Abstract
During the past 150 years forest management has dramatically altered in Central European woodlands, with severe consequences for biodiversity. Light forests that fulfilled variable human demands were replaced by dark high forests that function solely as wood plantations. In the Alps, by contrast, open woodlands are still present because the traditional land use as wood pasture has remained and physiographical conditions favour natural dynamics. The aim of our study was to investigate the effects of succession on the Orthoptera communities of alluvial pine woodlands in the northern Alps. Orthoptera showed a clear response to succession, with each successional stage harbouring a unique assemblage. The influence of succession on species richness and abundance were identical: The values were highest in the intermediate and lowest in the late seral stage. The diversity and abundance peak in the mid-successional stage probably reflects a trade-off between favourable ambient temperatures for optimal development and sufficient food, oviposition sites and shelter against predators. Food shortage and easy access for predators seemed to be limiting factors in the early successional stage. In contrast, in the late successional stage adverse microclimatic conditions probably limit Orthoptera occurrence. Although all three successional stages of the pine woodlands are relevant for conservation, the early and mid-successional stages are the most important ones. Conservation management for Orthoptera in this woodland type should aim at the reintroduction of cattle grazing and the restoration of the natural discharge and bedload-transport regimes of the alpine rivers.
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References
Ackermann W, Balzer S, Ellwanger G, Gnittke I, Kruess A, May R, Riecken U, Sachteleben J, Schröder E (2012) Hot Spots der biologischen Vielfalt in Deutschland. Auswahl und Abgrenzung als Grundlage für das Bundesförderprogramm zur Umsetzung der Nationalen Strategie zur biologischen Vielfalt Nat Landsch 87:289–297
BayLfU (Bayrisches Landesamt für Umweltschutz) (2003) Rote Liste gefährdeter Tiere Bayerns. Schriftenr Bayer Landesamt Umweltschutz 166:68–72
Bazelet CS, Samways MJ (2011) Identifying grasshopper bioindicators for habitat quality assessment of ecological networks. Ecol Indic 11:1259–1269
Bellmann H (2006) Der Kosmos Heuschreckenführer: Die Arten Mitteleuropas sicher bestimmen. Kosmos, Stuttgart
Belovsky GE, Slade JB (1993) The role of vertebrate and invertebrate predators in a grasshopper community. Oikos 68:193–201
Benes J, Cizek O, Konvička M (2006) Intensive game keeping, coppicing and butterflies: the story of Milovicky Wood, Czech Republic. For Ecol Manage 237:353–365
Bergmeier E, Petermann J, Schröder E (2010) Geobotanical survey of wood-pasture habitats in Europe: diversity, threats and conservation. Biodivers Conserv 19:2995–3014
BfN (Bundesamt für Naturschutz) (2013) Naturschutzgebiete. http://www.bfn.de. Accessed 13 June 2013
Bieringer G, Zulka KP (2003) Shading out species richness: edge effect of a pine plantation on the Orthoptera (Tettigoniidae and Acrididae) assemblage of an adjacent dry grassland. Biodivers Conserv 12:1481–1495
Chappell MA, Whitman DW (1990) Grasshopper thermoregulation. In: Chapman RF, Joern A (eds) Biology of grasshoppers. Wiley, New York
Coray A, Lehmann AW (1998) Taxonomie der Heuschrecken Deutschlands (Orthoptera): Formale Aspekte der wissenschaftlichen Namen. Articulata Beih 7:63–152
Crawley MJ (2007) The R book. Wiley, Chichester
Detzel P (1998) Die Heuschrecken Baden-Württembergs. Ulmer, Stuttgart
DWD (Deutscher Wetterdienst), (1952) Klimaatlas von Bayern. DWD, Bad Kissingen
DWD (Deutscher Wetterdienst) (2013) Klimadaten ausgewählter deutscher Stationen. http://www.dwd.de. Accessed 13 June 2013
Ellenberg H, Leuschner C (2010) Vegetation Mitteleuropas mit den Alpen, 6th edn. Eugen Ulmer, Stuttgart
