of plant form and function (ed.) T J Givnish (Cambridge: Cambridge Univ. Press) pp 25–55
Garcia-Oliva F, Ezcurra E and Galicia L 1991 Pattern of rainfall distribution in the Central Pacific Coast of Mexico;Geogr. Ann. 73 3–4
Gleason H A 1927 The individualistic concept of the plant association;Bull Torrey Bot. Club 53 7–26
Grime J P 1977 Evidence for the existence of three primary strategies in plants and its relevance to ecological and evolutionary theory;Am. Nat. 111 1169–1194
Grime J P 1991 Nutrition, environment and plant ecology: an overview; inPlant growth: interactions with nutrition and environment (eds) J R Porter and D W Lawlor (London: Soc. Exp. Biol.) pp 249–267
Grime J P, Crick J C and Rincon J E 1986 The ecological significance of plasticity; inPlasticity in plants (eds) D H Jennings and A J Trewavas (Cambridge: Soc. Exp. Biol.) pp 5–29
Grime J P, Hodgson J G and Hunt R 1988Comparative plant ecology. A functional approach to common British species (London: Unwin Hyman)
Hobbie S E, Jensen D B and Chapin F S III 1993 Resource supply and disturbance as controls over present and future plant diversity; inEcosystem function of biodiversity (eds) E-D Schulze and H A Mooney (Berlin: Springer-Verlag) pp 385–407
Huante P, Rincon E and Gavito M 1992 Root system analysis of seedlings of seven tree species from a tropical dry forest in Mexico;Trees 6 77–82
IGBP 1990aThe international geosphere-biosphere programme: a study of global change Report No. 12 (Stockholm: IGBP Secretariat)
IGBP 1990bThe land-atmosphere interface Report No. 10 (Stockholm: IGBP Secretariat)
Jackson R B, Manwaring J H and Caldwell M M 1990 Rapid physiological adjustment of roots to localized soil enrichment;Nature (London) 344 58–60
Lauenroth W K, Dodd J L and Sims P L 1978 The effects of water- and nitrogen-induced stresses on plant community structure in a semiarid grassland;Oecologia 36 211–222
Liverman D M and O’Brien K L 1991 Global warming and climate change in Mexico;Global Envriron. Change 1 351–364
Overpeck J T, Rind D and Goldberg R 1990 Climate-induced changes in forest disturbance and vegetation;Nature (London) 343 51–53
Pastor J and Post W M 1988 Response of northern forests to CO2-induced climate change;Nature (London) 334 55–58
Rincon E and Grime J P 1989 Plasticity and light interception by six bryophytes of contrasted ecology;J. Ecol. 77 439–446
Robinson D 1991 Strategies for optimizing growth in response to nutrient supply: inPlant growth: Interactions with nutrition and environment (eds) J R Porter and D W Lawlor (Cambridge: Cambridge Univ. Press) pp 177–205
Rorison I H 1991 Ecophysiological aspects of nutrition; inPlant growth: Interactions with nutrition and environment (eds) J R Porter and D W Lawlor (Cambridge: Cambridge Univ. Press) pp 157–176
Sakai A and Weiser C J 1973 Freezing resistance of trees in North America with reference to tree regions;Ecology 54 118–126
Sanchez-Coronado M E, Rincon E and Vazquez-Yanes C 1989 Growth responses of three contrastingPiper species growing under different light conditions;Can. J. Bot. 68 1182–1186
Shipley B and Keddy P A 1988 The relationship between relative growth rate and sensitivity to nutrient stress in twenty-eight species of emergent macrophytes;J. Ecol. 76 1101–1110
Solomon A M 1986 Transient response of forests to CO2-induced climatic change: simulation modeling experiments in eastern North America;Oecologia 68 567–579
Tilman D 1988 Plant strategies and the structure and dynamics of plant communities (Princeton: Princeton Univ. Press)
Walters M B and Field C B 1987 Photosynthetic light acclimation in two rainforestPiper species with different ecological amplitudes;Oecologia 72 449–456
Whittaker R H 1975Communities and ecosystems 2nd edition (London: MacMillan)
Woodward F I 1987Climate and plant distribution (Cambridge: Cambridge Univ. Press)
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Chapin, F.S., Rincon, E. & Huante, P. Environmental responses of plants and ecosystems as predictors of the impact of global change. J. Biosci. 18, 515–524 (1993). https://doi.org/10.1007/BF02703083
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DOI: https://doi.org/10.1007/BF02703083