Publications

2019

Loiseau, T., Chen, S., Mulder, V.L., Román Dobarco, M., Richer-de-Forges A.C., Lehmann, S., Bourenanne, H., Saby N.P.A., Martin, M.P., Vaudour, E., Gomez, C., Lagacherie, P., Arrouays D. (2019). Satellite data integration for soil clay content modelling at a national scale. International Journal of Applied Earth Observation and Geoinformation. Vol. 82. https://doi.org/10.1016/j.jag.2019.101905

Vaudour E., Gomez C., Loiseau T., Baghdadi N., Loubet B., Arrouays D., Ali L., Lagacherie P. (2019). The Impact of Acquisition Date on the Prediction Performance of Topsoil Organic Carbon from Sentinel-2 for Croplands. Remote Sensing, Special Issue "High Spectral Resolution Remote Sensing of Soil Organic Carbon Dynamics". 11 (18), 2143. https://doi.org/10.3390/rs11182143

Dharumarajan S., Kalaiselvi B., Suputhra A., Lalitha M., Hegde R., Singh S.K., Lagacherie P. (2019). Digital soil mapping of key GlobalSoilMap properties in Northern Karnataka Plateau. Geoderma Regional. 20. https://doi.org/10.1016/j.geodrs.2019.e00250

2020

Arrouays D., Libohova Z., Minasny B., Mulder V.L., Poggio L., Roudier P. (2020). The consortium GLobAl Digital SOIL MAP (GLADSOILMAP). International Union of Soil Sciences Bulletin. 135, 88-90. https://www.iuss.org/media/iuss-bulletin135_def.pdf

Chen S., Mulder V.L., Heuvelink G.B.M., Poggio L., Caubet M., Román Dobarco M., Walter C., Arrouays D. (2020). Model averaging for mapping topsoil organic carbon in France. Geoderma, 366, 114237. https://doi.org/10.1016/j.geoderma.2020.114237

Arrouays D., McBratney A.B., Bouma J., Libohova Z., Richer-de-Forges A.C., Morgan C., Roudier P., Poggio L., Mulder V.L. (2020). Impressions of digital soil maps: the good, the not so good, and making them ever better. Geoderma Regional. 20, e00255. https://doi.org/10.1016/j.geodrs.2020.e00255

Arrouays D., Poggio L., Salazar Guerrero O., Mulder V.L. (2020). Digital Soil Mapping and GlobalSoilMap. Main advances and ways forward. Geoderma Regional, 21, e000265. https://doi.org/10.1016/j.geodrs.2020.e00265

Mousavi A., Shahbazi F., Oustan S., Jafarzadeh A.A., Minasny B. (2020). Spatial distribution of iron forms and features in the dried lake bed of Urmia Lake of Iran. Geoderma Regional, 21, e00275. https://doi.org/10.1016/j.geodrs.2020.e00275 

Arrouays D. (2020). The GLADSOILMAP consortium launched it’s kick-off meeting in Orléans (France) from 25 to 29 November 2019. Pedometron. 45, 30-32.

Minasny B., McBratney A.B. (2020). Visualising particle-size distribution. Pedometron. 45, 19-22.

Staunton S, Saby N.P.A, Arrouays D, Quiquampoix, H. 2020. Can soil properties and land use explain glomalin related soil protein (GRSP) accumulation? A nationwide survey in France. CATENA, 193, 104620. https://doi.org/10.1016/j.catena.2020.104620.

Loiseau T., Richer-de-Forges A.C., Martelet G., Bialkowski A., Nehlig P., Arrouays D. (2020). Could airborne gamma-spectrometric data replace lithological maps as co-variates for digital soil mapping of topsoil particle-size distribution? A case study in Western France. Geoderma Regional, Vol. 22, e00295. https://doi.org/10.1016/j.geodrs.2020.e00295

Karimi B., Villerd J., Dequiedt S., Terrat, Chemidlin-Prevost Bouré N., Djemiel C., Lelievre M., Tripied J., Nowak V., Saby N.P.A., Bispo A., Jolivet C., Arrouays D., Wincker P., Cruaud C. Ranjard L. (2020). Biogeography of soil microbial habitats across France. Global Ecology and Biogeography. https://doi.org/10.1111/geb.13118

Prananto J.A., Minasny B., Comeau L.-P., Rudiyanto R., Grace P. (2020). Drainage increases CO₂ and N₂O emissions from tropical peat soils. Glob Change Biol. 00:1–18. https://doi.org/10.1111/gcb.15147

Gomez C., Chevallier T., Moulin P., Bouferra I., Hmaidi K., Arrouays D., Jolivet C., Barthès B.G. (2020). Prediction of soil organic and inorganic carbon concentrations in Tunisian samples by mid-infrared reflectance spectroscopy (MIRS) using a French national library. Geoderma, 375, 114469. https://doi.org/10.1016/j.geoderma.2020.114469.

