Articles citing this paper
Characterization and analysis of soils using mid-infrared partial least-squares .2. Correlations with some laboratory data
LJ Janik and JO Skjemstad
33(4) pp.637 - 650
157 articles found in Crossref database.
Wiley Encyclopedia of Forensic Science (2004)
Network analysis reveals that bacteria and fungi form modules that correlate independently with soil parameters
de Menezes Alexandre B.,
Prendergast‐Miller Miranda T.,
Richardson Alan E.,
Toscas Peter,
Farrell Mark,
Macdonald Lynne M.,
Baker Geoff,
Wark Tim, Thrall Peter H.
Environmental Microbiology. 2015 17(8). p.2677
Carbon sequestration under subtropical perennial pastures I: Overall trends
Sanderman Jonathan,
Fillery I. R. P.,
Jongepier R.,
Massalsky A.,
Roper M. M.,
Macdonald L. M.,
Maddern T.,
Murphy D. V.,
Wilson B. R., Baldock J. A.
Soil Research. 2013 51(8). p.760
Mechanisms of organic matter stabilization and destabilization in soils and sediments: conference introduction
Smernik Ron, Skjemstad Jan
Biogeochemistry. 2009 92(1-2). p.3
Characterization of Aquatic Particles by Direct FTIR Analysis of Filters and Quantification of Elemental and Molecular Compositions
Tremblay Luc,
Alaoui Ghita, Léger Marc N.
Environmental Science & Technology. 2011 45(22). p.9671
Strategies to admittance soil quality using mid-infrared (mid-IR) spectroscopy an alternate tool for conventional lab analysis: A global perspective
Nath Debabrata,
Laik Ranjan,
Meena Vijay Singh,
Kumari Vandana,
Singh Santosh Kumar,
Pramanick Biswajit, Sattar Abdus
Environmental Challenges. 2022 7 p.100469
Comparing near and Mid-Infrared Reflectance Spectroscopy for Determining Properties of Malagasy Soils, Using Global or LOCAL Calibration
Rabenarivo Michel,
Chapuis-Lardy Lydie,
Brunet Didier,
Chotte Jean-Luc,
Rabeharisoa Lilia, Barthès Bernard G.
Journal of Near Infrared Spectroscopy. 2013 21(6). p.495
Some Advantages of Mid-IR for Soil Analysis
Janik Les
NIR news. 1997 8(6). p.8
GEMAS: Prediction of solid‐solution phase partitioning coefficients (Kd) for oxoanions and boric acid in soils using mid‐infrared diffuse reflectance spectroscopy
Janik Leslie J.,
Forrester Sean T.,
Soriano‐Disla José M.,
Kirby Jason K.,
McLaughlin Michael J., Reimann Clemens
Environmental Toxicology and Chemistry. 2015 34(2). p.235
Quantifying soil organic carbon fractions by infrared-spectroscopy
Zimmermann M.,
Leifeld J., Fuhrer J.
Soil Biology and Biochemistry. 2007 39(1). p.224
Evaluating sampling efforts of standard laboratory analysis and mid-infrared spectroscopy for cost effective digital soil mapping at field scale
Paul S.S.,
Coops N.C.,
Johnson M.S.,
Krzic M., Smukler S.M.
Geoderma. 2019 356 p.113925
Prediction of soil organic and inorganic carbon contents at a national scale (France) using mid‐infrared reflectance spectroscopy (MIRS)
Grinand C.,
Barthès B. G.,
Brunet D.,
Kouakoua E.,
Arrouays D.,
Jolivet C.,
Caria G., Bernoux M.
European Journal of Soil Science. 2012 63(2). p.141
Midinfrared Spectroscopy and Chemometrics to Predict Diuron Sorption Coefficients in Soils
Forouzangohar Mohsen,
Kookana Rai S.,
Forrester Sean T.,
Smernik Ronald J., Chittleborough David J.
Environmental Science & Technology. 2008 42(9). p.3283
Mapping soil organic carbon content using spectroscopic and environmental data: A case study in acidic soils from NW Spain
Rial Marcela,
Cortizas Antonio Martínez, Rodríguez-Lado Luis
Science of The Total Environment. 2016 539 p.26
Developing the Swiss mid-infrared soil spectral library for local estimation and monitoring
Baumann Philipp,
Helfenstein Anatol,
Gubler Andreas,
Keller Armin,
Meuli Reto Giulio,
Wächter Daniel,
Lee Juhwan,
Viscarra Rossel Raphael, Six Johan
SOIL. 2021 7(2). p.525
Assessment of soil quality of arable soils in Hungary using DRIFT spectroscopy and chemometrics
Filep T.,
Zacháry D., Balog K.
Vibrational Spectroscopy. 2016 84 p.16
Toward Molecule-Specific Geochemistry of Heavy Ends: Application to the Upstream Oil Industry
Pomerantz Andrew E.
Industrial & Engineering Chemistry Research. 2016 55(16). p.4403
Spatial distribution of diuron sorption affinity as affected by soil, terrain and management practices in an intensively managed apple orchard
Umali Beng P.,
Oliver Danielle P.,
Ostendorf Bertram,
Forrester Sean,
Chittleborough David J.,
Hutson John L., Kookana Rai S.
