D. J. Huntley, D. I. Godfrey-smith, and M. L. Thewalt, Optical dating of sediments, Nature, vol.313, pp.105-107, 1985.
DOI : 10.1038/313105a0

D. Lal, E. Barg, and M. Pavich, Development of cosmogenic nuclear methods for the study of soil erosion and formation rates, Current Science, vol.61, pp.631-639, 1991.

C. S. Riebe, J. W. Kirchner, D. E. Granger, and R. C. Finkel, Erosional equilibrium and disequilibrium in the Sierra Nevada, inferred from cosmogenic 26 Al and 10 Be in alluvial sediment, Geology, vol.28, pp.803-806, 2000.

P. P. Cunha, A. A. Martins, S. Huot, A. Murray, and L. Raposo, Dating the Tejo river lower terraces in the Ród?o area (Portugal) to assess the role of tectonics and uplift, Geomorphology, vol.102, pp.43-54, 2008.

V. Godard, Dominance of tectonics over climate in Himalayan denudation, Geology, vol.42, pp.243-246, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01549051

R. G. Roberts and O. B. Lian, Illuminating the past, Nature, vol.420, pp.438-439, 2015.

J. Wallinga, Optically stimulated luminescence dating of fluvial deposits: a review, Boreas, vol.31, pp.303-322, 2002.
DOI : 10.1080/030094802320942536

D. J. Godfrey-smith, D. J. Huntley, and W. H. Chen, Optical dating studies of quartz and feldspar sediment extracts, Quat. Sci. Rev, vol.7, pp.373-380, 1988.
DOI : 10.1016/0277-3791(88)90032-7

A. S. Murray, J. M. Olley, and G. G. Caitcheon, Measurement of equivalent doses in quartz from contemporary water-lain sediment using optically simulated luminescence, Quat. Sci. Rev, vol.14, pp.365-371, 1995.

J. M. Olley, G. Caitcheon, and A. S. Murray, The distribution of apparent dose as determined by optically simulated luminescence in small aliquots of fluvial quartz: implications for dating young sediments, Quat. Geochr, vol.17, pp.1033-1040, 1998.

N. Porat, E. Zilberman, R. Amit, and Y. Enzel, Residual ages of modern sediments in an hyperarid region, Israel. Quat. Sci. Rev, vol.20, pp.795-798, 2001.

S. Stokes, H. E. Bray, and M. D. Blum, Optical resetting in large drainage basins: tests of zeroing assumptions using single-aliquot procedures, Quat. Sci. Rev, vol.20, pp.879-885, 2001.

M. Jain, A. S. Murray, and L. Bøtter-jensen, Optically stimulated luminescence dating: How significant is incomplete light exposure in fluvial environments?, Quaternaire, vol.15, pp.143-157, 2004.

C. Mcguire and E. J. Rhodes, Determining fluvial sediment virtual velocity on the Mojave River using K-feldspar IRSL: Initial assessment, Quat. Int, vol.362, pp.124-131, 2015.

C. Mcguire and E. J. Rhodes, Downstream MET-IRSL single-grain distributions in the Mojave River, southern California: Testing assumptions of a virtual velocity model, Quat Geochr, vol.20, pp.239-244, 2015.

G. W. Berger, Effectiveness of natural zeroing of the thermoluminescence in sediments, J.Geophys. Res, vol.95, pp.12375-12397, 1990.

R. J. Davies-colley and J. W. Nagels, Predicting light penetration into river waters, J. Geophys. Res, vol.113, 2008.
DOI : 10.1029/2008jg000722
URL : https://agupubs.onlinelibrary.wiley.com/doi/pdf/10.1029/2008JG000722

C. Ditlefsen, Bleaching of K-feldspars in turbid water suspensions: A comparison of photo-and thermoluminescence signals, Quat. Sci. Rev, vol.11, pp.33-38, 1992.

J. Croke, J. D. Jansen, K. Amos, and T. J. Pietsch, A 100 ka record of fluvial activity in the Fitzroy River Basin, tropical northeastern Australia, Quat. Sci. Rev, vol.30, pp.1681-1695, 2011.

J. Zhang, Optical dating of hyperconcentrated flow deposit on a Yellow River terrace in Hukou, Shaanwi, China. Quat. Geochr, vol.5, pp.194-199, 2010.