Fartmann T, Mattes H (1997) Heuschreckenfauna und Grünland. Bewirtschaftungsmaßnahmen und Biotopmanagement. In: Mattes H (ed) Ökologische Untersuchungen zur Heuschreckenfauna in Brandenburg und Westfalen. Arb Inst Landschaftsökol Münster 3, pp 179–188
Fartmann T, Behrens M, Loritz H (2008) Orthopteran communities in the conifer-broadleaved woodland zone of the Russian Far East. Eur J Entomol 105:673–680
Fartmann T, Krämer B, Stelzner F, Poniatowski D (2012) Orthoptera as ecological indicators for succession in steppe grassland. Ecol Indic 20:337–344
Garbarino M, Lingua E, Martinez Subirà M, Motta R (2011) The larch wood pasture: structure and dynamics of a cultural landscape. Eur J For Res 130:491–502
Gardiner T, Dover J (2008) Is microclimate important for Orthoptera in open landscapes?. J Insect Conserv 12:705–709
Gardiner T, Hill J (2006) A comparison of three sampling techniques used to estimate population density and assemblage diversity of Orthoptera. J Orthoptera Res 15:45–51
Gardiner T, Pye M, Field R, Hill J (2002) The influence of sward height and vegetation composition in determining the habitat preferences of three Chorthippus species (Orthoptera: Acrididae) in Chelmsford, Essex, UK. J Orthoptera Res 11:207–213
Gimmi U, Bürgi M, Stuber M (2008) Reconstructing anthropogenic disturbance regimes in forest ecosystems: a case study from the Swiss Rhone Valley. Ecosyst 11:113–124
Hering D, Gerhard M, Manderbach R, Reich M (2004) Impact of a 100-year flood on vegetation, benthic invertebrates, riparian fauna and large woody debris standing stock in an alpine floodplain. Regul Rivers Res Manage 20:445–457
Hölzel N (1996) Schneeheide-Kiefernwälder in den mittleren Nördlichen Kalkalpen. Laufener Forschungsber 3:1–192
Homes V, Hering D, Reich M (1999) The distribution and macrofauna of ponds in stretches of an alpine floodplain differently impacted by hydrological engineering. Regul Rivers Res Manage 15:405–417
Ingrisch S, Köhler G (1998) Die Heuschrecken Mitteleuropas. Westarp Wissenschaften, Magdeburg
Karl JM, Mangelsdorf J, Scheurmann K (1977) Die Isar, ein Gebirgsfluß im Spannungsfeld zwischen Natur und Zivilisation. Jahrbuch Ver Schutz Bergwelt 42:175–214
Kuhn J (1993) Naturschutzprobleme einer Wildflußlandschaft: Anmerkungen zur Teilrückleitung der oberen Isar (Oberbayern). Nat Landsch 68:449–454
Lederbogen D, Rosenthal G, Scholle D, Trautner J, Zimmermann B, Kaule G (2004) Allmendweiden in Südbayern: Naturschutz durch landwirtschaftliche Nutzung. Schriftenr Angewandte Landschaftsökol 62:1–469
Lemke H, Löffler F, Fartmann T (2010) Habitat- und Nahrungspräferenzen des Kiesbank-Grashüpfers (Chorthippus pullus) in Südbayern. Articulata 25:133–149
Leps J, Smilauer P (2003) Multivariate analysis of ecological data using CANOCO. Cambridge University Press, Cambridge
Maas S, Detzel P, Staudt A (2002) Gefährdungsanalyse der Heuschrecken Deutschlands. Verbreitungsatlas, Gefährdungseinstufung und Schutzkonzepte. Bundesamt für Naturschutz, Bonn-Bad Godesberg
Mayer AC, Huovinen C (2007) Silvopastoralism in the Alps: native plant species selection under different grazing pressure. Ecol Eng 29:372–381
Peterken GF (1996) Natural woodland: ecology and conservation in northern temperate regions. Cambridge University Press, Cambridge
Poniatowski D, Fartmann T (2008) The classification of insect communities: lessons from Orthoptera assemblages of semi-dry grassland complexes in central Germany. Eur J Entomol 105:659–671
Poniatowski D, Fartmann T (2010) What determines the distribution of a flightless bush-cricket (Metrioptera brachyptera) in a fragmented landscape? J Insect Conserv 14:637–645
Poniatowski D, Fartmann T (2011) Weather-driven changes in population density determine wing dimorphism in a bush-cricket species. Agric Ecosyst Environ 145:5–9
R Development Core Team (2013) R: a language and environment for statistical computing. http://www.r-project.org. Accessed 13 June 2013
