SEARCH

SEARCH BY CITATION

References

  • Ahnert, F. (1970), Functional relationships between denudation, relief and uplift in large, mid-latitude drainage basins, Am. J. Sci., 268, 243263.
  • Anderson, S. P., and W. E. Dietrich (2001), Chemical weathering and runoff chemistry in a steep headwater catchment, Hydrol. Processes, 15, 17911815.
  • Anderson, S. P., J. I. Drever, and N. F. Humphrey (1997), Chemical weathering in glacial environments, Geology, 25, 399402.
  • Anderson, S. P., J. I. Drever, C. D. Frost, and P. Holden (2000), Chemical weathering in the foreland of a retreating glacier, Geochim. Cosmochim. Acta, 64, 11731189.
  • Anderson, S. P., W. E. Dietrich, and G. H. Brimhall Jr. (2002), Weathering profiles, mass-balance analysis and rates of solute loss: Linkages between weathering and erosion in a small, steep catchment, Geol. Soc. Am. Bull., 114, 11431158.
  • Basher, L. R., P. J. Tonkin, and M. J. McSaveney (1988), Geomorphic history of a rapidly uplifting area in a compressional plate boundary: Cropp River, New Zealand, Z. Geomorphol., 69, 117131.
  • Berryman, K., M. Marden, D. Eden, C. Mazengarb, Y. Ota, and I. Moriya (2000), Tectonic and paleoclimatic significance of Quaternary river terraces of the Waipaoa River, east coast, North Island, New Zealand, N. Z. J. Geol. Geophys., 43, 229245.
  • Blum, J. D., C. A. Gazis, A. D. Jacobson, and C. P. Chamberlain (1998), Carbonate versus silicate weathering in the Raikhot watershed within the high Himalayan crystalline series, Geology, 26, 411414.
  • Bluth, G. J. S., and L. R. Kump (1994), Lithological and climatological controls of river chemistry, Geochim. Cosmochim. Acta, 58, 23412359.
  • Brooks, S. M., M. J. Crozier, N. J. Preston, and M. G. Anderson (2002), Regolith stripping and the control of shallow translational hillslope failure: Application of a two-dimensional coupled hydrology-slope stability model, Hawke's Bay, New Zealand, Geomorphology, 45, 165179.
  • Campbell, D., and M. Church (2003), Reconnaissance sediment budgets for Lynn Valley, British Columbia: Holocene and contemporary time scales, Can. J. Earth Sci., 40, 701713.
  • Carey, A. E., S.-J. Kao, D. M. Hicks, C. A. Nezat, and W. B. Lyons (2005), Chemical and physical weathering in Taiwan and New Zealand, in Tectonics, Climate and Landscape Evolution, edited by S. Willett et al., Geol. Soc. of Am., Boulder, Colo., in press.
  • Chinn, T. J. (1979), How wet is the wettest of the wet West Coast? N. Z. Alp. J., 32, 8588.
  • Close, M. E., and R. J. Davies-Colley (1990), Baseflow water chemistry in New Zealand rivers: 1. Characterization, N. Z. J. Mar. Freshwater Res., 24, 319341.
  • Dadson, S. J., et al. (2004), Earthquake-triggered increased in sediment delivery from an active mountain belt, Geology, 32, 733736, doi:10.1130/G20639.1.
  • Dalai, T. K., S. Krishnaswami, and M. M. Sarin (2002), Major ion geochemistry in the headwaters of the Yamuna river system: Chemical weathering, its temperature dependence and CO2 consumption in the Himalaya, Geochim. Cosmochim. Acta, 66, 33973416.
  • Dessert, C., B. Dupré, L. M. François, J. Schott, J. Gaillardet, G. Chakrapani, and S. Bajpai (2001), Erosion of Deccan Traps determined by river geochemistry: Impact on the global climate and the 87Sr/86Sr ratio of seawater, Earth Planet. Sci. Lett., 188, 459474.