Lagacherie P., Arrouays D., Bourennane H., Gomez C., Nkuba-Kasanda L. (2020). Analysing the impact of soil spatial sampling on the performances of Digital Soil Mapping models and their evaluation: a numerical experiment using clay contents obtained from Vis-NIR-SWIR hyperspectral imagery. Geoderma, 375, 114503. https://doi.org/10.1016/j.geoderma.2020.114503

Owens P.R., Dorantes M.J., Fuentes B.A., Libohova Z., Schmidt A. (2020). Taking digital soil mapping to the field: Lessons learned from the Water Smart Agriculture soil mapping project in Central America. Geoderma Regional, Volume 22, e00285. https://doi.org/10.1016/j.geodrs.2020.e00285

Loiseau T., Richer-de-Forges A.C., Roudier P., Ducommun C., Chen S., Lagacherie P., Arrouays D. (2020). Essais de représentation cartographique de l’incertitude pour les utilisateurs de cartographies des sols par modélisation statistique. Etude et Gestion des Sols, Vol. 27, p. 257-275. http://www.afes.fr/publications/revue-etude-et-gestion-des-sols/volume-27-numero-1/

Poggio L., Gimona A., Aalders I., Morrice J., Hough R. (2020). Legacy data for 3D modelling of peat properties with uncertainty estimation in Dava bog – Scotland. Geoderma Regional, 22, e00288. https://doi.org/10.1016/j.geodrs.2020.e00288

Minasny B., McBratney A.B., Wadoux A.M.J.-C., Akoeb E.N., Sabrina T. (2020). Precocious 19th century soil carbon science. Geoderma Regional, e00306, https://doi.org/10.1016/j.geodrs.2020.e00306

Arrouays D., Chen S., Hiederer R. (2020).Current Estimates of Soil Organic Carbon Stocks Are Not Four to Six Times Underestimated. Comment on “Non-Flat Earth Recalibrated for Terrain and Topsoil. Soil Syst. 2018, 2, 64". Soil System, 4(3), 45. https://doi.org/10.3390/soilsystems4030045

Minai J., Libohova Z., Schulze D.G.(2020). Disaggregation of the 1:100,000 Reconnaissance soil map of the Busia Area, Kenya using a soil landscape rule-based approach. Catena 195. 104806. https://doi.org/10.1016/j.catena.2020.104806

Sanjeewani Nimalka Somarathna Pallegedara Dewage,Budiman Minasny, Brendan Malone (2020). Disaggregating a regional-extent digital soil map using Bayesian area-to-point regression kriging for farm-scale soil carbon assessment. SOIL. Vol. 6, 359–369. https://doi.org/10.5194/soil-6-359-2020

Longo M., Piccoli I., Minasny B., Morari F. (2020). Soil apparent electrical conductivity‐directed sampling design for advancing soil characterization in agricultural fields. Vadose Zone Journal. Vol. 19, issue 1. https://doi.org/10.1002/vzj2.20060

Ellili-Bargaoui Y., Malone B.P., Michot D., Minasny B., Vincent S., Walter C., Lemercier B. (2020). Comparing three approaches of spatial disaggregation of legacy soil maps based on the Disaggregation and Harmonisation of Soil Map Units Through Resampled Classification Trees (DSMART) algorithm. SOIL. Vol. 6, 371–388. https://doi.org/10.5194/soil-6-371-2020

Roudier P., Burge O.R., Richardson S.J., McCarthy J.K., Grealish G.J., Ausseil A.-G. (2020). National Scale 3D Mapping of Soil pH Using a Data Augmentation Approach. Remote Sens.,12(18), 2872; https://doi.org/10.3390/rs12182872

Wadoux A.M.J.-C., Minasny B., McBratney A.B. (2020). Machine learning for digital soil mapping: Applications, challenges and suggested solutions. Earth-Science Reviews. 103359. https://doi.org/10.1016/j.earscirev.2020.103359

Minasny B., NyakAkoeb E., Sabrina T., Wadoux A.M.J.-C., McBratney A.B. (2020). History and interpretation of early soil and organic matter investigations in Deli, Sumatra, Indonesia. Catena. Vol. 195. 104909. https://doi.org/10.1016/j.catena.2020.104909 

