The functional basis of a primary succession resolved by CSR classification

CSR classification aims to apply CSR theory to large numbers of plants in situ, thereby allowing the investigation of communities within a functional context. However, it has only ever been applied to British vegetation, during the development of the technique, and has not yet been used to investiga...

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Published inOikos Vol. 112; no. 1; pp. 10 - 20
Main Authors Caccianiga, Marco, Luzzaro, Alessandra, Pierce, Simon, Ceriani, Roberta M., Cerabolini, Bruno
Format Journal Article
LanguageEnglish
Published Copenhagen Munksgaard International Publishers 01.01.2006
Blackwell Publishers
Blackwell
Blackwell Publishing Ltd
Subjects
Alpine plants
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Classification
Community ecology
Ecological succession
Flowers & plants
Fundamental and applied biological sciences. Psychology
General aspects
Glacial landforms
Glaciers
Habitats
Moraines
Ordination
Plant ecology
Plants
Principal components analysis
Vegetation
Italy
Europe
Competition
Theory
Classification
Tolerance
Moraines
Vegetation succession
Stress
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Abstract CSR classification aims to apply CSR theory to large numbers of plants in situ, thereby allowing the investigation of communities within a functional context. However, it has only ever been applied to British vegetation, during the development of the technique, and has not yet been used to investigate specific vegetation processes. Here, a vegetation primary succession on a glacier foreland (Rutor glacier, Aosta, Italy) was used as a 'test bed' for the hypothesis that CSR classification can distinguish functional shifts during this vegetation process. Morpho-functional traits were used to calculate CSR coordinates for 45 species throughout the glacier foreland. General functional similarities between species were verified using principal components analysis (PCA). CSR classification demonstrated a functional shift from broadly ruderal pioneers towards stress-tolerance in late succession. PCA 1 correlated with S and R strategies, confirming this gradient. Till deposited at the retreating glacier terminus provides a substrate that can support faster growing species (with high foliar N contents), but is only tenable to those that can avoid physical disturbance via rapid phenological development (i.e. ruderals). Stress-tolerance and lower N contents in late succession suggest selection for efficient nutrient use. CSR classification demonstrated that competitive traits were ubiquitous but of much lesser importance than stress-tolerance or ruderalism (also correlating with PCA 2 and 3). The detailed visualization provided by CSR classification, combined with its mechanistic explanation of community change, demonstrate the promise of this methodology as a quantitative tool for comparative community ecology.
AbstractList CSR classification aims to apply CSR theory to large numbers of plants in situ, thereby allowing the investigation of communities within a functional context. However, it has only ever been applied to British vegetation, during the development of the technique, and has not yet been used to investigate specific vegetation processes. Here, a vegetation primary succession on a glacier foreland (Rutor glacier, Aosta, Italy) was used as a ‘test bed’ for the hypothesis that CSR classification can distinguish functional shifts during this vegetation process. Morpho‐functional traits were used to calculate CSR coordinates for 45 species throughout the glacier foreland. General functional similarities between species were verified using principal components analysis (PCA). CSR classification demonstrated a functional shift from broadly ruderal pioneers towards stress‐tolerance in late succession. PCA 1 correlated with S and R strategies, confirming this gradient. Till deposited at the retreating glacier terminus provides a substrate that can support faster growing species (with high foliar N contents), but is only tenable to those that can avoid physical disturbance via rapid phenological development (i.e. ruderals). Stress‐tolerance and lower N contents in late succession suggest selection for efficient nutrient use. CSR classification demonstrated that competitive traits were ubiquitous but of much lesser importance than stress‐tolerance or ruderalism (also correlating with PCA 2 and 3). The detailed visualization provided by CSR classification, combined with its mechanistic explanation of community change, demonstrate the promise of this methodology as a quantitative tool for comparative community ecology.
