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  • Auer, M. (2003), Regionalisierung von Schneeparametern—Eine Methode zur Darstellung von Schneeparametern im Relief, M.S. thesis, 97 pp., Univ. Bern, Bern.
  • Barletta, V. R., C. Ferrari, G. Diolaiuti, T. Carnielli, R. Sabadini, and C. Smiraglia (2006), Glacier shrinkage and modeled uplift of the Alps, Geophys. Res. Lett., 33, L14307, doi:10.1029/2006GL026490.
  • Bernet, M., M. Brandon, J. Garver, and B. Molitor (2004), Downstream changes of Alpine zircon fission-track ages in the Rhone and Rhine rivers, J. Sediment. Res., 74, 8294.
  • Bierman, P., and K. Nichols (2004), Rock to sediment—Slope to sea with 10Be—Rates of landscape change, Annu. Rev. Earth Planet. Sci., 32, 215255.
  • Bierman, P., and E. Steig (1996), Estimating rates of denudation using cosmogenic isotope abundances in sediment, Earth Surf. Processes Landforms, 21, 135139.
  • Brandon, M., and J. Vance (1992), Tectonic evolution of the Cenozoic Olympic subduction complex, Washington State, as deduced from fission track ages for detrital zircons, Am. J. Sci., 292, 565636.
  • Braun, J. (2002), Quantifying the effect of recent relief changes on age-elevation relationships, Earth Planet. Sci. Lett., 200, 331343.
  • Brown, E. T., D. L. Bourlès, F. Colin, G. M. Raisbeck, F. Yiou, and S. Desgarceaux (1995a), Evidence for muon-induced production of 10Be in near-surface rocks from the Congo, Geophys. Res. Lett., 22, 703706.
  • Brown, E. T., R. Stallard, M. Larsen, G. Raisbeck, and F. Yiou (1995b), Denudation rates determined from the accumulation of in situ- produced 10Be in the Luquillo experimental forest, Puerto Rico, Earth Planet. Sci. Lett., 129, 193202.
  • Brown, E. T., R. Stallard, M. Larsen, D. Bourles, G. Raisbeck, and F. Yiou (1998), Determination of predevelopment denudation rates of an agricultural watershed (Cayaguas River, Puerto Rico) using in-situ-produced 10Be in river-borne quartz, Earth Planet. Sci. Lett., 160, 723728.
  • Calais, E., J. Nocquet, F. Jouanne, and M. Tardy (2002), Current strain regime in the Western Alps from continuous Global Positioning System measurements, 1996–2001, Geology, 30, 651654.
  • Cederbom, C., H. Sinclair, F. Schlunegger, and M. Rahn (2004), Climate-induced rebound and exhumation of the European Alps, Geology, 32, 709712.
  • Champagnac, J., P. Molnar, R. Anderson, C. Sue, and B. Delacou (2007), Quaternary erosion- induced isostatic rebound in the western Alps, Geology, 35, 195198.
  • Delacou, B., C. Sue, J. Champagnac, and M. Burkhard (2004), Present-day geodynamics in the bend of the Western and Central Alps as constrained by earthquake analysis, Geophys. J. Int., 158, 753774.
  • Dezes, P., S. Schmid, and P. Ziegler (2004), Evolution of the European Cenozoic rift system: Interaction of the Alpine and Pyrenean orogens with their foreland lithosphere, Tectonophysics, 389, 133.
  • Dunai, T. (2000), Scaling factors for production rates of in situ produced cosmogenic nuclides: A critical reevaluation, Earth Planet. Sci. Lett., 176, 157169.
  • Dunne, J., D. Elmore, and P. Muzikar (1999), Scaling factors for the rates of production of cosmogenic nuclides for geometric shielding and attenuation at depth on sloped surfaces, Geomorphology, 27, 311.
  • England, P., and P. Molnar (1990), Surface uplift, uplift of rocks, and exhumation of rocks, Geology, 18, 11731177.
