Abstract
The silvicultural management of coppicing has been very common in deciduous forests in many European countries. After decades of decline of this practice, socio-economic changes might induce a revival valuing the biomass as a resource. New insights in the ecological processes that regulate plant diversity are relevant for a sustainable forest management. While studies on long-term changes are available, the short-term dynamics of the coppice forest understorey has not yet been explored. In this context, it is interesting to evaluate the species compositional changes, including the processes of species turnover and species impoverishment (nestedness) and to investigate the role of plant functional traits. For this purpose, we resampled a chronosequence of complex coppice beech forests of the Central Apennines (Italy) monitoring the short-time species dynamics of five years (i.e. from 2006 to 2011) in three age classes, i.e. post-logged, recovering and old coppice stands (0–16, 17–31 and > 32 years, respectively). In contrast to our expectation, declining species richness appeared only in the recovering stands, while the landscape scale (between-stand) heterogeneity, except for post-logged and recovering stands in 2011, did not change over five years. Significant temporal nestedness was found in each stage of succession. However, the rate of species turnover and species impoverishment do not significantly differ among the three age classes, indicating their constant importance along the forest regeneration after disturbance. Only in the early stage of forest regeneration after coppicing, species compositional changes are reflected by functional changes with surviving understorey species having clonal regeneration traits. Our results suggest an overall landscape-scale stability (and sustainability) of this coppice forest system. We conclude with management indications, highlighting the importance of maintaining the traditional local approach (coppicing with standards in small 0.5–1.0 ha sized management units with a ca 30-year rotation cycle) where active coppice parcels are interspersed by abandoned stands.
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References
Almeida-Neto M, Guimaraes P, Guimaraes PR Jr, Loyola RD, Ulrich W (2008) A consistent metric for nestedness analysis in ecological systems: reconciling concept and measurement. Oikos 117:1227–1239
Almeida-Neto M, Frensel DML, Ulrich W (2012) Rethinking the relationship between nestedness and beta diversity: a comment on Baselga (2010) Global Ecol Biogeogr 21:772–777
Amici M, Spina R (2002) Campo medio della precipitazione annuale e stagionale sulle Marche per il periodo 1950–2000. Protezione Civile Marche, Osservatorio Geofisico Sperimentale Macerata
Anderson MJ, Ellingsen KE, McArdle BH (2006) Multivariate dispersion as a measure of beta diversity. Ecol Letters 9:683–693
Atmar W, Patterson BD (1993) The measure of order and disorder in the distribution of species in fragmented habitat. Oecologia 96:373–382
Baeten L, Bauwens B, De Schrijver A, De Keersmaeker L, Van Calster H, Vandekerkhove K, Roelandt B, Beeckman H, Verheyen K (2009) Herb layer changes (1954–2000) related to the conversion of coppice-with-standards forest and soil acidification. Appl Veg Sci 12:187–197
Barkham JP (1992) The effect of coppicing and neglect on the performance of the perennial ground flora. In Buckley GP (ed) Ecology and management of coppice woodlands. Chapman & Hall, London, pp 115–146
Bartha S, Merolli A, Campetella G, Canullo R (2008) Changes of vascular plant diversity along a chronosequence of beech coppice stands, Central Apennines, Italy. Pl Biosyst 142:572–583
Baselga A, (2010) Partitioning the turnover and nestedness components of beta diversity. Global Ecol Biogeogr 19:134–143
Campetella G, Botta-Dukat Z, Wellstein C, Canullo R, Gatto S, Chelli S, Mucina L, Bartha S (2011) Patterns of plant trait-environment relationship along a forest succession chronosequence. Agric Eco-Syst Environm 145:38–48
Canullo R, Campetella G, Mucina L, Chelli S, Wellstein C, Bartha S (2011a) Patterns of clonal growth modes along a chronosequence of post-coppice forest regeneration in beech forest of Central Italy. Folia Geobot 46:271–288
Canullo R, Starlinger F, Granke O, Fischer R, Aamlid D, Neville P (2011b) Assessment of ground vegetation. Manual Part VII-SP1, 19 pp. In ICP Forests (2010) Manual on methods and criteria for harmonized sampling, assessment, monitoring and analysis of the effects of air pollution on forests. UNECE ICP Forests Programme Co-ordinating Centre, Hamburg
Canullo R, Campetella G, Merolli A (2009) Gestione integrata degli aspetti ecologici e paesaggistici degli ecosistemi montani: il paesaggio delle faggete. In Corrado R, Scotti M (eds) Laboratorio paesaggio: indirizzi e progetti per le aree protette marchigiane. Regione Marche, pp 63–88
Ciancio O, Corona P, Lamonaca A, Portoghesi L, Travaglini D (2006) Conversion of clearcut beech coppices into high forests with continuous cover: a case study in central Italy. Forest Ecol Managem 224:235–240
Coppini M, Hermanin L (2007) Restoration of selective beech coppices: a case study in the Apennines (Italy). Forest Ecol Managem 249:18–27
Dahlgren JP, Eriksson O, Bolmgren K, Strindell M, Ehrlen J (2006) Specific leaf area as a superior predictor of changes in field layer abundance during forest succession. J Veg Sci 17:577–582
De'ath G, Fabricius KE (2000) Classification and regression trees: a powerful yet simple technique for ecological data analysis. Ecology 81:3178–3192
Decocq G, Aubert M, Dupont F, Alard D, Saquez R, Wattez-Franger A, De Foucaly B, Delelis-Dusollier A, Bardat J (2004) Plant diversity in a managed temperate deciduous forest: understorey response to two silvicultural systems. J Appl Ecol 41:1065–1079
Elmendorf SC, Harrison SP (2009) Temporal variability and nestedness in California grassland species composition. Ecology 90:1492–1497
Froborg H, Eriksson O (1997) Local colonization and extinction of field layer plants in a deciduous forest and their dependence upon life history features. J Veg Sci 8:395–400.