CSR classification aims to apply CSR theory to large numbers of plants in situ, thereby allowing the investigation of communities within a functional context. However, it has only ever been applied to British vegetation, during the development of the technique, and has not yet been used to investigate specific vegetation processes. Here, a vegetation primary succession on a glacier foreland (Rutor glacier, Aosta, Italy) was used as a 'test bed' for the hypothesis that CSR classification can distinguish functional shifts during this vegetation process. Morpho-functional traits were used to calculate CSR coordinates for 45 species throughout the glacier foreland. General functional similarities between species were verified using principal components analysis (PCA). CSR classification demonstrated a functional shift from broadly ruderal pioneers towards stress-tolerance in late succession. PCA 1 correlated with S and R strategies, confirming this gradient. Till deposited at the retreating glacier terminus provides a substrate that can support faster growing species (with high foliar N contents), but is only tenable to those that can avoid physical disturbance via rapid phenological development (i.e. ruderals). Stress-tolerance and lower N contents in late succession suggest selection for efficient nutrient use. CSR classification demonstrated that competitive traits were ubiquitous but of much lesser importance than stress-tolerance or ruderalism (also correlating with PCA 2 and 3). The detailed visualization provided by CSR classification, combined with its mechanistic explanation of community change, demonstrate the promise of this methodology as a quantitative tool for comparative community ecology. [PUBLICATION ABSTRACT]
Author Pierce, Simon
Luzzaro, Alessandra
Ceriani, Roberta M.
Caccianiga, Marco
Cerabolini, Bruno
Author_xml – sequence: 1
  givenname: Marco
  surname: Caccianiga
  fullname: Caccianiga, Marco
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  givenname: Alessandra
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  givenname: Simon
  surname: Pierce
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  givenname: Roberta M.
  surname: Ceriani
  fullname: Ceriani, Roberta M.
– sequence: 5
  givenname: Bruno
  surname: Cerabolini
  fullname: Cerabolini, Bruno
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Issue 1
Keywords Competition
Theory
Classification
Tolerance
Moraines
Vegetation succession
Stress
Language English
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References Tilman, D.. 1985. The resource ratio hypothesis of plant succession. Am. Nat. 125: 827-852.
Ter Braak, C. J. F. and Smilauer, P.. 2002. CANOCO reference manual and CanoDraw for Windows user's guide: software for canonical community ordination (v 4.5). Microcomputer Power, Ithaka.
Økland, R. H.. 1990. Vegetation ecology: theory, methods and applications with reference to Fennoscandia. Sommerfeltia Suppl. 1: 1-233.
Borland, A. M., Griffiths, H., Maxwell, C. et al. 1996. CAM induction in Clusia minor L. during the transition from wet to dry season in Trinidad: the role of organic acid speciation and decarboxylation. Plant Cell Environ. 19: 655-664.
Díaz, S., Hodgson, J. G., Thompson, K. et al. 2004. The plant traits that drive ecosystems: evidence from three continents. J. Veg. Sci. 15: 295-304.
Oksanen, L. and Ranta, E.. 1992. Plant strategies along mountain vegetation gradients: a test of two theories. J. Veg. Sci. 3: 175-186.
Pierce, S., Winter, K. and Griffiths, H.. 2002. The role of CAM in high rainfall cloud forests: an in situ comparison of photosynthetic pathways in Bromeliaceae. Plant Cell Environ. 25: 1181-1189.
Wilson, J. B. and Lee, W. G.. 2000. C-S-R triangle theory: community-level predictions, tests, evaluation of criticisms, and relation to other theories. Oikos 91: 77-96.
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.
Økland, R. H.. 1996. Are ordination and constrained ordination alternative or complementary strategies in general ecological studies?. J. Veg. Sci. 7: 289-292.
Erschbamer, B., Kneringer, E. and Niederfriniger-Schlag, R.. 2001. Seed rain, soil seed bank, seedling recruitment, and survival of seedlings on a glacier foreland in the Central Alps. Flora 196: 304-312.
Mittler, R., Merquiol, E., Hallak-Herr, E. et al. 2001. Living under a 'dormant' canopy: a molecular acclimation mechanism of the desert plant Retama raetam. Plant J. 25: 407-416.
Pignatti, S.. 1982. Flora d'Italia. Edagricole, Bologna.
Sacco, F.. 1917. Il ghiacciaio e i laghi del Rutor. Boll. Soc. Geol. Italiana 36: 1-36.