Voltz M., Arrouays D., Bispo A., Lagacherie P., Laroche B., Lemercier B., Richer-de-Forges A.C., Sauter J., Schnebelen N. (2020). Possible futures of soil-mapping in France. Geoderma regional. Vol. 23, December 2020, e00334. https://doi.org/10.1016/j.geodrs.2020.e00334

Arrouays D., Richer-de-Forges A.C., Héliès F., Mulder V.L., Saby N.P.A., Chen S., Martin M.P., Roman Dobarco M., Follain S., Jolivet C., Laroche B., Loiseau T., Cousin I., Lacoste M., Ranjard L., Toutain B., Le Bas C., Eglin T., Bardy M., Antoni V., Meersmans J., Ratié C., Bispo A. (2020). Impacts of Digital Soil Mapping programs in France at national scale. A review. Geoderma regional. Vol. 23, December 2020, e00337. https://doi.org/10.1016/j.geodrs.2020.e00337

Kidd D., Searle R., Grundy M., McBratney A.B., Robinson N., O’Brien L., Zund D., Arrouays D., Thomas M., Padarian J., Jones E., McLean Bennett J., Minasny M., Holmes K., Malone B., Liddicoat C., Meier E.A., Stockmann U., Wilson P., Wilford J., Payne J., Ringrose-Voase A., Slater B., Odgers N., Gray J., Van Gool D., Andrews K., Harms B., Stower L., Triantafillis J. (2020). Operationalising Digital Soil Mapping - Lessons from Australia. Geoderma Regional, 23, e00335. https://doi.org/10.1016/j.geodrs.2020.e00335.

Ng W., Minasny B., de Sousa Mendes W., Melo Demattê J.A. (2020). The influence of training sample size on the accuracy of deep learning models for the prediction of soil properties with near-infrared spectroscopy data. SOIL, 6, 565–578. https://doi.org/10.5194/soil-6-565-2020

Poggio L., Arrouays D., Salazar O. (2020). Report on the joint conference of the IUSS Working Groups “Digital Soil Mapping” and “GlobalSoilMap” in Santiago de Chile, 2019. International Union of Soil Sciences Bulletin, 135, 20-21. https://www.iuss.org/media/iuss-bulletin135_def.pdf

Taufik M., Minasny B., McBratney A.B., Van Dam J.C., Jones P.D., Van Lanen H.A.J. (2020). Human-induced changes in Indonesian peatlands increase drought severity. Environmental Research Letters, Vol.15, N.8. https://iopscience.iop.org/article/10.1088/1748-9326/ab96d4 (Letter Open access).

2021

Guenet B., Gabrielle B., Chenu C., Arrouays D., Balesdent J., Bernoux M., Bruni E., Caliman J.P., Cardinael R., Chen S., Ciais P., Desbois D., Fouche J., Frank S., Henault C., Lugato E., Naipal V., Nesme T., Obersteiner M., Pellerin S., Powlson D. S., Rasse D., Rees F., Soussana J.F., Su Y. Tian H., Valin H., Zhou F. (2021). Can N₂O emissions offset the benefits from soil carbon sequestration? Global Change Biology, 27(2): 237-256. https://onlinelibrary.wiley.com/doi/10.1111/gcb.15342.

Hu B., Bourennane H., Arrouays A., Denoroy P., Lemercier B., Saby N.P.A. (2021). Developing pedotransfer functions to harmonize extractable soil phosphorus content measured with different methods: A case study across the mainland of France. Geoderma. Vol. 381, 1 January 2021, 114645. https://doi.org/10.1016/j.geoderma.2020.114645

Reddy N.N., Chakraborty P., Roy S., Singh K., Minasny B., McBratney A.B., Biswas A., Das B.S. (2021). Legacy data-based national-scale digital mapping of key soil properties in India. Geoderma, Vol. 381, 114684. https://doi.org/10.1016/j.geoderma.2020.114684

Sabetizadea M., Gorjia M., Roudier P., Zolfagharid A.A., Keshavarzia A. (2021). Combination of MIR spectroscopy and environmental covariates to predict soil organic carbon in a semi-arid region. Catena, 196, 104844. https://doi.org/10.1016/j.catena.2020.104844

Ma Y., Minasny B., McBratney A.B., Poggio L., Fajardo M. (2021). Predicting soil properties in 3D: Should depth be a covariate? Geoderma, 383, 114794. https://doi.org/10.1016/j.geoderma.2020.114794