  • Dethier, D. P. (1986), Weathering rates and the chemical flux from catchments in the Pacific Northwest, USA, in Rates of Chemical Weathering of Rocks and Minerals, edited by S. M. Colman, and D. P. Dethier, pp. 503530, Elsevier, New York.
  • Duncan, M. J. (1992), Flow regimes of New Zealand rivers, in Waters of New Zealand, edited by M. P. Mosel, pp. 1327, N. Z. Hydrol. Soc., Christchurch.
  • Edmond, J. M., and Y. Huh (1997), Chemical weathering yields from basement and orogenic terrains in hot and cold climates, in Tectonic Uplift and Climate Change, edited by W. F. Ruddiman, pp. 329351, Springer, New York.
  • Edmond, J. M., M. R. Palmer, C. I. Measures, B. Grant, and R. F. Stallard (1995), The fluvial geochemistry and denudation rate of the Guayana Shield in Venezuela, Colombia, and Brazil, Geochim. Cosmochim. Acta, 59, 33013325.
  • Fitzsimons, S. J., and H. Veit (2001), Geology and geomorphology of the European Alps and the Southern Alps of New Zealand: A comparison, Mt. Res. Dev., 21, 340349.
  • France-Lanord, C., A. Galy, and S. Singh (2002), The climatic control of weathering in the Himalayan river system (abstract), Geochim. Cosmochim. Acta, 66, A242.
  • Gaillardet, J., B. Dupré, and C. J. Allègre (1995), A global geochemical mass budget applied to the Congo basin rivers: Erosion rates and continental crust composition, Geochim. Cosmochim. Acta, 59, 34693485.
  • Gaillardet, J., B. Dupré, and C. J. Allègre (1999a), Geochemistry of large river suspended sediments: Silicate weathering or recycling tracer? Geochim. Cosmochim. Acta, 63, 40374051.
  • Gaillardet, J., B. Dupré, P. Louvat, and C. J. Allègre (1999b), Global silicate weathering and CO2 consumption rates deduced from the chemistry of large rivers, Chem. Geol., 159, 330.
  • Galy, A., and C. France-Lanord (2001), Higher erosion rates in the Himalaya: Geochemical constraints on riverine fluxes, Geology, 29, 2326.
  • Garrels, R. M., and F. T. Mackenzie (1971), Evolution of Sedimentary Rocks, W. W. Norton, New York.
  • Gomez, B., D. N. Eden, D. M. Hicks, N. A. Trustrum, D. H. Peacock, and J. Wilmshurst (1999), Contribution of floodplain sequestration to the sediment budget of the Waipaoa River, New Zealand, in Floodplains: Interdisciplinary Approaches, edited by S. B. Marriott, and J. Alexander, Geol. Soc. Spec. Publ., 163, 6988.
  • Grosbois, C., P. Négrel, C. Fouillac, and D. Grimaud (2000), Dissolved load of the Loire River: Chemical and isotopic characterization, Chem. Geol., 170, 179201.
  • Harris, S. E., and A. C. Mix (2002), Climate and tectonic influences on continental erosion of tropical South America, 0–13 Ma, Geology, 30, 447450.
  • Hicks, D. M. (1999), A regionally applicable suspended sediment rating for schist terrain in Otago, J. Hydrol. N. Z., 38, 3796.
  • Hicks, D. M., and G. A. Griffiths (1992), Sediment load, in Waters of New Zealand, edited by M. P. Mosel, pp. 229248, Hydrol. Soc., Wellington.
  • Hicks, D. M., M. J. McSaveney, and T. J. H. Chinn (1990), Sedimentation in proglacial Ivory Lake, Southern Alps, New Zealand, Arct. Alp. Res., 22, 2642.
  • Hicks, D. M., J. Hill, and U. Shankar (1996), Variation of suspended sediment yields around New Zealand: The relative importance of rainfall and geology, IAHS Publ., 236, 149156.
  • Hicks, D. M., B. Gomez, and N. A. Trustrum (2000), Erosion thresholds and suspended sediment yields, Waipaoa River Basin, New Zealand, Water Resour. Res., 36, 11291142.
