Recueil des débits caractéristiques de la Nouvelle Calédonie. Direction des Affaires 744, 2009. ,
, Service de l'eau des statistiques et études 745 rurales, Vétérinaires Alimentaires et Rurales (DAVAR)
Soil and human 747 security in the 21st century, Science, vol.348, issue.6235, p.1261071, 2015. ,
, , p.749
Long-term changes in alpine pedogenetic processes: Effect of 750 millennial agro-pastoralism activities, Geoderma, vol.306, pp.217-236, 2017. ,
Tin mining and sediment supply in Peninsular Malaysia with special reference 752 to the Kelang River basin, Environmentalist, vol.11, issue.4, pp.281-291, 1991. ,
Erosion, transport et sédimentation liés aux cyclones tropicaux dans 754 les massifs d'ultrabasites de Nouvelle-Calédonie, Cahiers ORSTOM Série Géologie, vol.3, issue.2, pp.221-755, 1971. ,
Dégradation de la végétation et érosion dans la commune de Thio, 1988. ,
,
The impacts of opencast mining on the rivers and coasts of 759 New Caledonia, 1984. ,
, , p.761
Deriving hillslope sediment budgets in wildfire-affected forests using fallout 762 radionuclide tracers, Geomorphology, vol.104, issue.3-4, pp.105-116, 2009. ,
, , p.764
An assessment of the global impact of 21st century 765 land use change on soil erosion, Nature communications, vol.8, issue.1, 2013. ,
Sediment and trace element depositional 767 history from the Ajkwa River estuarine mangroves of Irian Jaya (West Papua), vol.24, pp.2535-2551, 2004. ,
Some methods for testing the homogeneity of rainfall records, Journal, vol.770, issue.1-2, pp.11-27, 1982. ,
Measured and predicted sediment yield from a subtropical, 772 heavy rainfall, steep-sided river basin, vol.773, pp.213-226, 1999. ,
Long-term dispersal of heavy metals in a 775 catchment affected by historic lead and zinc mining, Journal of Soils and Sediments, vol.12, issue.9, pp.1445-1462, 2012. ,
Use of the geochemical record preserved in floodplain 778 deposits to reconstruct recent changes in river basin sediment sources, Geomorphology, 779, vol.19, issue.1-2, pp.151-167, 1997. ,
Documenting catchment suspended sediment sources: problems, 781 approaches and prospects, Progress in Physical Geography, vol.28, issue.2, pp.159-196, 2004. ,
Composite fingerprinting of the spatial source of fluvial 783 suspended sediment : a case study of the Exe and Severn river basins, 1996. ,
, Géomorphologie, vol.2, issue.2, pp.41-53
Modeling long-term contamination in river systems from 786 historical metal mining, Geology, issue.5, pp.451-454, 2003. ,
Methods of comparing annual rainfall records for climatic purposes. Weather, vol.788, pp.332-346, 1979. ,
Classification et quantification des phénomènes d'érosion, de 790 transport et de sédimentation sur les bassins touchés par l'exploitation minière en Nouvelle 791 Calédonie, 1991. ,
Classification et quantification des phénomènes d'érosion, de transport 793 et de sédimentation sur les bassins touchés par l'exploitation minière en, 1991. ,
, IRD, Rapports scientifiques et techniques
Human-environment interactions: 796 learning from the past, 2006. ,
, , p.798
Spectrocolorimetric interpretation of sedimentary dynamics: 799 the new "Q7/4 diagram, Earth-Science Reviews, vol.109, issue.1-2, pp.1-19, 2011. ,
Initiation à l'analyse hydrologique, p.216, 1974. ,
Méthodologie de cartographie de la sensibilité des sols à l'érosion appliquée à la 802 région de Dumbéa à Païta-Bouloupari, Les Cahiers d'Outre-Mer, vol.63, issue.252, pp.567-584, 2010. ,
A global review of sediment 805 source fingerprinting research incorporating fallout radiocesium (137Cs). Geomorphology, vol.806, p.107103, 2020. ,
, , p.808, 2019.