H. J. Gray and S. A. Mahan, Variables and potential models for the bleaching of luminescence signal in fluvial environments, Quat. Int, vol.362, pp.42-49, 2015.

H. J. Gray, G. E. Tucker, S. A. Mahan, C. Mcguire, and E. J. Rhodes, On extracting sediment transport information from measurements of luminescence in river sediment, J. Geophys. Res. Earth Surf, vol.122, pp.654-677, 2017.

J. Buylaert, A robust feldspar luminescence dating method for Middle and Late Pleistocene sediments, Boreas, vol.41, pp.435-451, 2012.
DOI : 10.1111/j.1502-3885.2012.00248.x
URL : http://orbit.dtu.dk/en/publications/a-robust-feldspar-luminescence-dating-method-for-middle-and-late-pleistocene-sediments(d7b3390d-6bff-4414-a4f2-93279d060482).html

R. H. Kars, T. Reimann, C. Ankjaergaard, and J. Wallinga, Bleaching of the post-IR IRSL signal: new insights for feldspar luminescence dating, Boreas, vol.43, pp.780-791, 2014.

D. Colarossi, G. A. Duller, H. M. Roberts, S. Tooth, and R. Lyons, Comparison of paired quartz OSL and feldspar post-IR IRSL dose distributions in poorly bleached fluvial sediments from South Africa, Quat. Geochr, vol.30, pp.233-238, 2015.

K. J. Thomsen, A. S. Murray, M. Jain, and L. Bøtter-jensen, Laboratory fading rates of various luminescence signals from feldspar-rich sediment extracts, Radiat. Measurements, vol.43, pp.1474-1486, 2008.
DOI : 10.1016/j.radmeas.2008.06.002

G. A. Duller, Single-grain dating of Quaternary-sediments: why aliquot size matters in luminescence dating, Boreas, vol.37, pp.589-612, 2008.

T. Reimann, K. J. Thomsen, M. Jain, A. S. Murray, and M. Frechen, Single-grain dating of young feldspars using the pIRIR procedure, Quat. Geochr, vol.11, pp.28-41, 2012.

N. Litchfield and K. Berryman, Relations between postglacial fluvial incision rates and uplift rates in the North Island, J. Geophys. Res, vol.111, 2006.

J. Proust, G. Lamarche, S. Nodder, and P. J. Kamp, Sedimentary architecture of a Plio-Pleistocene pro-to back-arc basin, Sedim. Geol, vol.181, pp.107-145, 2005.

J. D. Milne, Maps and sections of river terraces in the Rangitikei Basin, Dep. of Sci. and Ind. Res, 1973.

B. Pillans, The last Glacial maximum in central and southern North Island, New Zealand: a paleoenvironmental reconstruction using the Kawakawa Tephra Formation as a chronostratigraphic marker, Palaeogeogr. Palaeoclim. Palaeoecol, vol.101, pp.283-304, 1993.

N. Litchfield and U. Rieser, OSL age constraints for fluvial aggradation terraces and loess in the eastern North Island, New Zealand. N. Z. J. Geol. Geophys, vol.48, pp.581-589, 2005.

G. S. Hancock and R. S. Anderson, Numerical modeling of fluvial strath-terraces formation in response to oscillating climate, Geol. Soc. Am. Bull, vol.114, pp.1131-1142, 2002.

A. B. Limaye and M. P. Lamb, Numerical model predictions of autogenic fluvial terraces and comparison to climate change expectations, J. Geophys. Res. Earth Surf, vol.121, 2016.

W. Van-gorp, Fluvial response to Holocene volcanic damming and breaching in the Gediz and Geren rivers, western Turkey, Geomorph, vol.201, pp.430-448, 2013.

A. G. Wintle and A. S. Murray, A review of quartz optically stimulated luminescence characteristics and their relevance in singlealiquot regeneration dating protocols, Radiation Measurements, vol.41, pp.369-391, 2006.

R. F. Galbraith, R. G. Roberts, G. M. Laslett, H. Yoshida, and J. M. Olley, Optical dating of single and multiple grains of quartz from Jinmium Rock Shelter, Northern Australia: Part I, experimental design and statistical models, Archaeometry, vol.41, pp.339-364, 1999.

A. C. Cunningham and J. Wallinga, Realizing the potential of fluvial archives using robust OSL chronologies, Quat. Geochr, vol.12, pp.98-106, 2012.

