Abstract
Holm oak forests are structurally diverse (Gracia and Retana 1996). Marked variations in the main structural variables, such as stem density, basal area and canopy height, are induced by gradients of environmental heterogeneity (David et al. 1979; Barbero 1988; Romane et al. 1988; Floret et al. 1989), caused by the rough topography of the region and by historical differences in human use (Di Castri 1973; Terradas 1991; Barbero et al. 1992). Moreover, holm oak can reproduce through seeds (acorns) or vegetatively (sprouting from stumps and, to a lesser extent, from roots). Stems of both origins are usually found in the same stand, but, due to the slow rate of holm oak seedling establishment under managed coppice forests (Espelta et al. 1995; Chap. 7), restocking of holm oak forests during the cutting cycle is left to occur by natural regeneration from stump resprouting. Since each stool can produce large numbers of sprouts after disturbances (Giovannini et al. 1992; Retana et al. 1992), stem density can be very high in stands that have been harvested or otherwise disturbed.
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References
Abrams MD, Downs JA (1990) Successional replacement of old-growth white oak by mixed mesophytic hardwoods in southwestern Pennsylvania. Can J For Res 20:1864–1870
Albeza E, Sabaté S, Escarré A, Gracia CA (1995) A long-term thinning experiment on a Quercus ilex L. forest: changes in leaf characteristics and dynamics in response to different treatment intensities. In: Jenkins A, Ferrier RC, Kirby C (eds) Ecosystem manipulation experiments: scientific approaches, experimental design and relevant results. Ecosystems Research Report 20, European Commission, Luxembourg, pp 200–208
Barbero M (1988) Caractérisation de quelques structures et architectures forestières des arbres et arbustes à feuilles persistantes de l’étage méditerranéen. Rev For Fr 40:371–380
Barbero M, Loisel R, Quèzel P (1992) Biogeography, ecology and history of Mediterranean Quer-cus ilex ecosystems. Vegetatio 99/100:19–34
Bellot J, Sanchez JR, Lledó MJ, Martínez P, Escarré A (1992) Litterfall as a measure of primary production in Mediterranean holm-oak forest. Vegetatio 99/100: 69–76
Canadell J, Riba M, Andrés P (1988) Biomass equations for Quercus ilex L. in the Montseny massif, northeastern Spain. Forestry 61:137–147
Cartan-Son M, Romane F (1992) Standardized description of some experimental plots in the Quercus ilex L. ecosystems. Vegetatio 99/100:3–12
Cartan-Son M, Floret C, Galan MJ, Grandjanny M, Le Floc’h E, Maistre M, Perret P, Romane F (1992) Factors affecting radial growth of Quercus ilex in a coppice stand in southern France. Vegetatio 99/100:61–68
Cole DW, Rapp M (1981) Elemental cycling in forest ecosystems. In: Reichle DE (ed) Dynamic properties of forest ecosystems. Cambridge University Press, Cambridge, pp 341–409
David F, Poissonet P, Romane F (1979) Analyse de la structure horizontale d’un taillis de Bouleaux (Betula verrucosa Ehrh.) en Sologne. Acta Oecol Oecol Plant 14:237–247
Di Castri F (1973) Soil animals in latitudinal and topographical gradients of Mediterranean eco-systems. In: Di Castri F, Mooney HA (eds) Mediterranean type ecosystems. Origin and structure. Springer, Berlin, pp 171–190
Escarré A, Ferrés L, López R, Martín J, Rodà F, Terradas J (1987) Nutrient use strategy by evergreen-oak (Quercus ilex ssp. ilex) in NE Spain. In: Tenhunen JD, Catarino FM, Lange LO, Oechel WC (eds) Plant response to stress. Springer, Berlin, pp 429–435
Espelta JM, Riba M, Retana J (1995) Patterns of seedling recruitment in west Mediterranean coppiced holm-oak (Quercus ilex L.) forests influenced by canopy development. J Veg Sci 6: 465–472
Ferrés L (1984) Biomasa, producción y mineralomasas del encinar montano de La Castanya (Montseny). PhD Thesis, Autonomous University of Barcelona, Bellaterra
Ferrés L, Rodà F, Verdó AMC, Terradas J (1984) Circulación de nutrientes en algunos ecosistemas forestales del Montseny (Barcelona). Mediterr Ser Estud Biol 7:139–166