Reich M (1991) Grasshoppers (Orthoptera, Saltatoria) on alpine and dealpine riverbanks and their use as indicators for natural floodplain dynamics. Regul Rivers Res Manage 6:333–339
Sachteleben J (1995) Waldweide und Naturschutz—Vorschläge für die naturschutzfachliche Beurteilung der Trennung von Wald und Weide im bayerischen Alpenraum. Forstwiss Cbl 114:375–387
Sänger K (1977) Über die Beziehungen zwischen Heuschrecken (Orthoptera: Saltatoria) und der Raumstruktur ihrer Habitate. Zool Jb Syst 104:433–488
Schauer T (1998) Die Vegetationsverhältnisse an der Oberen Isar vor und nach der Teilrückleitung. Jahrbuch Ver Schutz Bergwelt 63:131–141
Schirmel J, Blindow I, Fartmann T (2010) The importance of habitat mosaics for Orthoptera (Caelifera and Ensifera) in dry heathlands. Eur J Entomol 107:129–132
Schirmel J, Mantilla-Contreras J, Blindow I, Fartmann T (2011) Impacts of succession and grass encroachment on Orthoptera in heathlands. J Insect Conserv 15:633–642
Schlumprecht H, Waeber G (2003) Heuschrecken in Bayern. Ulmer, Stuttgart
Schmitt B, Fartmann T, Hölzel N (2010) Vergesellschaftung und Ökologie der Sumpf-Siegwurz (Gladiolus palustris) in Südbayern. Tuexenia 30:105–127
Schulte AM (2003) Taxonomie, Verbreitung und Ökologie von Tetrix bipunctata (Linnaeus 1758) und Tetrix tenuicornis (Sahlberg 1893) (Saltatoria: Tetrigidae). Articulata Beih 10:1–226
Simberloff D (1999) The role of science in the preservation of forest biodiversity. For Ecol Manage 115:101–111
Sliacka A, Krištín A, Naďo L (2013a) Response of Orthoptera to clear-cuts in beech forests. Eur J Entomol 110:319–326
Sliacka A, Krištín A, Naďo L (2013b) Orthoptera assemblages of beech stand plots during early succession stages after clearcutting. J For Sci 59:93–100
Steinecke K, Venzke JF (2003) Wald und Forst heute. In: Leibniz-Institut für Länderkunde (eds) Nationalatlas Bundesrepublik Deutschland. Klima, Pflanzen und Tierwelt. Spektrum Akademischer Verlag, Heidelberg
Stoutjesdijk P, Barkman JJ (1992) Microclimate, vegetation and fauna. Opulus Press, Uppsala
Streitberger M, Hermann G, Kraus W, Fartmann T (2012) Modern forest management and the decline of the Woodland Brown (Lopinga achine) in Central Europe. For Ecol Manage 269:239–248
Theuerkauf J, Rouys S (2006) Do Orthoptera need human land use in central Europe? The role of habitat patch size and linear corridors in the Bialowieza Forest, Poland. Biodivers Conserv 15:1497–1508
Vera FWM (2000) Grazing ecology and forest history. CABI Publishing, Wallingford
Vodka S, Konvička M, Cizek L (2009) Habitat preferences of oak-feeding xylophagous beetles in a temperate woodland: implications for forest history and management. J Insect Conserv 13:553–562
Weiss N, Zucci H, Hochkirch A (2012) The effects of grassland management and aspect on Orthoptera diversity and abundance: site conditions are as important as management. Biodivers Conserv. doi:10.1007/s10531-012-0398-8
Willott SJ, Hassall M (1998) Life-history responses of British grasshoppers (Orthoptera: Acrididae) to temperature change. Funct Ecol 12:232–241
Wünsch Y, Schirmel J, Fartmann T (2012) Conservation management of coastal dunes for Orthoptera has to consider oviposition and nymphal preferences. J Insect Conserv 16:501–510
Acknowledgments
We are grateful to Wolfgang Kraus (Landratsamt Garmisch-Partenkirchen) for helpful information concerning the study area. Jan Beck and two anonymous reviewers made valuable comments on an earlier version of the manuscript. The Government of Upper Bavaria gave permission to conduct the study in the nature reserve “Karwendel und Karwendelvorgebirge”.
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Helbing, F., Blaeser, T.P., Löffler, F. et al. Response of Orthoptera communities to succession in alluvial pine woodlands. J Insect Conserv 18, 215–224 (2014). https://doi.org/10.1007/s10841-014-9632-x
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DOI: https://doi.org/10.1007/s10841-014-9632-x