Sun X.L., Minasny B., Wang H.-L., Zhao Y.-G., Zhang G.-L., Wu Y.-J. (2021). Spatiotemporal modelling of soil organic matter changes in Jiangsu, China between 1980 and 2006 using INLA-SPDE. Geoderma, Vol. 384, 114808. https://doi.org/10.1016/j.geoderma.2020.114808

Styc Q., Gontard F., Lagacherie P. (2021). Harvesting spatially dense legacy soil datasets for digital soil mapping of available water capacity in Southern France. Geoderma Regional. Vol. 24, e00353. https://doi.org/10.1016/j.geodrs.2020.e00353

Vaudour E., Gomez C., Lagacherie P., Loiseau T., Baghdadi N., Urbina-Salazar D., Loubet B., Arrouays D. (2021). Temporal mosaicking approaches of Sentinel-2 images for extending topsoil organic carbon content mapping in croplands. International Journal of Applied Earth Observation and Geoinformation. Vol. 96, 102277. https://doi.org/10.1016/j.jag.2020.102277

Chen S., Richer-de-Forges A.C., Mulder V.-L., Martelet G., Loiseau T., Lehmann S., Arrouays D. (2021). Digital mapping of the soil thickness of loess deposits over a calcareous bedrock in central France. CATENA, Volume 198, March 2021, 105062. https://doi.org/10.1016/j.catena.2020.105062

Loiseau T., Arrouays D., Richer-de-Forges A.C., Lagacherie P., Ducommun C., Minasny B. (2021). Density of soil observations in digital soil mapping: A study in the Mayenne region, France. Geoderma Regional. Vol. 24, e00358. https://doi.org/10.1016/j.geodrs.2021.e00358

Searle R., McBratney A., Grundy M., Kidd D., Malone B., Arrouays D., Stockman U., Zund P., Wilson P., Wilford J., Van Gool D., Triantafilis J., Thomas M., Stower L., Slater B., Robinson N., Ringrose-Voase A., Padarian J., Payne J., Orton T., Odgers N., O’Brien L., Minasny B., McLean Bennett J., Liddicoat C., Jones E., Holmes K., Harms B., Gray J., Bui E., Andrews K. (2021). Digital soil mapping and assessment for Australia and beyond: A propitious future. Geoderma Regional. Volume 24, March 2021, e00359. https://doi.org/10.1016/j.geodrs.2021.e00359

Richer-de-Forges A.C., Lowe D., Minasny B., Adamo P., Amato M., Anjos L.A., Ceddia M., Chang S., Chen S., Chen Z.-S., Feller C., García-Rodeja E., Goulet R.-C., Hseu Z.-Y., Karklins A., Kim Hyuck S., Leenaars J., Levin M., Liu X.-N., Maejima Y., Mantel S., Martín Peinado F., Martínez Garzón F., Mataix-Solera J., Nikodemus O., Ortega C., Ortiz-Bernad I., Pedron F., Pinheiro E.F., Reintam E., Roudier P., Rozanov A., Sánchez Espinosa J.A., Savin I., Shalaby M., Sujatha M., Sulaeman Y., Taghizadeh-Mehrjardi R., Tran T., Valle M., Yang J., Arrouays D. (2021). Chapter Five - A review of the world’s soil museums and exhibitions. Advances in Agronomy. Volume 166. Pages 277-304. https://doi.org/10.1016/bs.agron.2020.10.003

Styc Q., Lagacherie P. (2021). Uncertainty assessment of soil available water capacity using error propagation: A test in Languedoc-Roussillon. Geoderma, 391, 114968. https://doi.org/10.1016/j.geoderma.2021.114968

Jiang Y.Y., Sun Z.-X., Wang Q.-B., Sun Z.-G., Jiang Z.-D., Gu H.-Y., Libohova Z., Owens P. R. (2021). Characteristics of the typical loess profile with a macroscopic tephra layer in the northeast China and the paleoclimatic significance. Catena. 198 (2021) 105043. https://doi.org/10.1016/j.catena.2020.105043

Jiang Z.-D., Wang Q.-B., Libohova Z., Adhikari K., Brye K. R., Sun Z.-X., Sun F.-J., Jiang Y.-Y., Owens P. R. (2021). Fe-Mn concentrations in upland loess soils in mid-continental north America: A step towards dynamic soil survey. Catena 202 (2021) 105273. https://doi.org/10.1016/j.catena.2021.105273

Fiantis D., Ginting F. I., Seprianto, Halfero F., Saputra A. P., Nelson M., Van Ranst E., Minasny B. (2021). Geochemical and mineralogical composition of the 2018 volcanic deposits of Mt. Anak Krakatau. Geoderma Regional, 25 (2021) e00393. https://doi.org/10.1016/j.geodrs.2021.e00393

