Free access
Issue
Ann. For. Sci.
Volume 63, Number 3, April 2006
Page(s) 239 - 247
DOI http://dx.doi.org/10.1051/forest:2006002
Published online 04 April 2006
References of Ann. For. Sci. 63 239-247
  1. Aber J.D., A method for estimated foliage-height profiles in broad-leaved forests, J. Ecol. 67 (1979) 35-40.
  2. Amorini E., Analysis of different silvicultural systems in chestnut coppices. Criteria to define a sustainable management, in: Romane F. (Ed.), Second Annual Report of the Cast/Environment Project, C.E.F.E./CNRS, Montpellier, 1996, pp. 71-75.
  3. Amorini E., Bruschini S., Manetti M.C., Alternative silvicultural systems in chestnut (Castanea sativa Mill.) coppice: effects of silvicultural practices on stand structure and tree growth, Ecol. Mediterr. 26 (2000) 155-162.
  4. Amorini E., Chatziphilippidis G., Ciancio O., Di Castri F., Giudici F., Leonardi S., Manetti MC., Nocentini S., Pividori M., Rapp M., Romane F., Sevrin E., Zingg A., Sustainability of chestnut forest ecosystems: Is it possible? Ecol. Mediterr. 26 (2000) 3-14.
  5. Bernetti G., Selvicoltura speciale, UTET, Torino, 1995.
  6. Berrocal M., Gallardo J.F., Cardeñoso J.M., El Castaño, Mundi-Prensa, Madrid, 1998.
  7. Bourgoise C., Améliorer les taillis de châtaignier, Forêt Entreprise 44 (1987) 8-15.
  8. Brenner A.J., Cueto Romero M., García Haro J., Gilabert M.A., Incoll L.D., Martínez Fernández J., Porter E., Pugnaire F.I., Younis M.T., A comparison of direct and indirect methods for measuring leaf and surface area of individual bushes, Plant Cell Environ. 18 (1995) 1332-1340.
  9. Buchanan B.B., Gruissem W., Jones R.L., Biochemistry and Molecular Biology of Plants, American Society of Plant Physiologists, Rockville, MD, 2000.
  10. Castro-Díez P., Villar-Salvador P., Pérez-Rontomé C., Maestro-Martínez M., Montserrat-Martí G., Leaf morphology, leaf chemical composition and stem xylem characteristics in two Pistacia (Anacardiaceae) species along a climatic gradient, Flora 193 (1998) 195-202.
  11. Ceulemans R., Saugier B., Photosynthesis, in: Raghavendra A.S. (Ed.), Physiology of Trees, John Wiley and Sons, New York, 1991, pp. 21-50.
  12. Cutini A., Biomass, litterfall and productivity in chestnut coppices of various age at Monte Amiata (Central Italy), Ecol. Mediterr. 26 (2000) 33-41.
  13. Cutini A., New management options in chestnut coppices: an evaluation on ecological bases, For. Ecol. Manage. 141 (2001) 165-174 [CrossRef].
  14. Cutini A., Matteucci G., Scarascia Mugnozza G., Estimation of leaf area index with the Li-Cor LAI 2000 in deciduous forests, For. Ecol. Manage. 105 (1998) 55-65 [CrossRef].
  15. Degen T., Devillez F., Jacquemart A.L., Gaps promote plant diversity in beech forests (Luzulo-Fagetum), North Vosges, France, Ann. For. Sci. 62 (2005) 429-440 [EDP Sciences] [CrossRef].
  16. Deweirdt C., Carlier C., Photosynthèse des feuilles de châtaigniers (Castanea sativa Mill.) mesurée in situ dans des taillis par incorporation de 14CO2, Acta Oecol. 9 (1988) 145-160.
  17. Gallardo J.F., Rico M., González M.I., Some ecological aspects of a chestnut coppice located at the Sierra de Gata mountains (Western Spain) and its relationship with a sustainable management, Ecol. Mediterr. 26 (2000) 53-69.
  18. Gomes-Laranjo J., Araújo-Alves J., Ferreira-Cardoso J., Pimentel-Pereira M., Abreu C.G., Torres-Pereira J., Effect of Chestnut ink disease on photosynthetic performance, J. Phytopathol. 152 (2004) 138-144 [CrossRef].
  19. Gondard H., Romane F., Grandjanny M., Li J., Aronson J., Plant species diversity changes in abandoned chestnut (Castanea sativa) groves in southern France, Biodivers. Conserv. 10 (2001) 189 [CrossRef]- 207.
  20. Grammatikopoulos G., Mechanism for drought tolerance in two Mediterranean seasonal dimorphic shrubs, Aust. J. Plant Physiol. 26 (1999) 587-593.
  21. Gratani L., Foti I., Estimating forest structure and shade tolerance of the species in a mixed deciduous broad-leaved forest in Abruzzo, Italy, Ann. Bot. Fenn. 35 (1998) 75-83.
  22. Gratani L., Bombelli A., Leaf anatomy, inclination, and gas exchange relationships in evergreen sclerophyllous and drought semideciduous shrub species, Photosynthetica 37 (1999) 573-585 [CrossRef].