Floret C, Galan MJ, Le Floc’h E, Rapp M, Romane F (1989) Organisation de la structure, de la biomasse et de la minéralomasse d’un taillis ouvert de chêne vert (Quercus ilex L.). Acta Oecol Oecol Plant 10:245–262
Giovannini G, Perulli D, Piussi P, Salbitano F (1992) Ecology of vegetative regeneration after coppicing in macchia stands in central Italy. Vegetatio 99/100:331–343
Gracia M, Retana J (1996) Effect of site quality and thinning management on the structure of holm oak forests in northeast Spain. Ann Sci For 53:571–584
Lledó MJ (1990) Compartimentos y flujos biogeoquímicos en una cuenca de encinar del Monte Poblet. PhD Thesis, University of Alicante, Alicante
Lledó MJ, Sánchez JR, Bellot J, Boronat J, Ibàñez JJ, Escarré A (1992) Structure, biomass and production of a resprouted holm-oak (Quercus ilex L.) forest in N-E Spain. Vegetatio 99/100: 51–59
Lorimer CG, Krug AG (1983) Diameter distributions in even-aged stands of shade-tolerant and midtolerant tree species. Am Nat 109:331–345
Lossaint P, Rapp M (1971) Repartition de la matiére organique, productivité et cycles des éléments minéraux dans des écosystèmes de climat méditerranéen. In: Duvigneaud P (ed) Productivité des ecosystèmes forestiers. Actes colt Bruxelles, Unesco, Paris, pp 597–617
Martínez JM, Albeza E, Sabaté S, Bellot J, Escarré A, Gracia C (1996) Anàlisi de la resposta de Quercus ilex a tractaments d’aclarida selectiva: efectes en la producció i en la recuperació de la capçada foliar. Treballs Centre Hist Nat Conca Barberà 1:97–104
Mayor X (1990) El paper dels nutrients com a factors limitants de la producció primària de l’alzinar de la conca del Torrent de la Mina (Montseny). MSc Thesis, Autonomous University of Barcelona, Bellaterra
Mayor X, Rodá F (1993) Growth response of holm oak (Quercus ilex) to commercial thinning in the Montseny mountains (NE Spain). Ann Sci For 50: 247–256
Mayor X, Rodà F (1994) Effects of irrigation and fertilization on stem diameter growth in a Mediterranean holm oak forest. For Ecol Manage 68:119–126
Mayor X, Belmonte R, Rodrigo A, Rodà F, Piñol J (1994) Crecimiento diametral de la encina (Quercus ilex L.) en un año de abundante precipitación estival: efecto de la irrigación previa y de la fertilización. Orsis 9:13–23
Parker AJ (1988) Stand structure in subalpine forests of Yosemite National Park, California. For Sci 34:1047–1058
Reichle DE (ed) (1981) Dynamic properties of forest ecosystems. Cambridge University Press, Cambridge
Retana J, Riba M, Castell C, Espelta JM (1992) Regeneration by sprouting of holm-oak (Quercus ilex) stands exploited by selection thinning. Vegetatio 99/100:355–364
Romane F, Floret C, Galan M, Grandjanny M, Le Floc’h E, Maistre M, Perret P (1988) Quelques remarques sur les taillis de chênes verts. Répartition, histoire, biomasse. For Méditerr 10: 131–135
Susmel L, Viola F, Bassato G (1976) Ecologia della lecceta de Supramonte di Orgosolo (Sardegna Centro-Orientale). Ann Centro Econ Montana Venezie 10:1–216
Terradas J (1991) Altérations du paysage méditerranéen par l’homme. IMCOM 3:18–22
Verdú AMC (1984) Circulació de nutrients en tres ecosistemes forestals del Montseny: Caiguda de virosta i descomposició de la fullaraca. PhD Thesis, Autonomous University of Barcelona, Bellaterra
Vogt KA, Grier CC, Vogt DJ (1986) Production, turnover, and nutrient dynamics of above-and belowground detritus of world forests. Adv Ecol Res 15:303–377
Whittaker RH, Woodwell GM (1968) Dimension and production relations of trees and shrubs in the Brookhaven forest, New York. J Ecol 56:1–25
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Ibàñez, J.J., Lledó, M.J., Sánchez, J.R., Rodà, F. (1999). Stand Structure, Aboveground Biomass and Production. In: Rodà, F., Retana, J., Gracia, C.A., Bellot, J. (eds) Ecology of Mediterranean Evergreen Oak Forests. Ecological Studies, vol 137. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-58618-7_3
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DOI: https://doi.org/10.1007/978-3-642-58618-7_3
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