  • Hodson, A., D. Porter, A. Lowe, and P. Mumford (2002), Chemical denudation and silicate weathering in Himalayan glacier basins: Batura Glacier, Pakistan, J. Hydrol., 262, 193208.
  • Horton, T. W., C. P. Chamberlain, M. Fantle, and J. D. Blum (1999), Chemical weathering and lithologic controls of water chemistry in a high-elevation river system: Clark's Fork of the Yellowstone River, Wyoming and Montana, Water Resour. Res., 35, 16431655.
  • Hovius, N., C. P. Stark, and P. A. Allen (1997), Sediment flux from a mountain belt derived by landslide mapping, Geology, 25, 231234.
  • Huh, Y., and J. C. Edmond (1999), The fluvial geochemistry of the rivers of eastern Siberia: III. Tributaries of the Lena and Anobar draining the basement terrain of the Siberian Craton and the Trans-Baikal Highlands, Geochim. Cosmochim. Acta, 63, 967987.
  • Jacobson, A. D., and J. D. Blum (2003), Relationship between mechanical erosion and atmospheric CO2 consumption in the New Zealand Southern Alps, Geology, 31, 865868.
  • Jacobson, A. D., J. D. Blum, C. P. Chamberlain, D. Craw, and P. O. Koons (2003), Climatic and tectonic controls on chemical weathering in the New Zealand Southern Alps, Geochim. Cosmochim. Acta, 67, 2946.
  • Kim, J. P., K. A. Hunter, and M. R. Reid (1999), Geochemical processes affecting major ion composition of rivers in the South Island, New Zealand, Mar. Freshwater Res., 50, 699709.
  • Korup, O., J. M. McSaveney, and T. R. H. Davies (2004), Sediment generation and delivery from large historic landslides in the Southern Alps, New Zealand, Geomorphology, 61, 189207, doi:10.10106/j.geomorph.2004.01.001.
  • Louvat, P., and C. J. Allègre (1997), Present denudation rates in the island of Réunion determined by river geochemistry: Basalt weathering and mass budget between chemical and mechanical erosions, Geochim. Cosmochim. Acta, 61, 36453669.
  • Lyons, W. B., R. M. Lent, N. Djukic, S. Maletin, V. Pujin, and A. E. Carey (1992), Geochemistry of surface waters of Vojvodina, Yugoslavia, J. Hydrol., 137, 3355.
  • Lyons, W. B., C. A. Nezat, A. E. Carey, and D. M. Hicks (2002), Organic carbon fluxes to the ocean from high-standing islands, Geology, 30, 443446.
  • Mertes, L. A. K., and J. A. Warrick (2001), Measuring flood output from 110 coastal watersheds in California with field measurements and SeaWiFS, Geology, 29, 659662.
  • Milliman, J. M., and J. P. M. Syvitski (1992), Geomorphic/tectonic control of sediment discharge to the ocean: The importance of small mountainous rivers, J. Geol., 100, 525544.
  • Millot, R., J. Gaillardet, B. Dupré, and C. J. Allègre (2002), The global control of silicate weathering rates and the coupling with physical erosion: New insights from rivers of the Canadian Shield, Earth Planet. Sci. Lett., 196, 8398.
  • Montgomery, D. R., G. Balco, and S. D. Willett (2001), Climate, tectonics and the morphology of the Andes, Geology, 29, 369664.
  • Mortatti, J., and J.-L. Probst (2003), Silicate rock weathering and atmospheric/soil CO2 uptake in the Amazon basin estimated from river water geochemistry: Seasonal and spatial variations, Chem. Geol., 197, 177196.
  • Orpin, A. R., L. Carter, S. A. Kuehl, N. A. Trustrum, K. B. Lewis, C. R. Alexander, and B. Gomez (2002), Deposition from very high sediment yield New Zealand rivers is captured in upper margin basins, MARGINS Newsl., 9(Fall), 14.
  • Phillips, R. D., and S. Rojstaczer (2001), Chemical weathering in a region of active orogeny: Pescadero Creek Watershed, California, Global Biogeochem. Cycles, 15, 383392.