Chen S., Xu H., Dongyun D., Ji W., Li S., Yang M., Hu, B., Zhou Y., Wang N., Arrouays D., Shi Z. (2021). Evaluating validation strategies on the performance of soil property prediction from regional to continental spectral data. Geoderma, 400, 115159. https://doi.org/10.1016/j.geoderma.2021.115159

Wadoux A.M.J.-C., Heuvelink G.B.M., Lark R.M., Lagacherie P., Bouma J., Mulder V.L., Libohova Z., Yang L., McBratney A.B. (2021). Ten challenges for the future of pedometrics. Geoderma, 401, 115155. https://doi.org/10.1016/j.geoderma.2021.115155

Rudiyanto, Minasny B., Chaney N.W., Maggi F., Goh Eng Giap S., Shah R.M., Fiantis D., Setiawang B.I. (2021). Pedotransfer functions for estimating soil hydraulic properties from saturation to dryness. Geoderma, Volume 403, 1 December 2021, 115194.https://doi.org/10.1016/j.geoderma.2021.115194

Poggio L., de Sousa L. M., Batjes N.H., Heuvelink G.B.M., Kempen B., Ribeiro E., Rossiter D. (2021). SoilGrids 2.0: producing soil information for the globe with quantified spatial uncertainty. SOIL, 7, 217–240. (open access) https://doi.org/10.5194/soil-7-217-2021

Arrouays D., Poggio L., Mulder V.L., Salazar O. (2021). Digital soil mapping and GlobalSoilMap - Scientific advances and the operational use of digital soil mapping to address global environmental challenges. Geoderma Regional. 26, e00414. https://doi.org/10.1016/j.geodrs.2021.e00414

Jun Jang H., Román Dobarco M., Minasny B., McBratney A. (2021). Creating a soil parent material map digitally using a combination of interpretation and statistical techniques. Soil Research. https://doi.org/10.1071/SR20212

El-Naggar A. G., Hedley C. B., Roudier P., Horne D., Clothier B. E. (2021). Imaging the electrical conductivity of the soil profile and its relationships to soil water patterns and drainage characteristics. Precision Agriculture. Volume 22, pages 1045–1066. https://link.springer.com/article/10.1007/s11119-020-09763-x#Ack1

Møller A.B., Mulder V.L., Heuvelink G.B.M., Jacobsen N.M., Greve M.H. (2021). Can We Use Machine Learning for Agricultural Land Suitability Assessment? Agronomy, 11(4), 703; https://doi.org/10.3390/agronomy11040703

Martin M.P., Dimassi B., Román Dobarco M., Guenet B., Arrouays D., Angers D.A., Blache F., Huard F., Soussana J.-F., Pellerin S. (2021). Feasibility of the 4 per 1000 aspirational target for soil carbon: A case study for France. Global Change Biology. 27:2458–2477. https://doi.org/10.1111/gcb.15547 Open Access

Minai J.O., Libohova Z., Schulze D.G. (2021). Spatial prediction of soil properties for the Busia area, Kenya using legacy soil data. Geoderma Regional. 25. 10.1016/j.geodrs.2021.e00366

Kopali A., Libohova Z., Teqja Z., Owens P.R. (2021). Bioclimatic suitability for wine vineyards in Mediterranean climate - Tirana Region, Albania. European Journal of Horticultural Science, 86(2): 179-188. 10.17660/eJHS.2021/86.2.8

Ma Y.X., Minasny B., McBratney A. (2021). Identifying soil provenance based on portable X-ray fluorescence measurements using similarity and inverse-mapping approaches-A case in the Lower Hunter Valley, Australia. Geoderma Regional, 25, e00368. 10.1016/j.geodrs.2021.e00368

Brodam C. (2021). Machine learning creates ways to better assess the suitability of agricultural land. DCA - Danish Centre For Food And Agriculture. https://dca.au.dk/en/current-news/news/show/artikel/machine-learning-creates-ways-to-better-assess-the-suitability-of-agricultural-land/

Fiantis D., Ginting F. I., Gusnidar, Nelson M., Van Ranst E., Minasny B. (2021). Geochemical Characterization and Evolution of Soils from Krakatau Islands. Eurasian Soil Science. pp. 1-15. doi 10.1134/S1064229321110077

Arrouays D., Mulder V.L., Richer-de-Forges A.C. (2021). Soil mapping, digital soil mapping and soil monitoring over large areas and the dimensions of soil security – A review. Soil Security, 5. 100018. https://doi.org/10.1016/j.soisec.2021.100018 Open Access