  • Florineth, D., and C. Schluechter (1998), Reconstructing the Last Glacial Maximum (LGM) ice surface geometry and flowlines in the Central Swiss Alps, Eclogae Geol. Helv., 91, 391407.
  • Florineth, D., and C. Schluechter (2000), Alpine evidence for atmospheric circulation patterns in Europe during the Last Glacial Maximum, Quat. Res., 54, 295308.
  • Frisch, W., B. Székely, J. Kuhlemann, and I. Dunkl (2000), Geomorphological evolution of the Eastern Alps in response to Miocene tectonics, Z. Geomorphol., 44, 103138.
  • Furrer, G., C. Burga, M. Gamper, H. Holzhauser, and M. Maisch (1987), Zur Gletscher- Vegetations- und Klimageschichte der Schweiz seit der Spaeteiszeit, Geogr. Helv., 2, 6191.
  • Granger, D. E., J. W. Kirchner, and R. C. Finkel (1996), Spatially averaged long-term erosion rates measured from in situ-produced cosmogenic nuclides in alluvial sediment, J. Geol., 104, 249257.
  • Gudmundsson, G. (1994), An order-of-magnitude estimate of the current uplift-rates in Switzerland caused by the Wuerm Alpine deglaciation, Eclogae Geol. Helv., 87, 545557.
  • Heidbreder, E., K. Pinkau, C. Reppin, and V. Schoenfelder (1971), Measurements of distribution in energy and angle of high-energy neutrons in lower atmosphere, J. Geophys. Res., 76, 29052916.
  • Hinderer, M. (2001), Late Quaternary denudation of the Alps, valley and lake fillings and modern river loads, Geodin. Acta, 14, 231263.
  • Hormes, A., B. U. Mueller, and C. Schluechter (2001), The Alps with little ice: Evidence for eight Holocene phases of reduced glacier extent in the Central Swiss Alps, Holocene, 11(3), 255265.
  • Hovius, N., and F. von Blanckenburg (2007), Constraining the denudational response to faulting, in The Dynamics of Fault Zones, edited by M. Handy, D. D. Hirth, and N. Hovius, chap. 9, pp. 231273, MIT Press, Cambridge, Mass.
  • Hovius, N., C. Stark, C. Hao-Tsu, and L. Jiun-Chuan (2000), Supply and removal of sediment in a landslide-dominated mountain belt: Central Range, Taiwan, J. Geol., 108, 7389.
  • Ivy-Ochs, S., C. Schluechter, P. Kubik, H. Synal, J. Beer, and H. Kerschner (1996), The exposure age of an Egesen moraine at Julier Pass, Switzerland, measured with the cosmogenic radionuclides 10Be, 26Al and 36Cl, Eclogae Geol. Helv., 89, 10491063.
  • Ivy-Ochs, S., J. Schaefer, P. Kubik, H. Synal, and C. Schluechter (2004), Timing of deglaciation on the northern Alpine foreland (Switzerland), Eclogae Geol. Helv., 97, 4755.
  • Jäckli, A. (1970), Die Schweiz zur letzten Eiszeit, Atlas der Schweiz, map 6, Eidg. Landestopogr. Wabern, Bern.
  • Kahle, H., et al. (1997), Recent crustal movements, geoid and density distribution: Contribution from integrated satellite and terrestrial measurements, in Results of the National Research Program 20 (NRP 20), edited by O. E. A. Pfiffner, pp. 251259, Birkhaeuser, Basel, Switzerland.
  • Kelly, M., J. Buoncristiani, and C. Schluechter (2004), A reconstruction of the Last Glacial Maximum (LGM) ice-surface geometry in the western Swiss Alps and contiguous Alpine regions in Italy and France, Eclogae Geol. Helv., 97, 5775.
  • Kerschner, H., G. Kaser, and R. Sailer (2000), Alpine Younger Dryas glaciers as paleo-precipitation gauges, Ann. Glaciol., 31, 8084.