Gaston KJ, Blackburn TM (2000) Pattern and process in macroecology. Blackwell Science, Oxford
Godefroid S, Massant W, Koedam N (2005) Variation in the herb species response and the humus quality across a 200-year chronosequence of beech and oak plantations in Belgium. Ecography 28:223–235
Graae BJ, Sunde PB (2000) The impact of forest continuity and management on forest floor vegetation evaluated by species traits. Ecography 23:720–730
Graae BJ, Verheyen K, Kolb A, Van der Veken S, Heinken T, Chabrerie O, Diekmann M, Valtinat K, Zindel R, Karlsson E, Strom L, Decocq G, Hermy M, Baksin CC (2009) Germination requirements and seed mass of slow- and fast-colonizing temperate forest herbs along a latitudinal gradient. Ecoscience 16:248–257
Halpern CB, Evans SA, Nielson S (1999) Soil seed banks in young closed-canopy forests of the Olympic Peninsula, Washington: potential contributions to understory reinitiation. Canad J Bot 77:922–935
Hédl R, Kopecký M, Koma J (2010) Half a century of succession in a temperate oakwood: from species-rich community to mesic forest. Diversity & Distrib 16:267–276
Hothorn T, Hornik K, Zeileis A (2006) Unbiased recursive partitioning: a conditional inference framework. J Computat Graphical Statist 15:651–674
Klimeš L, Klimešová J, Hendriks R, van Groenendael J (1997) Clonal plant architectures: a comparative analysis of form and function. In de Kroon H, van Groenendael J (eds) The ecology and evolution of clonal plants. Backhuys Publishers, Leiden, pp 1–29
Koleff P, Gaston KJ, Lennon JJ (2003) Measuring beta diversity for presence-absence data. J Anim Ecol 72:367–382
Kopecký M, Hédl R, Szabó P (2013) Non-random extinctions dominate plant community changes in abandoned coppices. J Appl Ecol 50:79–87
Lavorel S, Garnier E (2002) Predicting changes in community composition and ecosystem functioning from plant traits: revisiting the Holy Grail. Funct Ecol 16:545–556
Mason CF, Macdonald SM (2002) Responses of ground flora to coppice management in an English woodland – a study using permanent quadrats. Biodivers & Conservation 11:1773–1789
Moora M, Opik M, Zobel K, Zobel M (2009) Understory plant diversity is related to higher variability of vegetative mobility of coexisting species. Oecologia 159:355–361
Müllerová J, Hédl R, Szabó P (2015) Coppice abandonment and its implications for species diversity in forest vegetation. Forest Ecol Managem 343:88–100.
Naaf T, Wulf M (2011) Traits of winner and loser species indicate drivers of herb layer changes over two decades in forests of NW Germany. J Veg Sci 22:516–527
Pavari A (1999) Il problema dei boschi cedui in Italia. Monti e Boschi 6:17–26
Peterken GF (1981) Woodland conservation and management. Chapman and Hall. London
Piovesan G, Biondi F, Bernabei M, Di Filippo A, Schirone B (2005) Spatial and altitudinal bioclimatic zones of the Italian peninsula identified from a beech (Fagus sylvatica L.) tree-ring network. Acta Oecol 27:197–210
R Development Core Team (2011) R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria, Available at http://www.r-project.org
Rogers DA, Rooney TP, Olson D, Waller DM (2008) Shifts in southern Wisconsin forest canopy and understorey richness, composition, and heterogeneity. Ecology 89:2482–2492
Sammul M, Kull K, Niitla T, Mols T (2004) A comparison of plant communities on the basis of their clonal growth patterns. Evol Ecol 18:443–467
Silvertown J (2008) The evolutionary maintenance of sexual reproduction: evidence from the ecological distribution of asexual reproduction in clonal plants. Int J Plant Sci 169:157–168
Stuefer JF (1996) Potential and limitations of current concepts regarding the response of clonal plants to environmental heterogeneity. Vegetatio 127:55–70
Ulrich W, Almeida-Neto M, Gotelli NJ (2009) A consumer's guide to nestedness analysis. Oikos 118:3–17
Ulrich W, Almeida-Neto M (2012) On the meanings of nestedness: back to the basics. Ecography 35:1–7
Van Calster H, Baeten L, Schrijver A, Keersmaeker L, Rogister LE, Verheyen K, Hermy M (2007) Management driven changes (1967–2005) in soil acidity and the understorey plant community following conversion of a coppice-with-standards forest. Forest Ecol Managem 241:258–271
van Groenendael JM, Klimeš L, Klimešová J, Hendriks RJJ (1996) Comparative ecology of clonal plants. Philos Trans, Ser B 351:1331–1339
Wellstein C, Schröder B, Reineking B, Zimmermann NE (2011) Understanding species and community response to environmental change – a functional trait perspective. Agric Eco-Syst Environm 145:1–4
Acknowledgements
This research was partially supported by the Montagna di Torricchio Nature Reserve and the Hungarian National Science Foundation (OTKA K 72561). The authors thank the Ministero delle Politiche Agricole Alimentari e Forestali, S.I.A. Office, the Corpo Forestale dello Stato of the Marche Region and the authorities of the Monti Sibillini National Park for support.
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Canullo, R., Simonetti, E., Cervellini, M. et al. Unravelling mechanisms of short-term vegetation dynamics in complex coppice forest systems. Folia Geobot 52, 71–81 (2017). https://doi.org/10.1007/s12224-016-9264-x
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DOI: https://doi.org/10.1007/s12224-016-9264-x