, Environmental DNA provides information on sediment sources: A study in catchments 809 affected by Fukushima radioactive fallout, Sci Total Environ, vol.665, pp.873-881
Combining 811 multiple fallout radionuclides (137Cs, 7Be, 210Pbxs) to investigate temporal sediment source 812 dynamics in tropical, ephemeral riverine systems, J Soils Sediments, vol.16, issue.3, pp.1130-1144, 2015. ,
, , p.814
DNA from lake sediments reveals long-term ecosystem changes 815 after a biological invasion, Sci Adv, vol.4, issue.5, p.4292, 2018. ,
, , p.817
Increase in soil erosion after 818 agricultural intensification: Evidence from a lowland basin in France, Anthropocene, vol.7, pp.30-41, 2014. ,
Ongoing and 820 emerging questions in water erosion studies, vol.28, pp.5-21, 2017. ,
Quantification et évolution temporelle des apports 822 miniers dans les rivières calédoniennes. BRGM/RP-66840-FR, 2017. ,
, , p.826
Gestion du passif de l'activité minière en Nouvelle-827, 2018. ,
Guide méthodologique 2018, CNRT" Nickel et son environnement ,
Rivières engravées à Thio, vécus et attentes de la population, 2016. ,
Use of fallout Pb-210 measurements to investigate longer-term rates and 830 patterns of overbank sediment deposition on the floodplains of lowland rivers, Earth Surface 831 Processes and Landforms, vol.21, pp.141-154, 1996. ,
, , p.833
Human impact on fluvial regimes and sediment flux during 834 the Holocene: Review and future research agenda, Global and Planetary Change, vol.72, issue.3, pp.87-835, 2010. ,
La mine, élement de la controverse écologique dans le Pacifique Sud. L'Espace 837 géographique, pp.193-205, 1992. ,
Legacy sediment: definitions and processes of episodically produced 839 anthropogenic sediment, Anthropocene, vol.2, pp.16-26, 2013. ,
Suspended Solids Carried by the Gallatin River of Southwestern Montana: 841 II. Using Mineralogy for Inferring Sources 1, Journal of Environmental Quality, vol.4, issue.1, pp.68-73, 1975. ,
Floodplain sedimentation in the Upper Mississippi Valley: Natural versus human 843 accelerated, Geomorphology, vol.79, issue.3-4, pp.286-310, 2006. ,
The 845 challenges and opportunities of addressing particle size effects in sediment source 846 fingerprinting: A review, Earth-Sci. Rev, vol.169, pp.85-103, 2017. ,
A comparison of geological and statistical 848 approaches to element selection for sediment fingerprinting, J Soils Sediments, vol.15, issue.10, pp.2117-849, 2015. ,
An examination of geochemical modelling approaches to tracing 851 sediment sources incorporating distribution mixing and elemental correlations, Hydrol. 852 Process, vol.29, issue.6, pp.1669-1685, 2015. ,
Soil erosion in the humid tropics with particular reference to agricultural land 854 development and soil management, Int. Assoc. Hydrol. Sci. Publ, vol.140, pp.221-239, 1983. ,
Use of mining-contaminated sediment tracers to investigate the 856 timing and rates of historical flood plain sedimentation, Geomorphology, vol.38, issue.1-2, pp.85-108, 2001. ,
858 Quantifying suspended sediment sources during runoff events in headwater catchments 859 using spectrocolorimetry, J Soils Sediments, vol.13, issue.8, pp.1478-1492, 2013. ,
861 Transactions of the Institute of British Geographers, pp.235-244, 1985. ,
Guide méthodologique: suivi hydrologique et sédimentaire 863 des petits bassins versants miniers de, 2015. ,
Turning the tides of soil degradation in 865 Africa: capturing the reality and exploring opportunities, Land Use Policy, vol.22, issue.1, pp.23-31, 2005. ,
Abandoned 867 mine sites as a source of contamination by heavy metals: a case study in a semi-arid zone, Journal of Geochemical exploration, vol.868, issue.2-3, pp.183-193, 2008. ,
Tracing the 870 metal pollution history of the Tisza River through the analysis of a sediment depth profile, 2009. ,
, Water, air, and soil pollution, vol.200, pp.119-132
Evidence of debris flow occurrence after 873 wildfire in upland catchments of south-east Australia, Geomorphology, vol.125, issue.3, pp.383-401, 2011. ,