  • Kerschner, H., A. Hertl, G. Gross, S. Ivy-Ochs, and P. W. Kubik (2006), Surface exposure dating of moraines in the Kromer valley (Silvretta Mountains, Austria)—Evidence for glacial response to the 8.2 ka event in the Eastern Alps? Holocene, 16, 715.
  • Kirchner, J. W., R. C. Finkel, C. S. Riebe, D. E. Granger, J. Clayton, J. King, and W. Megahan (2001), Mountain erosion over 10 yr, 10 k.y., and 10 m.y. time scales, Geology, 29, 591594.
  • Koons, P. (1989), The topographic evolution of collisional mountain belts: a numerical look at the Southern Alps, New Zealand, Am. J. Sci., 289, 10411069.
  • Kuhlemann, J., W. Frisch, B. Szekely, I. Dunkl, and M. Kazmer (2002), Post-collisional sediment budget history of the Alps: Tectonic versus climatic control, Int. J. Earth Sci., 91, 818837.
  • Lal, D. (1991), Cosmic ray labeling of erosion surfaces: In situ nuclide production rates and erosion models, Earth Planet. Sci. Lett., 104, 424439.
  • Lal, D., and B. Peters (1967), Cosmic ray-produced radioactivity on the Earth, in Handbuch der Physik, edited by S. Fluegge, pp. 551612, Springer, Berlin.
  • Ludwig, K. R. (1994), ISOPLOT—A plotting and regression program for radiogenic isotope data, U.S. Geol. Surv. Open File Rep. 91-445, 45 pp.
  • Maisch, M. (1981), Glazialmorphologische und gletschergeschichtliche Untersuchungen im Gebiet zwischen Landwasser- und Albulatal (Kt. Graubünden, Schweiz), Geogr. Helv., 37, 93104.
  • Masarik, J., M. Frank, J. Schaefer, and R. Wieler (2001), Correction of in situ cosmogenic nuclide production rates for geomagnetic field variations during the past 800,000 years, Geochim. Cosmochim. Acta, 65, 29953003.
  • Molnar, P. (2004), Late Cenozoic increase in accumulation rates of terrestrial sediment: How might climate change have affected erosion rates? Annu. Rev. Earth Planet. Sci., 32, 6789.
  • Montgomery, D., and M. Brandon (2002), Topographic controls on erosion rates in tectonically active mountain ranges, Earth Planet. Sci. Lett., 201, 481489.
  • Montgomery, D., and H. Greenberg (2000), Local relief and the height of Mount Olympus, Earth Surf. Processes Landforms, 25, 385396.
  • Mulch, A., C. Teyssier, M. A. Cosca, and C. P. Chamberlain (2007), Stable isotope paleoaltimetry of Eocene core complexes in the North American Cordillera, Tectonics, 26, TC4001, doi:10.1029/2006TC001995.
  • Niemi, N., M. Oskin, D. Burbank, A. Heimsath, and E. Gabet (2005), Effects of bedrock landslides on cosmogenically determined erosion rates, Earth Planet. Sci. Lett., 237, 480498.
  • Norton, K. P., F. von Blanckenburg, F. Schlunegger, and P. W. Kubik (2007), Cosmogenic nuclide-based investigation of spatial erosion and hillslope coupling in the geomorphically transient foreland of the Swiss Alps, Geomorphology, in press.
  • Ohlendorf, C. (1998), High alpine lake sediments as chronicles for regional glacier and climate history in the Upper Engadine, southeastern Switzerland, Ph.D. thesis, 203 pp., ETH Zurich, Zurich, Switzerland.
  • Parker, G., and L. Perg (2005), Probabilistic formulation of conservation of cosmogenic nuclides: Effect of surface elevation fluctuations on approach to steady state, Earth Surf. Processes Landforms, 30, 11271144.
  • Persaud, M., and O. Pfiffner (2004), Active deformation in the eastern Swiss Alps: Post-glacial faults, seismicity and surface uplift, Tectonophysics, 385, 5984.
  • Pinet, P., and M. Souriau (1988), Continental erosion and large-scale relief, Tectonics, 7, 563582.