Urbina-Salazar D., Vaudour E., Baghdadi N., Ceschia E., Richer-de-Forges A.C., Lehmann S., Arrouays D. (2021). Using Sentinel-2 Images for Soil Organic Carbon Content Mapping in Croplands of Southwestern France. The Usefulness of Sentinel-1/2 Derived Moisture Maps and Mismatches between Sentinel Images and Sampling Dates. Remote Sens. 2021, 13, 5115. https://doi.org/10.3390/rs13245115 Open Access

2022

Gomez C., Chevallier T., Moulin P., Arrouays D., Barthès B.G. (2022). Using carbonate absorbance peak to select the most suitable regression model before predicting soil inorganic carbon concentration by mid-infrared reflectance spectroscopy. Geoderma. Volume 405, 2022, 115403, https://doi.org/10.1016/j.geoderma.2021.115403.

Chen S., Arrouays D., Mulder V.L., Poggio L., Minasny B., Roudier P., Libohova Z., Lagacherie P., Shi Z., Hannam J., Meersmans J., Richer-de-Forges A.C., Walter C. (2022). Digital mapping of GlobalSoilMap soil properties at a broad scale: A review. Geoderma. Volume 409, 2022, 115567, https://doi.org/10.1016/j.geoderma.2021.115567 Open Access

Alvyar Z., Shahbazi F., Oustan S., Dengiz O., Minasny B. (2022). Digital mapping of potentially toxic elements enrichment in soils of Urmia Lake due to water level decline. Science of The Total Environment 808, 152086. https://doi.org/10.1016/j.scitotenv.2021.152086

Roudier P., Odgers N., Carrick S., Eger A., Hainsworth S., Beaudette D. (2022). Soilscapes of New Zealand: Pedologic diversity as organised along environmental gradients. Geoderma 409 (2022) 115637. https://doi.org/10.1016/j.geoderma.2021.115637

Minai J.O., Schulze D.G., Libohova Z. (2022). Renewal of Archival Legacy Soil Data: A Case Study of the Busia Area, Kenya. Front. Soil Sci. 1:765248. doi:10.3389/fsoil.2021.765248

Shamrikova E.V., Kondratenok B.M., Tumanova E.A., Vanchikova E.V., Lapteva E.M., Zonova T.V., Lu-Lyan-Min E.I., Davydova A.P., Libohova Z., Suvannang N. (2022). Transferability between soil organic matter measurement methods for database harmonization. Geoderma. https://doi.org/10.1016/j.geoderma.2021.115547

Mendes W. de S., Demattê J.A.M., Minasny B., Silvero N.E.Q., Bonfatti B.R., Safanelli J.L., Rizzo R., da Costa A.C.S. (2022). Free iron oxide content in tropical soils predicted by integrative digital mapping. Soil and Tillage Research 219, 105346. https://doi.org/10.1016/j.still.2022.105346

Richer-de-Forges A.C., Arrouays D., Chen S., Román Dobarco M., Libohova Z., Roudier P., Minasny B., Bourennane H. (2022). Hand-feel soil texture and particle-size distribution in central France. Relationships and implications. CATENA 106155. https://doi.org/10.1016/j.catena.2022.106155

Arrouays D., Hinsinger P., Pellerin S. (2022). Research and management priorities for mainland France soils. Geoderma Regional. 29: e00493. https://doi.org/10.1016/j.geodrs.2022.e00493

Roudier P., O'Neill T.A., Almond P., Poirot C. (2022). Soil priorities for Antarctica. Geoderma Regional. 29: e00499. https://doi.org/10.1016/j.geodrs.2022.e00499

Angers D., Arrouays D., Cardinael R., Chenu C., Corbeels M., Demenois J., Farrell M., Martin M., Minasny B., Recous S., Six J. (2022). A well-established fact: rapid mineralization of organic inputs is an important factor for soil carbon sequestration. Comment on “Soil carbon sequestration for climate change mitigation: Mineralization kinetics of organic inputs as an overlooked limitation”. Opinion paper. European Journal of Soil Science. https://doi.org/10.1111/ejss.13242

Shrestha G., Calvelo-Pereira R., Roudier P., Martin A.P., Turnbull R.E., Kereszturi G., Jeyakumar P., Anderson C.W.N. (2022). Quantification of multiple soil trace elements by combining portable X-ray fluorescence and reflectance spectroscopy. Geoderma. Vol. 409. 115649. https://doi.org/10.1016/j.geoderma.2021.115649