Chapin, F. S. III, Walker, L. R., Fastie, C. L. et al. 1994. Mechanisms of primary succession following deglaciation at Glacier Bay, Alaska. Ecol. Monogr. 64: 149-175.
Caccianiga, M. and Andreis, C.. 2004. Pioneer herbaceous vegetation on glacier forelands in the Italian Alps. Phytocoenologia 34: 55-89.
Fitter, A. H. and Parsons, W. F. J.. 1996. Changes in phosphorus and nitrogen availability on recessional moraines of the Athabasca Glacier, Alberta. Can. J. Bot. 65: 210-213.
Green, T. G. A., Schroeter, B., Kappen, L. et al. 1998. An assessment of the relationship between chlorophyll a fluorescence and CO2 gas exchange from field measurements on a moss and lichen. Planta 206: 611-618.
Hodgson, J. G., Wilson, P. J., Hunt, R. et al. 1999. Allocating CSR plant functional types: a soft approach to a hard problem. Oikos 85: 282-294.
Porter, S. and Orombelli, G.. 1985. Glacier contraction during the Middle Holocene in the western Italian Alps: evidence and implications. Geology 13: 269-298.
Zollitsch, B.. 1969. Die Vegetationsentwicklung im Pasterzenvorfeld. Wiss. Alpenvereinsheft (München) 21: 267-290.
Maxwell, C., Griffiths, H. and Young, A. J.. 1994. Photosynthetic acclimation to light regime and water stress by the C3-CAM epiphyte Guzmania monostachia: gas-exchange characteristics, photochemical efficiency and the xanthophyll cycle. Funct. Ecol. 8: 746-754.
Baretti, M.. 1880. Il Lago del Rutor (Alpi Graie Settentrionali). Torino, Annuario Club Alpino Italiano.
Tilman, D.. 1987. On the meaning of competition and the mechanisms of competitive superiority. Funct. Ecol. 1: 304-315.
Tilman, D.. 1988. Plant strategies and the dynamics and structure of plant communities. Princeton Univ. Press.
Kachi, N. and Rorison, I. H.. 1989. Optimal partitioning between root and shoot in plants with contrasted growth-rates in response to nitrogen availability and temperature. Funct. Ecol. 3: 549-559.
Podani, J.. 1994. Multivariate data analysis in ecology and systematics. Ecological Computations Series. Vol. 6. SPD Academic Publishing.
Peretti, L. and Charrier, G.. 1967. Segnalazione e analisi pollinica di torba deposta alla fronte attuale del ghiacciaio del Rutor (Valle d'Aosta). Considerazioni di paleogeografia e paleoclimatologia locale. Boll Comitato Glaciol. Italiano, 14-II serie. Torino, Italy.
Volis, S., Mendlinger, S. and Ward, D.. 2002. Differentiation in populations of Hordeum spontaneum Koch along a gradient of environmental productivity and predictability: plasticity in response to water and nutrient stress. Biol. J. Linn. Soc. 75: 301-312.
Grime, J. P.. 1974. Vegetation classification by reference to strategies. Nature 250: 26-31.
Hadley, E. B. and Bliss, L. C.. 1964. Energy relationships of alpine plants on Mt Washington, New Hampshire. Ecol. Monogr. 34: 331-357.
Matthews, J. A.. 1992. The ecology of recently deglaciated terrain. A geoecological approach to glacier forelands and primary succession. Cambridge studies in ecology. Cambridge Univ. Press.
Stork, A.. 1963. Plant immigration in front of retreating glaciers, with examples from the Kebnekajse area, northern Sweden. Geografiska Annaler 45: 1-22.
Pannewitz, S., Green, T. G. A., Scheidegger, C. et al. 2003. Activity pattern of the moss Hennediella heimii (Hedw.) Zand. in the dry valleys, southern Victoria Land, Antarctica during the mid-austral summer. Polar Biol. 26: 545-551.
Parigi, A., Maggi, W. and Orombelli, G.. 1999. Variazioni frontali del Ghiacciaio del Rutor dal 1820 al 1998. 8th Italian Glaciol. Congr., Bormio, Settembre, p. 1999.
