Abstract
Natural landscapes characterized by heavy disturbance regimes were displaced in Europe by managed cultural landscapes over the past centuries. The associated loss of biological legacies, such as dead or dying trees, has exposed numerous saproxylic species to high risks of extinction. In contrast, extensive wilderness forests in Northern Mongolia have been sustained owing to significant cultural differences. Here we used saproxylic beetle abundance data gathered during two sampling campaigns in the Mongolian taiga to address whether (1) the saproxylic beetle fauna of the Mongolian taiga is comparable to that of European boreal forests, (2) fires are a natural disturbance regime, indicated by the occurrence of many pyrophilous species, and (3) species rare in Europe are also rare in the Northern Mongolian wilderness. Of 191 saproxylic beetle species identified, 150 (79 %) were also found in Europe. The high number of pyrophilous beetle species (20) indicated that natural species communities are well adapted to this disturbance regime. The species rarity in Germany was significantly positively correlated with the species rarity in Finland, but the species rarity in these two countries was negatively correlated with that in the Mongolian wilderness. Our results indicated that wilderness areas with natural disturbances provide biological legacies important for rare species. Therefore, exploitation of the unique, remaining natural landscapes of the Palaearctic wilderness areas should be stopped. Moreover, we urge conservationists to expand controlled burning for restoration at relict sites of rare boreal species also outside Fennoscandia.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ahnlund H, Lindhe A (1992) Hotade vedinsekter i barrskogslandskapet—några synpunkter utifrån studier av sörmländska brandfält, hällmarker och hyggen. Ent Tidskr 113:13–23
Angelstam P (1996) The ghost of forest past—natural disturbance regimes as a basis for reconstruction for biologically diverse forests in Europe. In: DeGraaf RM, Millner RI (eds) Conservation of faunal diversity in forested landscapes, Chapman and Hall, London
Azeria ET, Ibarzabal J, Hébert C (2012) Effects of habitat characteristics and interspecic interactions on co-occurrence patterns of saproxylic beetles breeding in tree boles after forest fire: null model analyses. Oecologia 168:1123–1135
Bai M-L, Mühlenberg M (2006) The structure of hole nesting-bird’s community in a Mongolian boreal forest—resource availability, resource flow and competition. J Ornithol 147:38–39
Blazyte-Cereskiene L, Karalius V (2012) Habitat requirements of the endangered beetle Boros schneideri (Panzer, 1796) (Coleoptera: Boridae). Insect Conserv Divers 5:186–191
Böhme J (2001) Phytophage Käfer und ihre Wirtspflanzen in Mitteleuropa—Ein Kompendium. bioform, Heroldsberg
Brechtel F, Kostenbader H (2002) Die Pracht- und Hirschkäfer Baden-Württembergs. Ulmer, Stuttgart
Buse J (2012) “Ghosts of the past”: flightless saproxylic weevils (Coleoptera: Curculionidae) are relict species in ancient woodlands. J Insect Conserv 16:93–102
Cardillo M, Mace GM, Jones KE, Bielby J, Bininda-Emonds ORP, Sechrest W, Orme CDL, Purvis A (2005) Multiple causes of high extinction risk in large mammal species. Science 309:1239–1241
Chao A, Jost L (2012) Coverage-based rarefaction and extrapolation: standardizing samples by completness rather than size. Ecology 93:2533–2547
Cobb TP, Morrissette JL, Jacobs JM, Koivula MJ, Spence JR, Langor DW (2011) Effects of postfire salvage logging on deadwood-associated beetles. Conserv Biol 25:94–104
Colwell RK, Chao A, Gotelli NJ, Lin S-Y, Mao CX, Chazdon RL, Longino JT (2012) Models and estimators linking individual-based and sample-based rarefaction, extrapolation and comparison of assemblages. J Plant Ecol 5:3–21