Minasny B., Arrouays D., Cardinael R., Chabbi A., Farrell M., Henry B., Koutika L.-S., Ladha J.K., McBratney A.B., Padarian J., Román-Dobarco M., Rumpel C., Smith P., Soussana J.F., (2022). Current NPP cannot predict future soil organic carbon sequestration potential. Comment on “Photosynthetic limits on carbon sequestration in croplands”. Geoderma, 115975. https://doi.org/10.1016/j.geoderma.2022.115975

Blackburn K.W., Libohova Z., Adhikari K., Kome C., Maness X., Silman M.R. (2022). Influence of Land Use and Topographic Factors on Soil Organic Carbon Stocks and Their Spatial and Vertical Distribution. Remote Sensing 14, 2846. https://doi.org/10.3390/rs14122846

Rahmani S.R., Ackerson J.P., Schulze D., Adhikari K., Libohova Z. (2022). Digital Mapping of Soil Organic Matter and Cation Exchange Capacity in a Low Relief Landscape Using LiDAR Data. Agronomy 12, 1338. https://doi.org/10.3390/agronomy12061338

Vaudour E., Gholizadeh A., Castaldi F., Saberioon M., Borůvka L., Urbina-Salazar D., Fouad Y., Arrouays D., Richer-de-Forges A.C., Biney J., Wetterlind J., Van Wesemael B. (2022). Satellite imagery to map topsoil organic carbon content over cultivated areas: an overview. Remote Sensing, 14, 2917. https://doi.org/10.3390/rs14122917

Arrouays D., Dawson L. (2022). Soil Priorities around the World - An introduction. Geoderma Regional, e00555. DOI: https://doi.org/10.1016/j.geodrs.2022.e00555

Richer-de-Forges A.C., Arrouays D., Poggio L., Chen S., Lacoste M., Budiman B., Libohova Z., Roudier P., Mulder V.L., Nédélec H., Martelet G., Lemercier B., Lagacherie P., Bourennane H. (2022). Hand-feel soil texture observations to evaluate the accuracy of digital soil maps for local prediction of particle size distribution. A case study in central France. Pedosphere. https://doi.org/10.1016/j.pedsph.2022.07.009

Bourennane H., Pasquier C., Cousin I. (2022). Extraction of the stable component of electrical surveys of soils and the consequence on the mapping of their thicknesses. Geoderma 425 116051. https://doi.org/10.1016/j.geoderma.2022.116051

Padarian J., Minasny B., McBratney A., Smith P. (2022). Soil carbon sequestration potential in global croplands. PeerJ 10:e13740 https://doi.org/10.7717/peerj.13740

Lemercier B., Lagacherie P., Amelin J., Sauter J., Richer-de-Forges A.C., Arrouays D. (2022). Multiscale evaluations of global, national and regional digital soil mapping products in France. Geoderma. Volume 425, 116052. https://doi.org/10.1016/j.geoderma.2022.116052

Rossiter D.G., Poggio L., Beaudette D., Libohova Z. (2022). How well does digital soil mapping represent soil geography? An investigation from the USA. SOIL 8, 559–586. https://doi.org/10.5194/soil-8-559-2022

Richer-de-Forges A.C., Lagacherie P., Arrouays D., Bialkowski A., Bourennane H., Briottet X., Fouad Y., Gomez C., Jacquemoud S., Lemercier B., Maisongrande P., Martelet G., Martin M.P., Michot D., Pichelin P., Saby N.P.A., Tissoux H., Vaudour E., Wadoux A.M.J.-C., Walter C., Puissant A. (2022). The Theia "Digital Soil Mapping" Scientific Expertise Centre of France. Pedometron. N°46. pages 4-8. http://pedometrics.org/pedometron/

Xiao Y., Xue J., Zhang X., Wang N., Hong Y., Jiang Y., Zhou Y., Teng H., Hu B., Lugato E., Richer-de-Forges A.C., Arrouays D., Shi Z., Chen S. (2022). Improving pedotransfer functions for predicting soil mineral associated organic carbon by ensemble machine learning. Geoderma. 116208. https://doi.org/10.1016/j.geoderma.2022.116208

Silvero N.E.Q., Demattê J.A.M., Minasny B., Rosin N.A., Nascimento J.G., Rodríguez Albarracín H.S., Bellinaso H., Gómez A.M.R. (2022). Sensing technologies for characterizing and monitoring soil functions: A review. Advances in Agronomy. Elsevier, p. S006521132200092X. https://doi.org/10.1016/bs.agron.2022.08.002