  23. Gratani L., Crescente M.F., Map-makings of plant biomass and leaf area index for management of protected areas, Aliso 19 (2000) 1-11.
  24. Gratani L., Varone L., Leaf key traits of Erica arborea L., Erica multiflora L. and Rosmarinus officinalis L. co-occurring in the Mediterranean "maquis", Flora 199 (2004) 58-69.
  25. Gratani L., Rossi A., Crescente M.F., Frattaroli A.R., Ecologia dei pascoli di Campo Imperatore (Gran Sasso d'Italia) e carta della biomassa vegetale, Braun-Blanquetia, 16 (1999) 227-247.
  26. Gratani L., Bombelli A., Crescente M.F., Leaf area index (LAI) map of a protected area within the caldera of Vico Lake (Italy), Plant Biosyst. 137 (2003) 141-148.
  27. Guarrera P.M., Boschi e cespuglieti dei Colli Albani (o "Castelli Romani"), in: Ambienti di particolare interesse naturalistico del Lazio. Censimento del patrimonio vegetale del Lazio: quaderno n. 2, Regione Lazio Assessorato alla Cultura, Dipartimento Biologia Vegetale Università "La Sapienza", Roma, Roma, Tipar, 1996, pp. 241-246.
  28. Hoff C., Rambal S., An examination of the interaction between climate, soil and leaf area index in a Quercus ilex ecosystem, Ann. For. Sci. 60 (2003) 153-161 [EDP Sciences] [CrossRef].
  29. Ishii H.T., Tanabe S., Hiura T., Exploring the relationships among canopy structure, stand productivity, and biodiversity of temperate forest ecosystems, For. Sci. 50 (2004) 342-355.
  30. Kauppi A., Kiviniitty M., Leaf morphology and photosynthetic rate in birch seedlings and stump sprouts, Can. J. For. Res. 20 (1990) 952-960.
  31. Kowalski A.S., Loustau D., Berbigier P., Manca G., Tedeschi V., Borghetti M., Valentini R., Kolari P., Berninger F., Rannik Ü., Hari P., Rayment M., Mencuccini M., Moncrieff J., Grace J., Paired comparisons of carbon exchange between undisturbed and regenerating stands in four managed forests in Europe, Global Change Biol. 10 (2004) 1-17 [CrossRef].
  32. Larsen J.B., Ecological stability of forest and sustainable silviculture, For. Ecol. Manage. 73 (1995) 85-96 [CrossRef].
  33. Lauteri M., Scartazza A., Guido M.C., Brugnoli E., Genetic variation in photosynthetic capacity, carbon isotope discrimination and mesophyll conductance in provenances of Castanea sativa adapted to different environments, Funct. Ecol. 11 (1997) 675-683 [CrossRef].
  34. Leonardi S., Rapp M., Failla M., Guarnaccia D., Biomasse, productivité et transferts de matière organique dans une séquence altitudinale de peuplements de Castanea sativa Mill de l'Etna, Ann. For. Sci. 53 (1996) 1031-1048.
  35. Leonardi S., Santa Regina I., Rapp M., Gallego H.A., Rico M., Biomass, litterfall and nutrient content in Castanea sativa coppice stands of southern Europe, Ann. For. Sci. 53 (1996) 1071-1081.
  36. Li-Cor, LAI-2000 Plant Canopy Analyzer Operating Manual, Lincoln, NE, USA, 1991.
  37. Lo Gullo M.A., Salleo S., Different strategies of drought resistance in three mediterranean sclerophyllous trees growing in the same environmental conditions, New Phytol. 108 (1988) 267-276.
  38. Lyon J., Gross N.M., Patterns of plant diversity and plant-environmental relationships across three riparian corridors, For. Ecol. Manage. 204 (2005) 267-278 [CrossRef].
  39. Morales D., Jiménez M.S., González-Rodriguez A.M., Cermák J., Laurel forests in Tenerife, Canary Islands: I. The site, stand structure and stand leaf area distribution, Trees 11 (1996) 34-40 [CrossRef].
  40. Mousseau M., Effects of elevated CO2 on growth, photosynthesis and respiration of sweet chestnut (Castanea sativa Mill.), Vegetatio 104/105 (1993) 413-419.
  41. Newbould P.J., Methods for estimating the primary production of forest, Blackwell Scientific Publications, Oxford, Edinburgh, 1967.
  42. Ni J., Zhang X., Scurlock J.M.O., Synthesis and analysis of biomass and net primary productivity in Chinese forests, Ann. For. Sci. 58 (2001) 351-384 [EDP Sciences] [CrossRef].
  43. Ogaya R., Peñuelas J., Comparative seasonal gas exchange and chlorophyll fluorescence of two dominant woody species in a Holm Oak forest, Flora 198 (2003) 132-141.
  44. Pontailler J.Y., Leroux M., Saugier B., Évolution d'un taillis de châtaigniers après coupe : photosynthèse et croissance des rejets, Acta Oecol. 5 (1984) 89-99.