Wilson, P. J., Thompson, K. and Hodgson, J. H.. 1999. Specific leaf area and leaf dry matter content as alternative predictors of plant strategies. New Phytol. 143: 155-162.
Grime, J. P.. 2001. Plant strategies, vegetation processes and ecosystem properties, 2nd ed.. Wiley.
Körner, Ch., Neumayer, M., Pelaez Menendez-Riedel, S. et al. 1989. Functional morphology of mountain plants. Flora 182: 353-383.
Olff, H.. 1992. Effects of light and nutrient availability on dry-matter and N-allocation in six successional grassland species - testing for resource ratio effects. Oecologia 89: 412-421.
Grime, J. P.. 1979. Plant strategies and vegetation processes. Wiley.
Grime, J. P. and Mackey, J. M. L.. 2002. The role of plasticity in resource capture by plants. Evol. Ecol. 16: 299-307.
Peretti, L.. 1935. Gruppo del Rutor e Miravidi-Lechaud. Boll Comitato Glaciol. Italiano e della Commissione Glaciologica del C.A.I. 15, Torino, Italy.
Grime, J. P., Thompson, K, Hodgson, J. G. et al. 1997. Integrated screening validates primary axes of specialisation in plants. Oikos 79: 259-281.
Körner, Ch.. 1999a. Alpine plant life: functional plant ecology of high mountain ecosystems. Springer.
Diemer, M.. 1996. The incidence of herbivory in high-elevation populations of Ranunculus glacialis: a re-evaluation of stress-tolerance in alpine habitats. Oikos 75: 485-492.
Sacco, F.. 1934. L'anfiteatro morenico recente del Rutor. L'Universo, Anno15 11: 1-16.
Fransen, B., De Kroon, H. and Berendse, F.. 1998. Root morphological plasticity and nutrient acquisition of perennial grass species from habitats of different nutrient availability. Oecologia 115: 351-358.
Austin, M. P. and Gaywood, M. J.. 1994. Current problems of environmental gradients and species response curves in relation to continuum theory. J. Veg. Sci. 5: 473-482.
Theurillat, J. P.. 1992. Etude et Cartographie du paysage végétal (symphytocoenologie) dans la région d'Altesch (Valais, Suisse). Beitr. Geobot. Landesaufn. Schweiz, p. 68.
Ortiz, C. A., Bravo, L. A., Pinto, M. et al. 1995. Physiological and molecular responses of Prosopis chilensis under field and simulated conditions. Phytochemistry 40: 1375-1382.
Körner, Ch.. 1989. The nutritional status of plants from high altitudes: a worldwide comparison. Oecologia 81: 379-391.
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.
Gleeson, S. K. and Tilman, D.. 1994. Plant allocation, growth rate and successional status. Funct. Ecol. 8: 543-550.
Grace, J. B.. 1991. A clarification of the debate between Grime and Tilman. Funct. Ecol. 5: 583-587.
Ozenda, P.. 1985. La végétation de la Châine Alpine. Masson, Paris.
Billings, W. D. and Mooney, H. A.. 1968. The ecology of arctic and alpine plants. Biol. Rev. 43: 481-529.
Müntzing, A.. 1936. The evolutionary significance of autoploidy. Hereditas 21: 263-378.
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References_xml – reference: Pignatti, S.. 1982. Flora d'Italia. Edagricole, Bologna.
– reference: Peretti, L. and Charrier, G.. 1967. Segnalazione e analisi pollinica di torba deposta alla fronte attuale del ghiacciaio del Rutor (Valle d'Aosta). Considerazioni di paleogeografia e paleoclimatologia locale. Boll Comitato Glaciol. Italiano, 14-II serie. Torino, Italy.
– reference: Caccianiga, M. and Andreis, C.. 2004. Pioneer herbaceous vegetation on glacier forelands in the Italian Alps. Phytocoenologia 34: 55-89.
– reference: Ter Braak, C. J. F. and Smilauer, P.. 2002. CANOCO reference manual and CanoDraw for Windows user's guide: software for canonical community ordination (v 4.5). Microcomputer Power, Ithaka.