E. L. Chamberlain, J. Wallinga, and Z. Shen, Luminescence age modeling of variably-bleached sediment: Model selection and input, Radiation Measurements, 2018.

A. G. Wintle, Luminescence dating: laboratory procedures and protocols, Radiation Measurements, vol.27, pp.769-817, 1997.
DOI : 10.1016/s1350-4487(97)00220-5
URL : http://doc.rero.ch/record/210322/files/PAL_E4369.pdf

K. Berryman, The post-glacial downcutting history in the Waihuka tributary of Waipaoa River, Gisborne District: Implications for tectonics and landscape evolution in the Hikurangi subduction margin, New Zealand. Marine Geol, vol.270, pp.55-71, 2010.

W. B. Bull, Stream-terrace genesis: implications for soil development, Geomorph, vol.3, pp.351-367, 1990.
DOI : 10.1016/0169-555x(90)90011-e

D. Lague, Reduction of long-term bedrock incision efficiency by short-term alluvial cover intermittency, J. Geophys. Res, vol.115, 2010.
DOI : 10.1029/2008jf001210
URL : https://hal.archives-ouvertes.fr/insu-00609622

N. J. Finnegan and G. Balco, Sediment supply, base level, braiding, and bedrock river terrace formation, Geol. Soc. Am. Bull, 2013.
DOI : 10.1130/b30727.1

D. Lague, N. Brodu, and J. Leroux, Accurate 3D comparison of complex topography with terrestrial laser scanner: Application to the Rangitikei canyon (N-Z), ISPRS J. Photogramm. Remote Sens, vol.82, pp.10-26, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00854167

A. C. Cunningham, Re-evaluating luminescence burial doses and bleaching of fluvial deposits using Bayesian computational statistics, Earth Surf. Dynam, vol.3, pp.55-65, 2015.

L. Bøtter-jensen, C. E. Andersen, G. A. Duller, and A. S. Murray, Developments in radiation, stimulation and observation facilities in luminescence measurements, Radiation Measurements, vol.37, pp.535-541, 2003.

M. R. Krbetschek, U. Rieser, and W. Stolz, Optical dating: some luminescence properties of natural feldspars, Radiation Protection Dosimetry, vol.66, pp.407-412, 1996.
DOI : 10.1093/oxfordjournals.rpd.a031765

T. Reimann, S. Tsukamoto, M. Naumann, and M. Frechen, The potential of using K-rich feldspars for optical dating of young coastal sediments -a test case from Darss-Zingst Peninsula (southern Baltic Sea coast), Quat. Geochr, vol.6, pp.207-222, 2011.

T. Reimann and S. Tsukamoto, Dating the recent past (<500 years) by post-IR IRSL feldspar -Examples from the North Sea and Baltic Sea coast, Quat. Geochr, vol.10, pp.180-187, 2012.
DOI : 10.1016/j.quageo.2012.04.011

J. Wallinga, A. S. Murray, G. A. Duller, and T. E. T?rnqvist, Testing optically stimulated luminescence dating of sand-sized quartz and feldspar from fluvial deposits, Earth Planet. Sci. Lett, vol.193, pp.617-630, 2001.
DOI : 10.1016/s0012-821x(01)00526-x

R. H. Kars, T. Reimann, and J. Wallinga, Are feldspar SAR protocols appropriate for post-IR IRSL dating?, Quat. Geochr, vol.22, pp.126-136, 2014.
DOI : 10.1016/j.quageo.2014.04.001

G. A. Duller, Assessing the error on equivalent dose estimates derived from single aliquot regenerative dose measurements, Ancient TL, vol.25, pp.15-24, 2007.

R. K. Smedley, G. A. Duller, N. J. Pearce, and H. M. Roberts, Determining the K content of single-grains of feldspar for luminescence dating, Radiation Measurements, vol.47, pp.790-796, 2012.

D. J. Huntley and M. Lamothe, Ubiquity of anomalous fading in K-feldspars and the measurement and correction for it in optical dating, Can. J. Earth Sci, vol.38, pp.1093-1106, 2001.

D. J. Huntley and M. R. Baril, The K content of the K-feldspars being measured in optical dating or in thermoluminescence dating, Ancient TL, vol.15, pp.11-13, 1997.

D. J. Huntley and R. G. Hancock, The Rb contents of the K-feldspars being measured in optical dating, Ancient TL, vol.19, pp.43-46, 2001.