Sediment deposition patterns 875 in a tropical floodplain, vol.143, pp.57-69, 2016. ,
Use of floodplain sediment cores to investigate recent 877 historical changes in overbank sedimentation rates and sediment sources in the catchment 878 of the River, vol.36, pp.21-47, 1999. ,
Infrared 880 spectroscopy tracing of sediment sources in a small rural watershed (French Alps). Science of 881 the Total Environment, vol.407, pp.2808-2819, 2009. ,
Sources of variability in fatty acid (FA) 883 biomarkers in the application of compound-specific stable isotopes (CSSIs) to soil and 884 sediment fingerprinting and tracing: A review, Science of the Total Environment, vol.565, pp.8-27, 2016. ,
Recent deforestation causes rapid increase in river 886 sediment load in the Colombian Andes, Anthropocene, vol.10, pp.13-28, 2015. ,
Assessing the effect of natural controls and land use change on 888 sediment yield in a major Andean river: the Magdalena drainage basin, Colombia, Ambio: a 889 Journal of the Human Environment, vol.35, issue.2, pp.65-75, 2006. ,
Colour space models for soil science, 2006. ,
, Geoderma, vol.133, issue.3-4, pp.320-337
Global sediment yields from urban and urbanizing 893 watersheds, Earth-Science Reviews, vol.168, pp.73-80, 2017. ,
Catastrophic shifts in ecosystems, Nature, vol.895, issue.6856, pp.591-596, 2001. ,
URL : https://hal.archives-ouvertes.fr/hal-02195560
Agricultural land use 897 doubled sediment loads in western China's rivers, Anthropocene, vol.21, pp.95-106, 2018. ,
The 899 Thio River'S delta: A biogeomorphological recorder of the mining activities in New-Caledonia 900 since 1870, 2018. ,
Properties of iron oxides in some New Caledonian oxisols, 1986. ,
, Geoderma, vol.39, pp.105-123
Investigating the use 904 of fallout and geogenic radionuclides as potential tracing properties to quantify the sources 905 of suspended sediment in a mining catchment, Journal of 906 Soils and Sediments, vol.20, issue.2, pp.1112-1128, 2020. ,
Cartographie du régolithe sur formation ultrabasique de Nouvelle-Calédonie: 908 Localisation dans l'espace et le temps des gisements nickélifères, 2014. ,
Land-use change from indigenous management to cattle 910 grazing initiates the gullying of alluvial soils in northern Australia, 19th World Congress of Soil 911 Science: Soil Solutions for a Changing World, pp.1-6, 2010. ,
Changes to sediment sources 913 following wildfire in a forested upland catchment, southeastern Australia, Hydrol. Process, vol.914, issue.18, pp.2878-2889, 2011. ,
Using 916 event stratigraphy to map the Anthropocene-An example from the historic coal mining 917 region in eastern Pennsylvania, USA. Anthropocene, vol.2, pp.42-50, 2013. ,
Impact of humans on the flux of 919 terrestrial sediment to the global coastal ocean, science, vol.308, issue.5720, pp.376-380, 2005. ,
Features of tropical cyclone-induced flood peaks on 921, 2008. ,
, New Caledonia, Water Environ J, vol.22, issue.3, pp.177-183
Weathering and geochemical behaviour of the elements of ultramafic rocks in 923 New Caledonia, BMRJ. Aust. Geol and Geophys, vol.141, pp.149-161, 1973. ,
, , p.925
Global peak in atmospheric radiocarbon provides a 926 potential definition for the onset of the anthropocene epoch in 1965, Scientific reports, vol.8, issue.1, p.3293, 2018. ,
The use of sediment cores to reconstruct historical trends in contamination 929 of estuarine and coastal sediments, Estuaries, vol.16, issue.3, pp.577-588, 1993. ,
Use of mineral magnetic measurements to fingerprint 931 suspended sediment sources: approaches and techniques for data analysis, Journal of 932 Hydrology, vol.202, issue.1-4, pp.353-372, 1997. ,
Determining sources and transit times of 934 suspended sediment in the Murrumbidgee River, Australia, using fallout 935 137Cs and 210Pb, vol.34, pp.879-887, 1998. ,
Sediment flux sensitivity to climate change: A case study in the 937 Longchuanjiang catchment of the upper Yangtze River, China. Global and Planetary Change, vol.938, pp.429-442, 2008. ,