– reference: Tilman, D.. 1988. Plant strategies and the dynamics and structure of plant communities. Princeton Univ. Press.
– reference: Fitter, A. H. and Parsons, W. F. J.. 1996. Changes in phosphorus and nitrogen availability on recessional moraines of the Athabasca Glacier, Alberta. Can. J. Bot. 65: 210-213.
– reference: Sacco, F.. 1917. Il ghiacciaio e i laghi del Rutor. Boll. Soc. Geol. Italiana 36: 1-36.
– reference: Borland, A. M., Griffiths, H., Maxwell, C. et al. 1996. CAM induction in Clusia minor L. during the transition from wet to dry season in Trinidad: the role of organic acid speciation and decarboxylation. Plant Cell Environ. 19: 655-664.
– reference: Díaz, S., Hodgson, J. G., Thompson, K. et al. 2004. The plant traits that drive ecosystems: evidence from three continents. J. Veg. Sci. 15: 295-304.
– reference: Körner, Ch.. 1989. The nutritional status of plants from high altitudes: a worldwide comparison. Oecologia 81: 379-391.
– reference: Tilman, D.. 1987. On the meaning of competition and the mechanisms of competitive superiority. Funct. Ecol. 1: 304-315.
– reference: Tilman, D.. 1985. The resource ratio hypothesis of plant succession. Am. Nat. 125: 827-852.
– reference: Podani, J.. 1994. Multivariate data analysis in ecology and systematics. Ecological Computations Series. Vol. 6. SPD Academic Publishing.
– reference: Fransen, B., De Kroon, H. and Berendse, F.. 1998. Root morphological plasticity and nutrient acquisition of perennial grass species from habitats of different nutrient availability. Oecologia 115: 351-358.
– reference: Körner, Ch.. 1999a. Alpine plant life: functional plant ecology of high mountain ecosystems. Springer.
– reference: Ozenda, P.. 1985. La végétation de la Châine Alpine. Masson, Paris.
– reference: Baretti, M.. 1880. Il Lago del Rutor (Alpi Graie Settentrionali). Torino, Annuario Club Alpino Italiano.
– reference: Billings, W. D. and Mooney, H. A.. 1968. The ecology of arctic and alpine plants. Biol. Rev. 43: 481-529.
– reference: Olff, H.. 1992. Effects of light and nutrient availability on dry-matter and N-allocation in six successional grassland species - testing for resource ratio effects. Oecologia 89: 412-421.
– reference: Pannewitz, S., Green, T. G. A., Scheidegger, C. et al. 2003. Activity pattern of the moss Hennediella heimii (Hedw.) Zand. in the dry valleys, southern Victoria Land, Antarctica during the mid-austral summer. Polar Biol. 26: 545-551.
– reference: Mittler, R., Merquiol, E., Hallak-Herr, E. et al. 2001. Living under a 'dormant' canopy: a molecular acclimation mechanism of the desert plant Retama raetam. Plant J. 25: 407-416.
– reference: Theurillat, J. P.. 1992. Etude et Cartographie du paysage végétal (symphytocoenologie) dans la région d'Altesch (Valais, Suisse). Beitr. Geobot. Landesaufn. Schweiz, p. 68.
– reference: Wilson, J. B. and Lee, W. G.. 2000. C-S-R triangle theory: community-level predictions, tests, evaluation of criticisms, and relation to other theories. Oikos 91: 77-96.
– reference: 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.
– reference: Sacco, F.. 1934. L'anfiteatro morenico recente del Rutor. L'Universo, Anno15 11: 1-16.
– reference: Gleeson, S. K. and Tilman, D.. 1994. Plant allocation, growth rate and successional status. Funct. Ecol. 8: 543-550.
– reference: Grime, J. P. and Mackey, J. M. L.. 2002. The role of plasticity in resource capture by plants. Evol. Ecol. 16: 299-307.
– reference: Stork, A.. 1963. Plant immigration in front of retreating glaciers, with examples from the Kebnekajse area, northern Sweden. Geografiska Annaler 45: 1-22.
– reference: Grime, J. P., Thompson, K, Hodgson, J. G. et al. 1997. Integrated screening validates primary axes of specialisation in plants. Oikos 79: 259-281.