Widyatmanti W., Minasny B., Awanda D., Umarhadi D.A., Fatma Z.S.N., Mahendra W.K., Field D.J. (2022). Codification to Secure Indonesian Peatlands: From policy to practices as revealed by remote sensing analysis. Soil Security. 100080. https://doi.org/10.1016/j.soisec.2022.100080

Hysa A., Teqja Z., Bani A., Libohova Z., Cerda A., (2022). Assessing wildfire vulnerability of vegetated serpentine soils in the Balkan peninsula. J. Nat. Conserv. 68, 126217. https://doi.org/10.1016/j.jnc.2022.126217

2023

Sun X.-L., Minasny B., Wu Y.-J., Wang H.-L., Fan X.-H., Zhang G.-L. (2023). Soil organic carbon content increase in the east and south of China is accompanied by soil acidification. Science of The Total Environment. Volume 857, Part 1, 20 January 2023, 159253. https://doi.org/10.1016/j.scitotenv.2022.159253

Arrouays D., Bispo A., Bardy M., Laroche B., Laville P., Le Bas C., Saby N.P.A., Ratié C., Martin M. P., Jolivet C., Richer-de-Forges A.C., Antoni V., Joassard I., Feix I., Brossard M., Lagacherie P., Soussana J.-F. (2023). Le rayonnement et les actions significatives du GIS Sol à l’international. Étude et Gestion des Sols. Vol. 30. Pages 83-96. https://www.afes.fr/wp-content/uploads/2022/11/EGS_2023_30_Arrouays_83-96.pdf

Sharififar A., Minasny B., Arrouays D., Boulonne L., Chevallier T., van Deventer P., Field D., Gomez C., Jang H.-J., Jeon S.-H., Koch J., McBratney A.B., Malone B.P., Marchant B.P., Martin M.P., Monger C., Munera-Echeverric J.-L., Padarian J., Pfeiffer M., Richer-de-Forges A.C., Saby N.P.A., Singh K., Song X.-D., Zamanian K., Zhang G.-L., van Zijl G. (2023). Soil Inorganic Carbon, the Other and Equally Important Soil Carbon Pool: Distribution, Controlling Factors, and the Impact of Climate Change. Advances in Agronomy. https://doi.org/10.1016/bs.agron.2022.11.005

Ma Y., Minasny B., Viaud V., Walter C., Malone B., McBratney A.B. (2023). Modelling the Whole Profile Soil Organic Carbon Dynamics Considering Soil Redistribution under Future Climate Change and Landscape Projections over the Lower Hunter Valley, Australia. Land. 12(1), 255; https://doi.org/10.3390/land12010255

Rosin N.A., Demattê J.A.M., Poppiel R.R., Silvero N.E.Q., Rodriguez-Albarracin H.S., Rosas J.T.J., Greschuck L.T., Bellinaso H., Minasny B., Gomez C., Jύnior J.M., Fernandes K. (2023). Mapping Brazilian soil mineralogy using proximal and remote sensing data. Geoderma, Volume 432, 116413. https://doi.org/10.1016/j.geoderma.2023.116413

Chen S., Saby N.P.A., Martin M.P., Barthès B.G., Gomez C., Shi Z., Arrouays D. (2023). Integrating additional spectroscopically inferred soil data improves the accuracy of digital soil mapping. Geoderma 433, 116467. https://doi.org/10.1016/j.geoderma.2023.116467

Urbina-Salazar D., Vaudour E., Richer-de-Forges A.C., Chen S., Martelet G., Baghdadi N., Arrouays D. (2023). Sentinel-2 and Sentinel-1 Bare Soil Temporal Mosaics of 6-year Periods for Soil Organic Carbon Content Mapping in Central France. Remote Sensing, 15, 2410. https://doi.org/10.3390/rs15092410

Richer-de-Forges A.C., Arrouays D., Poggio L., Minasny B. (2023). The International joint workshop of the IUSS Working Groups “Digital Soil Mapping” and “Global Soil Map” “Soil Mapping for a Sustainable future, 2023” Orléans, France, 7-9 février 2023. Pedometron. N°47. Pages 13-20. http://pedometrics.org/pedometron/

Fatchurrachman, Rudiyanto, Soh N.C., Shah R.M., Giap S.G.E., Setiawan B.I., Minasny B. (2023). Automated near-real-time mapping and monitoring of rice growth extent and stages in Selangor Malaysia. Remote Sens. Appl. Soc. Environ. 100993. https://doi.org/10.1016/j.rsase.2023.100993