  • Pillans, B. (1986), A late Quaternary uplift map for North Island, New Zealand, R. Soc. N. Z. Bull., 24, 409417.
  • Restrepo, J. D., and B. Kjerfve (2000), Water discharge and sediment load from the western slopes of the Colombian Andes with focus on Rio San Juan, J. Geol., 108, 1733.
  • Riebe, C. S., J. W. Kirchner, D. E. Granger, and R. C. Finkel (2001), Strong tectonic and weak climatic control of long-term chemical weathering rates, Geology, 29, 511512.
  • Sharp, M., M. Tranter, G. H. Brown, and M. Skidmore (1995), Rates of chemical denudation and CO2 drawdown in a glacier-covered alpine catchment, Geology, 23, 6164.
  • Stallard, R. F. (1985), River chemistry, geology, geomorphology, and soils in the Amazon and Orinoco basins, in The Chemistry of Weathering, edited by J. J. Drever, pp. 293316, Springer, New York.
  • Stallard, R. F., and J. M. Edmond (1981), Geochemistry of the Amazon: 1. Precipitation chemistry and marine contribution to the dissolved load at the time of peak discharge, J. Geophys. Res., 86, 98449858.
  • Stauffer, R. E., and B. D. Whittchen (1991), Effects of silicate weathering on water chemistry in forested, upland terrane in the USA, Geochim. Cosmochim. Acta, 55, 32533271.
  • Stewart, B. W., R. C. Capo, and D. A. Chadwick (2001), Effects of rainfall on weathering rate, base cation provenance, and Sr isotope composition of Hawaiian soils, Geochim. Cosmochim. Acta, 65, 10871099.
  • Tonkin, R. J., and L. R. Basher (1990), Soil-stratigraphic techniques in the study of soil and landform evolution across the Southern Alps, New Zealand, Geomorphology, 3, 547575.
  • Vance, D., M. Bickle, S. Ivy-Ochs, and P. W. Kubik (2003), Erosion and exhumation in the Himalaya from cosmogenic isotope inventories of river sediments, Earth Planet. Sci. Lett., 206, doi:10.1016/S00012-82X(02)01102-0.
  • Weingartner, R., and C. Pearson (2001), A comparison of the hydrology of the Swiss Alps and the Southern Alps of New Zealand, Mt. Res. Dev., 21, 370380.
  • Welch, K. A., W. B. Lyons, E. Graham, K. Neumann, J. M. Thomas, and D. Mikesell (1996), Determination of major element chemistry in terrestrial waters from Antarctica by ion chromatography, J. Chromatogr. A, 739, 257263.
  • West, A. J., and M. J. Bickle (2002), Preferential weathering of calcic plagioclase, Eos Trans. AGU, 83(47), Fall Meet. Suppl., Abstract H22B-0891.
  • West, A. J., M. J. Bickle, R. Collins, and J. Brasington (2002), Small-catchment perspective in Himalayan weathering fluxes, Geology, 30, 355358.
  • White, A. F., and A. E. Blum (1995), Climate effects on chemical weathering in watersheds: Application of mass balance approaches, in Solute Modelling in Catchment Systems, edited by S. T. Trudgill, pp. 101131, John Wiley, Hoboken, N. J.
  • White, A. F., T. D. Bullen, D. V. Vivet, M. S. Schulz, and D. W. Clow (1999), The role of disseminated calcite in the chemical weathering of granitoid rocks, Geochim. Cosmochim. Acta, 63, 19391953.
  • Whitehouse, I. E. (1988), Geomorphology of the central Southern Alps, New Zealand: The interaction of plate collision and atmospheric circulation, Z. Geomorphol., 69, 105116.
  • Willett, S. D. (1999), Orogeny and orography: The effects of erosion on the structure of mountain belts, J. Geophys. Res., 104, 28,95728,981.
  • Willett, S. D., and M. T. Brandon (2002), On steady states in mountain belts, Geology, 30, 175178.