  • Prosser, G. (1998), Strike-slip movements and thrusting along a transpressive fault zone: The North Giudicarie line (Insubric line, northern Italy), Tectonics, 17, 921937.
  • Rahn, M. (2001), The metamorphic and exhumation history of the Helvetic Alps, Switzerland, as revealed by apatite and zircon fission tracks, habilitation thesis, 140 pp., Albert Ludwigs Univ. Freiburg, Freiburg, Germany.
  • Rahn, M. (2005), Apatite fission track ages from the Adula nappe: Late-stage exhumation and relief evolution, Schweiz. Mineral. Petrogr. Mitt., 85, 233245.
  • Rahn, M., and B. Grasemann (1999), Fission track and numerical thermal modeling of differential exhumation of the Glarus thrust plane (Switzerland), Earth Planet. Sci. Lett., 169, 245259.
  • Riebe, C. S., J. W. Kirchner, and D. E. Granger (2001), Quantifying quartz enrichment and its consequences for cosmogenic measurements of erosion rates from alluvial sediment and regolith, Geomorphology, 40, 1519.
  • Roebber, P., S. Bruening, D. Schultz, and J. Cortinas Jr. (2003), Improving snowfall forecasting by diagnosing snow density, Weather Forecasting, 18, 264287.
  • Roethlisberger, F., and W. Schneebeli (1979), Genesis of lateral moraine complexes, demonstrated by fossil soils and trunks; indicators of postglacial climatic fluctuations, paper presented at INQUA Symposium on Genesis and Lithology of Quaternary Deposits, Int. Union for Quat. Res., Zurich, Switzerland.
  • Sailer, R. (2001), Spaeteiszeitliche Gletscherstaende in der Fernwallgruppe, Ph.D. thesis, 204 pp., Univ. Innsbruck, Innsbruck, Austria.
  • Schaller, M., F. von Blanckenburg, N. Hovius, and P. Kubik (2001), Large-scale erosion rates from in situ-produced cosmogenic nuclides in European river sediments, Earth Planet. Sci. Lett., 188, 441458.
  • Schaller, M., F. von Blanckenburg, A. Veldkamp, L. Tebbens, N. Hovius, and P. Kubik (2002), A 30 000 yr record of erosion rates from cosmogenic 10Be in middle European river terraces, Earth Planet. Sci. Lett., 204, 307320.
  • Schildgen, T., W. Phillips, and R. Purves (2005), Simulation of snow shielding corrections for cosmogenic nuclide surface exposure studies, Geomorphology, 64, 6785.
  • Schlatter, A., D. Schneider, A. Geiger, and H. Kahle (2005), Recent vertical movements from precise levelling in the vicinity of the city of Basel, Switzerland, Int. J. Earth Sci., 94, 507514.
  • Schlunegger, F., and M. Hinderer (2001), Crustal uplift in the Alps: Why the drainage pattern matters, Terra Nova, 13, 425432.
  • Schlunegger, F., and M. Hinderer (2003), Pleistocene/Holocene climate change, re-establishment of fluvial drainage network and increase in relief in the Swiss Alps, Terra Nova, 15, 8895.
  • Schlunegger, F., J. Melzer, and G. Tucker (2001), Climate, exposed source-rock lithologies, crustal uplift and surface erosion: A theoretical analysis calibrated with data from the Alps/north Alpine foreland basin system, Int. J. Earth Sci., 90, 484499.
  • Schmid, S., and E. Kissling (2000), The arc of the western Alps in the light of geophysical data on deep crustal structure, Tectonics, 19, 6285.
  • Schmid, S., H. Aebli, F. Heller, and A. Zingg (1989), The role of the Periadriatic line in the tectonic evolution of the Alps, in Alpine Tectonics, edited by M. Coward, D. Dietrich, and R. Park, Geol. Soc. Spec. Publ., 45, 153171.