– reference: Müntzing, A.. 1936. The evolutionary significance of autoploidy. Hereditas 21: 263-378.
– reference: Hodgson, J. G., Wilson, P. J., Hunt, R. et al. 1999. Allocating CSR plant functional types: a soft approach to a hard problem. Oikos 85: 282-294.
– reference: Grime, J. P.. 1974. Vegetation classification by reference to strategies. Nature 250: 26-31.
– reference: Volis, S., Mendlinger, S. and Ward, D.. 2002. Differentiation in populations of Hordeum spontaneum Koch along a gradient of environmental productivity and predictability: plasticity in response to water and nutrient stress. Biol. J. Linn. Soc. 75: 301-312.
– reference: 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.
– reference: Pierce, S., Winter, K. and Griffiths, H.. 2002. The role of CAM in high rainfall cloud forests: an in situ comparison of photosynthetic pathways in Bromeliaceae. Plant Cell Environ. 25: 1181-1189.
– reference: Hadley, E. B. and Bliss, L. C.. 1964. Energy relationships of alpine plants on Mt Washington, New Hampshire. Ecol. Monogr. 34: 331-357.
– reference: Oksanen, L. and Ranta, E.. 1992. Plant strategies along mountain vegetation gradients: a test of two theories. J. Veg. Sci. 3: 175-186.
– reference: Körner, Ch., Neumayer, M., Pelaez Menendez-Riedel, S. et al. 1989. Functional morphology of mountain plants. Flora 182: 353-383.
– reference: Grace, J. B.. 1991. A clarification of the debate between Grime and Tilman. Funct. Ecol. 5: 583-587.
– reference: Green, T. G. A., Schroeter, B., Kappen, L. et al. 1998. An assessment of the relationship between chlorophyll a fluorescence and CO2 gas exchange from field measurements on a moss and lichen. Planta 206: 611-618.
– reference: Peretti, L.. 1935. Gruppo del Rutor e Miravidi-Lechaud. Boll Comitato Glaciol. Italiano e della Commissione Glaciologica del C.A.I. 15, Torino, Italy.
– reference: Diemer, M.. 1996. The incidence of herbivory in high-elevation populations of Ranunculus glacialis: a re-evaluation of stress-tolerance in alpine habitats. Oikos 75: 485-492.
– reference: Erschbamer, B., Kneringer, E. and Niederfriniger-Schlag, R.. 2001. Seed rain, soil seed bank, seedling recruitment, and survival of seedlings on a glacier foreland in the Central Alps. Flora 196: 304-312.
– reference: Wilson, P. J., Thompson, K. and Hodgson, J. H.. 1999. Specific leaf area and leaf dry matter content as alternative predictors of plant strategies. New Phytol. 143: 155-162.
– reference: Økland, R. H.. 1990. Vegetation ecology: theory, methods and applications with reference to Fennoscandia. Sommerfeltia Suppl. 1: 1-233.
– reference: Zollitsch, B.. 1969. Die Vegetationsentwicklung im Pasterzenvorfeld. Wiss. Alpenvereinsheft (München) 21: 267-290.
– reference: Grime, J. P.. 1979. Plant strategies and vegetation processes. Wiley.
– reference: Austin, M. P. and Gaywood, M. J.. 1994. Current problems of environmental gradients and species response curves in relation to continuum theory. J. Veg. Sci. 5: 473-482.
– reference: Kachi, N. and Rorison, I. H.. 1989. Optimal partitioning between root and shoot in plants with contrasted growth-rates in response to nitrogen availability and temperature. Funct. Ecol. 3: 549-559.
– reference: Matthews, J. A.. 1992. The ecology of recently deglaciated terrain. A geoecological approach to glacier forelands and primary succession. Cambridge studies in ecology. Cambridge Univ. Press.
– reference: Parigi, A., Maggi, W. and Orombelli, G.. 1999. Variazioni frontali del Ghiacciaio del Rutor dal 1820 al 1998. 8th Italian Glaciol. Congr., Bormio, Settembre, p. 1999.