  45. Ponton S., Dupouey J.L., Dreyer E., Leaf morphology as species indicator in seedlings of Quercus robur L. and Q. petraea (Matt.) Liebl.: modulation by irradiance and growth flush, Ann. For. Sci. 61 (2004) 73-80 [EDP Sciences] [CrossRef].
  46. Proietti P., Palliotti A., Famiani F., Antognozzi E., Ferranti., Andreutti R., Frenguelli G., Influence of leaf position, fruit and light availability on photosynthesis of two chestnut genotypes, Sci. Hortic. 85 (2000) 63-73 [CrossRef].
  47. Radoglou K., Environmental control of CO2 assimilation rates and stomatal conductance in five oak species growing under field conditions in Greece, Ann. For. Sci. 53 (1996) 269-278.
  48. Ranger J., Nys C., Biomass and nutrient content of extensively and intensively managed coppice stands, Forestry 69 (1996) 83-102.
  49. Ranger J., Félix C., Bouchon J., Nys C., Ravart M., Dynamique d'incorporation du carbone et des éléments nutritifs dans un taillis simple de châtaignier (Castanea sativa Milller.), Ann. For. Sci. 47 (1990) 413-433.
  50. Reich P.B., Walters M.B., Ellsworth D.S., Leaf life-span in relation to leaf, plant, and stand characteristics among diverse ecosystems, Ecol. Monogr. 62 (1992) 365-392.
  51. Reich P.B., Kloeppel B.D., Ellsworth D.S., Walters M.B., Different photosynthesis-nitrogen relations in deciduous hardwood and evergreen coniferous tree species, Oecologia 104 (1995) 24-30 [CrossRef].
  52. Rinne P., Saarelainen A., Junttila O., Growth cessation and bud dormancy in relation to ABA level in seedlings and coppice shoots of Betula pubescens as affected by a short photoperiod, water stress and chilling, Physiol. Plant. 90 (1994) 451-458 [CrossRef].
  53. Romane F., Introduction and objectives, in: Romane F. (Ed.), Sustainability of Mediterranean ecosystems. Case study of the chestnut forest, European Commission, Brussels, Ecosystem research report 19, 1995, pp. 1-5.
  54. Rubio A., Escudero A., Clear-cut effects on chestnut forest soils under stressful conditions: lengthening of time-rotation, For. Ecol. Manage. 183 (2003) 195-204 [CrossRef].
  55. Sala A., Sabaté S., García C., Tenhunen J.D., Canopy structure within a Quercus ilex forested watershed: variations due to location, phenological development, and water availability, Trees 8 (1994) 254-261.
  56. Salleo S., Nardini A., Lo Gullo M.A., Ghirardelli L.A., Changes in stem and leaf hydraulics preceding leaf shedding in Castanea sativa L., Biol. Plant. 45 (2002) 227-234 [CrossRef].
  57. Santa Regina I., Organic matter distribution and nutrient fluxes within a sweet chestnut (Castanea sativa Mill.) stand of the Sierra de Gata, Spain, Ann. For. Sci. 57 (2000) 691-700 [EDP Sciences] [CrossRef].
  58. Scurlock J.M.O., Asner G.P., Gower S.T., Worldwide historical estimates of leaf area index, 1932-2000, ORNL Technical Memorandum ORNL/TM-2001/268, Oak Ridge National Laboratory, Oak Ridge, TE, 2001.
  59. Sellin A., Kupper P., Within-crown variation in leaf conductance of Norway spruce: effects of irradiance, vapour pressure deficit, leaf water status and plant hydraulic constraints, Ann. For. Sci. 61 (2004) 419-429 [EDP Sciences] [CrossRef].
  60. Specht R.L., Specht A., Canopy structure in Eucalyptus-dominated communities in Australia along climatic gradients, Acta Oecol. 10 (1989) 191-213.
  61. Swanson F.J., Franklin J.F., New forestry principles from ecosystem analysis of Pacific Northwest forest, Ecol. Appl. 2 (1992) 262-274.
  62. Tindall J.R., Gerrath J.A., Melzer M., McKendry K., Husband B.C., Boland G.J., Ecological status of American chestnut (Castanea dentata) in its native range in Canada, Can. J. For. Res. 34 (2004) 2554-2563 [CrossRef].
  63. Turner N.C., Technique and experimental approaches for measurements of plant water status, Plant Sci. 58 (1981) 339-366.
  64. Walkley A., A critical examination of a rapid method of determining organic carbon in soil-effect of variations in digestion conditions and of inorganic constituents, Soil Sci. 63 (1946) 251-263.
  65. Waring R.H., Estimating forest growth and efficiency in relation to canopy leaf area, Adv. Ecol. Res. 13 (1983) 327-354.
  66. Welles J.M., Cohen S., Canopy structure measurement by gap fraction analysis using commercial instrumentation, J. Exp. Bot. 47 (1996) 1335-1342.
  67. Wright I.J., Westoby M., Leaves at low versus high rainfall: coordination of structure, lifespan and physiology, New Phytol. 155 (2002) 403-416 [CrossRef].
  68. Wuenscher J.E., Kozlowski T.T., Relationship of gas-exchange resistance to tree-seedling ecology, Ecology 52 (1971) 1016-1023.