Dulamsuren C, Hauck M, Mühlenberg M (2005) Vegetation at the taiga forest-steppe borderline in the western Khentej Mountains, northern Mongolia. Ann Bot Fenn 42:411–426
Dulamsuren C, Hauck M, Mühlenberg M (2008) Insect and small mammal herbivores limit tree growth in northern Mongolian steppe. Plant Ecol 195:143–156
Dulamsuren C, Hauck M, Leuschner C (2010) Recent drought stress leads to growth reductions in Larix sibirica in the Western Khentey, Mongolia. Glob Change Biol 16:3024–3035
Ehnström B (2001) Leaving dead wood for insects in boreal forests-suggestions for the future. Scand J For Res 16:91–98
Ermakov N, Cherosov M, Gogoleva P (2002) Classification of ultracontinental boreal forests in central Yakutia. Folia Geobotanica 37:419–440
Grove SJ (2002) Saproxylic insect ecology and the sustainable management of forests. Annu Rev Ecol Syst 33:1–23
Hedgren O, Weslien J (2008) Detecting rare species with random or subjective sampling: a case study of red-listed saproxylic beetles in boreal Sweden. Conserv Biol 22:212–215
Hennevogel FvE (1905) Zur Käferfauna des Böhmerwaldes. Verlag der Gesellschaft für Physiokratie in Böhmen, Prag
Horion A (1951) Faunistik der Käfer Mitteleuropas (Deutschland, Österreich, Tschechoslowakei) mit kurzen faunistischen Angaben. Stuttgart
Hyvärinen E, Kouki J, Martikainen P (2006) Fire and green-tree retention in conservation of red-listed and rare deadwood-dependent beetles in finnish boreal forests. Conserv Biol 20:1711–1719
Kaila L, Martikainen P, Punttila P (1997) Dead trees left in clear cuts benefit saproxylic Coleoptera adapted to natural disturbances in boreal forest. Biodivers Conserv 6:1–18
Köhler F (2000) Totholzkäfer in Naturwaldzellen des nördlichen Rheinlands. Landesanstalt für Ökologie, Bodenordnung und Forsten/Landesamt für Agrarordnung Nordrhein-Westfalen, Recklinghausen
Kouki J, Hyvärinen E, Lappalainen H, Martikainen P, Similä M (2012) Landscape context affects the success of habitat restoration: large-scale colonization patterns of saproxylic and fire-associated species in boreal forests. Divers Distrib 18:348–355
Lera PA (1992) Opredelitel nasekomykh dalnego Vostoka SSSR v shesti tomakh
Martikainen P, Kaila L, Haila Y (1998) Threatened beetles in White-Backed woodpecker habitats. Conserv Biol 12:293–301
Martikainen P, Siitonen J, Punttila P, Kaila L, Rauh J (2000) Species richness of Coleoptera in mature managed and old-growth boreal forests in southern Finland. Biol Conserv 94:199–209
Mikusinski G, Angelstam P (1997) European woodpeckers and anthropogenic habitat change: a review. Vogelwelt 118:277–283
Miller RL, Kahn JS (1962) Statistical analysis in the geological sciences. Wiley, New York, USA
Mühlenberg M, Slowik J, Samiya R, Dulamsuren C, Gantigmaa C, Woyciechoswki M (2000) The conservation value of West-Khentii, North Mongolia: evaluation of plant and butterfly communities. Fragmenta Floristica et Geobotanica 45:63–90
Mühlenberg M, Enkhmaa A, Mühlenberg-Horn E (2011) Biodiversity survey at Khonin Nuga research station West-Khentey. Ulaanbaatar, Mongolia
Mühlenberg M, Appelfelder J, Hoffmann H, Ayush E, Wilson KJ (2012) Structure of the montane taiga forests in West Khentii, Northern Mongolia. J For Sci 58:45–56
Müller J, Reed N, Bussler H, Brandl R (2010) Learning from a “benign neglect strategy” in a national park: response of saproxylic beetles to dead wood accumulation. Biol Conserv 143:2559–2569
Nieto K, Alexander KNA (2010) European red list of saproxylic beetles. Publications of the European Union, Luxembourg
Noss RF, Cooperrider A (1994) Saving nature’s legacy: protecting and restoring biodiversity. Island Press, Washington, DC