– reference: Økland, R. H.. 1996. Are ordination and constrained ordination alternative or complementary strategies in general ecological studies?. J. Veg. Sci. 7: 289-292.
– reference: Grime, J. P.. 2001. Plant strategies, vegetation processes and ecosystem properties, 2nd ed.. Wiley.
– reference: Maxwell, C., Griffiths, H. and Young, A. J.. 1994. Photosynthetic acclimation to light regime and water stress by the C3-CAM epiphyte Guzmania monostachia: gas-exchange characteristics, photochemical efficiency and the xanthophyll cycle. Funct. Ecol. 8: 746-754.
– reference: Porter, S. and Orombelli, G.. 1985. Glacier contraction during the Middle Holocene in the western Italian Alps: evidence and implications. Geology 13: 269-298.
– reference: Ortiz, C. A., Bravo, L. A., Pinto, M. et al. 1995. Physiological and molecular responses of Prosopis chilensis under field and simulated conditions. Phytochemistry 40: 1375-1382.
– reference: Chapin, F. S. III, Walker, L. R., Fastie, C. L. et al. 1994. Mechanisms of primary succession following deglaciation at Glacier Bay, Alaska. Ecol. Monogr. 64: 149-175.
– start-page: 403
  year: 1983
  end-page: 410
– year: 1985
– year: 1999a
– volume: 3
  start-page: 549
  year: 1989
  end-page: 559
  article-title: Optimal partitioning between root and shoot in plants with contrasted growth‐rates in response to nitrogen availability and temperature
  publication-title: Funct. Ecol.
– volume: 206
  start-page: 611
  year: 1998
  end-page: 618
  article-title: An assessment of the relationship between chlorophyll a fluorescence and CO gas exchange from field measurements on a moss and lichen
  publication-title: Planta
– volume: 250
  start-page: 26
  year: 1974
  end-page: 31
  article-title: Vegetation classification by reference to strategies
  publication-title: Nature
– volume: 5
  start-page: 473
  year: 1994
  end-page: 482
  article-title: Current problems of environmental gradients and species response curves in relation to continuum theory
  publication-title: J. Veg. Sci.
– year: 2001
– volume: 75
  start-page: 301
  year: 2002
  end-page: 312
  article-title: Differentiation in populations of Koch along a gradient of environmental productivity and predictability: plasticity in response to water and nutrient stress
  publication-title: Biol. J. Linn. Soc.
– volume: 89
  start-page: 412
  year: 1992
  end-page: 421
  article-title: Effects of light and nutrient availability on dry‐matter and N‐allocation in six successional grassland species – testing for resource ratio effects
  publication-title: Oecologia
– volume: 65
  start-page: 210
  year: 1996
  end-page: 213
  article-title: Changes in phosphorus and nitrogen availability on recessional moraines of the Athabasca Glacier, Alberta
  publication-title: Can. J. Bot.
– volume: 1
  start-page: 1
  year: 1990
  end-page: 233
  article-title: Vegetation ecology: theory, methods and applications with reference to Fennoscandia
  publication-title: Sommerfeltia Suppl.
– volume: 107
  start-page: 403
  year: 1987
  end-page: 414
  article-title: Morphological plasticity and mineral nutrient capture in two herbaceous species of contrasted ecology
  publication-title: New Phytol.
– volume: 19
  start-page: 655
  year: 1996
  end-page: 664
  article-title: CAM induction in L. during the transition from wet to dry season in Trinidad: the role of organic acid speciation and decarboxylation
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Snippet CSR classification aims to apply CSR theory to large numbers of plants in situ, thereby allowing the investigation of communities within a functional context....
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SubjectTerms Alpine plants
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Classification
Community ecology
Ecological succession
Flowers & plants
Fundamental and applied biological sciences. Psychology
General aspects
Glacial landforms
Glaciers
Habitats
Moraines
Ordination
Plant ecology
Plants
Principal components analysis
Vegetation
Title The functional basis of a primary succession resolved by CSR classification
URI https://api.istex.fr/ark:/67375/WNG-MGM05DR6-B/fulltext.pdf
https://www.jstor.org/stable/3548553
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fj.0030-1299.2006.14107.x
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