  • Schmid, S., B. Fuegenschuh, E. Kissling, and R. Schuster (2004), Tectonic map and overall architecture of the Alpine orogen, Eclogae Geol. Helv., 97, 93117.
  • Small, E., R. Anderson, J. Repka, and R. Finkel (1997), Erosion rates of alpine bedrock summit surfaces deduced from in situ 10Be and 26Al, Earth Planet. Sci. Lett., 150, 413425.
  • Stuewe, K., and T. Barr (1998), On uplift and exhumation during convergence, Tectonics, 17, 8088.
  • Stuewe, K., L. White, and R. Brown (1994), The influence of eroding topography on steady-state isotherms: Application to fission track analysis, Earth Planet. Sci. Lett., 124, 6374.
  • Summerfield, M. (1991), Tectonic geomorphology, Prog. Phys. Geogr., 15, 193205.
  • Summerfield, M., and N. Hulton (1994), Natural controls of fluvial denudation rates in major world drainage basins, J. Geophys. Res., 99, 871883.
  • Synal, H., G. Bonani, M. Doebeli, R. Ender, P. Gartenmann, P. W. Kubik, C. Schnabel, and M. Suter (1997), Status report of the PSI/ETH AMS facility, Nucl. Instrum. Methods Phys. Res., Sect. B, 123, 6268.
  • van Husen, D. (1977), Zur Fazies und Stratigraphie der Jungpleistaozänen Ablagerungen im Trauntal (mit Quartärgeologischer Karte), Jahrbuch Geol. Bundesanst., vol. 120, pp. 1130, Verl. Geol. Bundesanst., Vienna.
  • Vezolli, G. (2004), Erosion in the Western Alps (Dora Baltea basin): 2. Quantifying sediment yield, Sediment. Geol., 171, 247259.
  • von Blanckenburg, F. (2005), The control mechanisms of erosion and weathering at basin scale from cosmogenic nuclides in river sediment, Earth Planet. Sci. Lett., 237, 462479.
  • von Blanckenburg, F., N. Belshaw, and R. O'Nions (1996), Separation of 9Be and cosmogenic 10Be from environmental materials and SIMS isotope dilution analysis, Chem. Geol., 129, 9399.
  • von Blanckenburg, F., T. Hewawasam, and P. W. Kubik (2004), Cosmogenic nuclide evidence for low weathering and denudation in the wet, tropical highlands of Sri Lanka, J. Geophys. Res., 109, F03008, doi:10.1029/2003JF000049.
  • Wagner, G., G. Reimer, and E. Jaeger (1977), Cooling ages derived by apatite fission-track, mica Rb-Sr and K-Ar dating: The uplift and cooling history of the Central Alps, Mem. Ist. Geol. Miner. Univ. Padova, 30, 127.
  • Ware, E., D. Schultz, H. Brooks, P. Roebber, and S. Bruening (2006), Improving snowfall forecasting by accounting for the climatological variability of snow density, Weather Forecasting, 21, 94103.
  • Whipple, K. (2001), Fluvial landscape response time: How plausible is steady-state denudation? Am. J. Sci., 301, 313325.
  • Whipple, K. (2004), Bedrock rivers and the geomorphology of active orogens, Annu. Rev. Earth Planet. Sci., 32, 151185.
  • Whipple, K., and B. Meade (2006), Orogen response to changes in climatic and tectonic forcing, Earth Planet. Sci. Lett., 243, 218228.
  • Whipple, K., E. Kirby, and S. Brocklehurst (1999), Geomorphic limits to climate-induced increases in topographic relief, Nature, 401, 3943.
  • Willett, S., and M. Brandon (2002), On steady states in mountain belts, Geology, 30, 175178.
  • Willett, S., F. Schlunegger, and V. Picotti (2006), Messinian climate change and erosionale destruction of the Central European Alps, Geology, 34, 613616.
  • Zhang, P., P. Molnar, and W. Downs (2001), Increased sedimentation rates and grain sizes 2–4 Myr ago due to the influence of climate change on erosion rates, Nature, 410, 891897.