Retrospective analysis of tree architecture in silver fir (Abies alba Mill.): ontogenetic trends and responses to environmental variability

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• 作者：Olivier Taugourdeau (1)
  Jean Dauzat (2)
  Sébastien Griffon (2)
  Sylvie Sabatier (2)
  Yves Caraglio (2)
  Daniel Barthélémy (3) (4)
  
• 关键词：Morphological markers ; A posteriori approach ; Tree development ; Phenotypic plasticity ; Morphogenetic gradient
• 刊名：Annals of Forest Science
• 出版年：2012
• 出版时间：September 2012
• 年：2012
• 卷：69
• 期：6
• 页码：713-721
• 全文大小：679KB
• 参考文献：1. Barthélémy D, Caraglio Y (2007) Plant architecture: a dynamic, multilevel and comprehensive approach to plant form, structure and ontogeny. Ann Bot 99:375-07 CrossRef
  2. Barthélémy D, Caraglio Y, Sabatier S (2010) Crown architecture of valuable broadleaved species. In: Spiecker H, Hein S, Makkonen-Spiecker K, Thies M (eds) Valuable broadleaved forests in Europe. Leyde, Brill, pp 87-01
  3. Bonan GB (2008) Forests and climate change: forcings, feedbacks, and the climate benefits of forests. Science 320:1444-449 CrossRef
  4. Bontemps J, Herve J, Dhote J (2009) Long-term changes in forest productivity: a consistent assessment in even-aged stands. For Sci 55:549-64
  5. Cailleret M (2011) Causes fonctionnelles du dépérissement et de la mortalité du sapin pectiné en Provence, PhD thesis. University of Aix-Marseille III, Avignon, France
  6. Cailleret M, Davi H (2010) Effects of climate on diameter growth of co-occurring / Fagus sylvatica and / Abies alba along an altitudinal gradient. Trees 25:265-76
  7. Caraglio Y, Rigolot E, Pimont F (2007) / Pinus halepensis Mill. Architectural analysis for fuel modelling. Proceedings of the international workshop MEDPINE. pp 43-9
  8. Charles-Dominique T, Mangenet T, Rey H et al (2009) Architectural analysis of root system of sexually vs. vegetatively propagated yam ( / Dioscorea rotundata Poir.), a tuber monocot. Plant Soil 317:61-7 CrossRef
  9. Chaubert-Pereira F, Caraglio Y, Lavergne C, Guédon Y (2009) Identifying ontogenetic, environmental and individual components of forest tree growth. Ann Bot 104:883-96 CrossRef
  10. Cienciala E, Cerny M, Tatarinov F et al (2006) Biomass functions applicable to Scots pine. Trees 20:483-95 CrossRef
  11. De Kroon H, Visser EJW, Huber H et al (2009) A modular concept of plant foraging behaviour: the interplay between local responses and systemic control. Plant Cell Environ 32:704-12 CrossRef
  12. Delagrange S, Montpied P, Dreyer E et al (2006) Does shade improve light interception efficiency? A comparison among seedlings from shade-tolerant and -intolerant temperate deciduous tree species. New Phytol 172:293-04 CrossRef
  13. Drobyshev I, Overgaard R, Saygin I et al (2010) Masting behaviour and dendrochronology of European beech ( / Fagus sylvatica L.) in southern Sweden. For Ecol Manag 259:2160-171 CrossRef
  14. Dulamsuren C, Hauck M, Leuschner HH, Leuschner C (2011) Climate response of tree-ring width in / Larix sibirica growing in the drought-stressed forest-steppe ecotone of northern Mongolia. Ann For Sci 68:275-82 CrossRef
  15. Dyer M, Bailey R (1987) A test of 6 methods for estimating true heights from stem analysis data. For Sci 33:3-3
  16. Edelin C (1977) Images de l’architecture des conifères, PhD thesis. Université de Montpellier II, Montpellier
  17. Everett RG (2008) Dendrochronology-based fire history of mixed-conifer forests in the San Jacinto Mountains, California. For Ecol Manag 256:1805-814 CrossRef
  18. Frazer G, Canham C, Lertzman K (1999) Gap Light Analyzer (GLA): imaging software to extract canopy structure and gap light transmission indices from true-colour fisheye photographs, user’s manual and program documentation. Simon Fraser University, Burnaby
  19. Godin C, Caraglio Y (1998) A multiscale model of plant topological structures. J Theor Biol 191:1-6 CrossRef
  20. Hallé F, Martin R (1968) Etude de la croissance rythmique chez l’Hévéa ( / Hevea brasiliensis Müll.-Arg. Euphorbiacées-Crotono?dées). Adansonia 8:475-03
  21. Heuret P, Guédon Y, Guérard N, Barthélémy D (2003) Analysing branching pattern in plantations of young red oak trees ( / Quercus rubra L., Fagaceae). Ann Bot 91:479-92 CrossRef
  22. Heuret P, Meredieu C, Coudurier T et al (2006) Ontogenetic trends in the morphological features of main stem annual shoots of / Pinus pinaster (Pinaceae). Am J Bot 93:1577-587 CrossRef
  23. Jourdan C, Rey H (1997) Architecture and development of the oil-palm ( / Elaeis guineensis Jacq) root system. Plant Soil 189:33-8 CrossRef
  24. Kariuki M (2002) Height estimation in complete stem analysis using annual radial growth measurements. Forestry 75:63-4 CrossRef
  25. Kawamura K (2010) A conceptual framework for the study of modular responses to local environmental heterogeneity within the plant crown and a review of related concepts. Ecol Res 25:733-44 CrossRef
  26. Kelty M (2006) The role of species mixtures in plantation forestry. For Ecol Manag 233:195-04 CrossRef
  27. Lehtonen A, Makipaa R, Heikkinen J et al (2004) Biomass expansion factors (BEFs) for Scots pine, Norway spruce and birch according to stand age for boreal forests. For Ecol Manag 188:211-24 CrossRef
  28. Linares JC, Camarero JJ, Carreira JA (2010) Competition modulates the adaptation capacity of forests to climatic stress: insights from recent growth decline and death in relict stands of the Mediterranean fir / Abies pinsapo. J Ecology 98:592-03 CrossRef
  29. Metsaranta J, Lieffers V (2009) Using dendrochronology to obtain annual data for modelling stand development: a supplement to permanent sample plots. Forestry 82:163-73 CrossRef
  30. Pradal C, Dufour-Kowalski S, Boudon F et al (2008) OpenAlea: a visual programming and component-based software platform for plant modelling. Funct Plant Biol 35:751-60 CrossRef
  31. Rey H, Godin C, Guédon Y (1997) Vers une représentation formelle des plantes. In: Bouchon J, De Reffye P, Barthélémy D (eds) Modélisation et simulation de l’architecture des végétaux, INRA éditions. INRA éditions, Paris, pp 139-74
  32. Richardson S, Smale M, Hurst J et al (2009) Large-tree growth and mortality rates in forests of the central North Island, New Zealand. New Zealand J Ecol 33:208-15
  33. Robakowski P, Wyka T, Samardakiewicz S, Kierzkowski D (2004) Growth, photosynthesis, and needle structure of silver fir ( / Abies alba Mill.) seedlings under different canopies. For Ecol Manag 201:211-27 CrossRef
  34. Rutishauser E, Barthélémy D, Blanc L, Nicolini E (2011) Crown fragmentation assessment in tropical trees: method, insights and perspectives. For Ecol Manag 261:400-07 CrossRef
  35. Sabatier S, Baradat Ph, Barthélémy D (2003) Intra- and interspecific variations of polycyclism in young trees of / Cedrus atlantica (Endl.) Manetti ex. Carrière and / Cedrus libani A. Rich (Pinaceae). Ann For Sci 60:19-9 CrossRef
  36. Sato H, Itoh A, Kohyama T (2007) SEIB-DGVM: a new dynamic global vegetation model using a spatially explicit individual-based approach. Ecol Modell 200:279-07 CrossRef
  37. Saulnier M, Edouard JL, Corona C, Guibal F (2011) Climate/growth relationships in a / Pinus cembra high-elevation network in the Southern French Alps. Ann For Sci 68:189-00 CrossRef
  38. Schenk HJ (1996) Modeling the effects of temperature on growth and persistence of tree species: a critical review of tree population models. Ecol Modell 92:1-2 CrossRef
  39. Schweingruber FH (1996) Tree rings and environment: dendroecology. Paul Haupt AG Bern, Switzerland
  40. Stoffel M, Bollschweiler M (2008) Tree-ring analysis in natural hazards research—an overview. Nat Hazard Earth Sys 8:187-02 CrossRef
  41. Taugourdeau O, Chaubert-Pereira F, Sabatier S, Guédon Y (2011) Deciphering the developmental plasticity of walnut saplings in relation to climatic factors and light environment. J Exp Bot 62:5283-296 CrossRef
  42. Thabeet A, Vennetier M, Gadbin-Henry C et al (2009) Response of / Pinus sylvestris L. to recent climatic events in the French Mediterranean region. Trees 23:843-53 CrossRef
  43. Yagi T (2009) Ontogenetic strategy shift in sapling architecture of / Fagus crenata in the dense understorey vegetation of canopy gaps created by selective cutting. Can J For Res 39:1186-196 CrossRef
  44. Zalamea P, Stevenson P, Madrinan S et al (2008) Growth pattern and age determination for / Cecropia sciadophylla (Urticaceae). Am J Bot 95:263-71 CrossRef
  