Östlund L, Zackrisson O, Axelsson AL (1997) The history and transformation of a Scandinavian boreal forest landscape since the 19th century. Can J For Res 27:1198–1206
Palm T (1950) Die Holz- und Rindenkäfer der nordschwedischen Laubbäume. Medd. Fr Stat Skogforsknings-Inst 40:1–242
Peterken GF (1996) Natural woodland. Ecology and conservation in northern temperate regions. Cambridge University Press, Cambridge
Rassi P (1993) Frequency score of Coleoptera in Finland 1.1.1960–1.1.1990. WWF Report Nr. 6, Helsinki
Saint-Germain M, Drapeau P, Buddle CM (2007) Host-use patterns of saproxylic phloeophagous and xylophagous Coleoptera adults and larvae along the decay gradient in standing dead black spruce and aspen. Ecography 30:737–748
Saint-Germain M, Drapeau P, Buddle CM (2008) Persistence of pyrophilous insects in fire-driven boreal forests: population dynamics in burned and unburned habitats. Divers Distrib 14:713–720
Schmidl J, Büche B (2013) Die Rote Liste und Gesamtartenliste der Käfer (Coleoptera, exkl. Lauf- und Wasserkäfer) Deutschlands im Überblick (Stand Sept. 2011). Naturschutz und Biologische Vielfalt 70 (in press)
Schmidl J, Bußler H (2004) Ökologische Gilden xylobionter Käfer Deutschlands. NUL 36:202–218
Schmitz H, Bleckmann H (1998) The photomechanic infrared receptor for the detection of forest firest in the beetle Melanophila acuminata (Coleoptera: Buprestidae). J Comp Physiol A 182:647–657
Siitonen J, Martikainen P (1994) Occurence of rare and threatened insects living on decaying Populus tremula: a comparison between Finnish and Russian Karelia. Scand J For Res 9:89–95
Siitonen J, Saaristo L (2000) Habitat requirements and conservation of Pytho kolwensis, a beetle species of old-growth boreal forest. Biol Conserv 94:211–220
Speight MCD (1989) Saproxylic invertebrates and their conservation. Counc Eur Nat Environ Ser 42:1–79
Stokland JN, Siitonen J, Jonsson BG (2012) Biodiversity in dead wood. Cambridge University Press, Cambridge
Stokstad E (2006) Salvage logging research continues to generate sparks. Science 311:761
Thiem FM (1906) Biogeographische Betrachtung des Rachel.—zum Zwecke der Darlegung wie das Leben diesen Raum in vertikaler Richtung besetzt hat. Abhandlungen der Naturhistorischen Gesellschaft Nürnberg 16:6–137
Turner MG, Romme WH, Tinker DB (2003) Surprises and lessons from the 1988 Yellowstone fires. Front Ecol Environ 1:351–358
Van Dyke EC (1926) Buprestid swarming. Pan Pac Entomol 3:41
Villard MA, Jonsson BG (2009) Setting conservation targets for managed for managed forest landscapes. Cambridge University Press
Wesolowski T (1995) Value of Bialowieza forest for the conservation of white-backed woodpecker Dendrocopos leucotos in Poland. Biol Conserv 71:69–75
Wikars L-O (1992) Forest fires and insects. Ent Tidskr 113:1–11
Wikars L-O (1997) Brandinsekter i Orsa Finnmark: biologi, utbredning och artbevarande. Ent Tidskr 118:155–169
Ziegler G, Hogh A (2005) Die Mongolen, im Reich des Dschingis Khan. Theiss, Stuttgart
Acknowledgments
We thank Wolfgang Rücker (Latridiidae), Boris Büche (Anobiidae), Peter Sprick (Curculionidae), Hans Mühle (Buprestidae), Frank Lange (Erotylidae, Tetratomidae), Michael Eifler (Ptinidae), Andreas Weigel (Cerambycidae), and Johannes Reibnitz (Ciidae) for determining species and Karen A. Brune for linguistic improvement of the manuscript. Michael Mühlenberg and Enkhmaa Ayush many thanks for intensive support during field sampling in Khoni Nuga. We also thank Samjaa Ravchig for general support in Mongolia.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Müller, J., Jarzabek-Müller, A. & Bussler, H. Some of the rarest European saproxylic beetles are common in the wilderness of Northern Mongolia. J Insect Conserv 17, 989–1001 (2013). https://doi.org/10.1007/s10841-013-9581-9
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10841-013-9581-9