• 作者单位：Olivier Taugourdeau (1)
  Jean Dauzat (2)
  Sébastien Griffon (2)
  Sylvie Sabatier (2)
  Yves Caraglio (2)
  Daniel Barthélémy (3) (4)
  
  1. Université Montpellier 2, UMR AMAP, Montpellier, 34000, France
  2. CIRAD, UMR AMAP, Montpellier, 34000, France
  3. INRA, UMR AMAP, Montpellier, 34000, France
  4. CIRAD, DIRBIOS, Montpellier, 34000, France
  

文摘

Context Understanding the effects of exogenous factors on tree development is of major importance in the current context of global change. Assessing the structure development of trees is difficult given that they are large and complex organisms with lifespan of several decades. Aims We used a retrospective analysis to derive the ontogenetic trends in silver fir development and assess the effects of climate or light environment on tree architecture. Methods Thanks to the identification of relevant growth markers (bud cataphylls and pseudo-whorl branches), a retrospective analysis allowed to record annual shoot extension and to date them on silver firs of various sizes under different environmental conditions. Results The length of successive annual shoots located on different axes clearly show gradual trends related to the physiological age of meristems. Within- and between-tree variations are noted due to the plasticity of development and growth induced by light environment and climate. Conclusion Retrospective analysis is an efficient method for getting information on the history of trees architecture and subsequently to relate it to environmental factors.