Journal of Hazardous Materials. 2012 217-218 p.398
Soil organic carbon in cropping and pasture systems of Victoria, Australia
Robertson Fiona,
Crawford Doug,
Partington Debra,
Oliver Ivanah,
Rees David,
Aumann Colin,
Armstrong Roger,
Perris Roger,
Davey Michelle,
Moodie Michael, Baldock Jeff
Soil Research. 2016 54(1). p.64
Remote Sensing of Soils (2017)
Rapid Prediction of Soil Water Retention using Mid Infrared Spectroscopy
Janik L. J.,
Merry R. H.,
Forrester S. T.,
Lanyon D. M., Rawson A.
Soil Science Society of America Journal. 2007 71(2). p.507
Mid-Infrared Spectroscopic Assessment of Plasticity Characteristics of Clay Soils
Kasprzhitskii Anton,
Lazorenko Georgy,
Khater Antoine, Yavna Victor
Minerals. 2018 8(5). p.184
Changes in fire-derived soil black carbon storage in a subhumid woodland
Yao Jian,
Hockaday William C.,
Murray Darrel B., White Joseph D.
Journal of Geophysical Research: Biogeosciences. 2014 119(9). p.1807
Agricultural Internet of Things and Decision Support for Precision Smart Farming (2020)
Unconventional Oil and Gas Resources Handbook (2016)
Mid‐Infrared and Near‐Infrared Diffuse Reflectance Spectroscopy for Soil Carbon Measurement
McCarty G. W.,
Reeves J. B.,
Reeves V. B.,
Follett R. F., Kimble J. M.
Soil Science Society of America Journal. 2002 66(2). p.640
Application of portable hyper-spectral camera in andisols soil nitrogen assessment
2013 5th Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing (WHISPERS) (2013)
A framework to assess changes in soil condition and capability over large areas
Román Dobarco Mercedes,
McBratney Alex,
Minasny Budiman, Malone Brendan
Soil Security. 2021 4 p.100011
Airborne hyperspectral imaging of spatial soil organic carbon heterogeneity at the field-scale
Hbirkou Christine,
Pätzold Stefan,
Mahlein Anne-Katrin, Welp Gerhard
Geoderma. 2012 175-176 p.21
Using Interlaboratory Proficiency Data to Guide NIR/MIR Calibrations
Rayment George E.,
Hill Roger, Greaves A. (Tony)
Communications in Soil Science and Plant Analysis. 2012 43(1-2). p.399
Modelling Diverse Soil Attributes with Visible to Longwave Infrared Spectroscopy Using PLSR Employed by an Automatic Modelling Engine
Kopačková Veronika,
Ben-Dor Eyal,
Carmon Nimrod, Notesco Gila
Remote Sensing. 2017 9(2). p.134
Soil total carbon analysis in Hawaiian soils with visible, near-infrared and mid-infrared diffuse reflectance spectroscopy
McDowell Meryl L.,
Bruland Gregory L.,
Deenik Jonathan L.,
Grunwald Sabine, Knox Nichola M.
Geoderma. 2012 189-190 p.312
Soil functional resistance and stability are linked to different ecosystem properties
Wakelin Steven A.,
Macdonald Lynne M.,
O'Callaghan Maureen,
Forrester Sean T., Condron Leo M.
Austral Ecology. 2014 39(5). p.522
Rapid assessment of black carbon in soil organic matter using mid-infrared spectroscopy
Bornemann L.,
Welp G.,
Brodowski S.,
Rodionov A., Amelung W.
Organic Geochemistry. 2008 39(11). p.1537
Infrared spectroscopy approaches support soil organic carbon estimations to evaluate land degradation
Barthès Bernard G., Chotte Jean‐Luc
Land Degradation & Development. 2021 32(1). p.310
Soil organic carbon and nitrogen pools are increased by mixed grass and legume cover crops in vineyard agroecosystems: Detecting short-term management effects using infrared spectroscopy
Ball K.R.,
Baldock J.A.,
Penfold C.,
Power S.A.,
Woodin S.J.,
Smith P., Pendall E.
Geoderma. 2020 379 p.114619
Using a legacy soil sample to develop a mid-IR spectral library
Rossel R. A. Viscarra,
Jeon Y. S.,
Odeh I. O. A., McBratney A. B.
Soil Research. 2008 46(1). p.1
Predicting contents of carbon and its component fractions in Australian soils from diffuse reflectance mid-infrared spectra
Baldock J. A.,
Hawke B.,
Sanderman J., Macdonald L. M.
Soil Research. 2013 51(8). p.577
Instrumental determination of organic carbon in marine sediments
Tung Joanne Wai Ting, Tanner Peter A
Marine Chemistry. 2003 80(2-3). p.161
Vis/NIR spectroscopic measurement of selected soil fertility parameters of Cuban agricultural Cambisols
Chacón Iznaga Ahmed,
Rodríguez Orozco Miguel,
Aguila Alcantara Edith,
Carral Pairol Meilyn,
Díaz Sicilia Yanet Eddith,
de Baerdemaeker Josse, Saeys Wouter
Biosystems Engineering. 2014 125 p.105
Sustainable Agriculture Reviews (2017)
Estimation of soil properties from the EU spectral library using long short-term memory networks
Singh Simranjit, Kasana Singara Singh
Geoderma Regional. 2019 18 p.e00233
Mid-infrared spectral interpretation of soils: Is it practical or accurate?
Reeves James B.
Geoderma. 2012 189-190 p.508
Hotspots of soil organic carbon storage revealed by laboratory hyperspectral imaging
Hobley Eleanor,
Steffens Markus,
Bauke Sara L., Kögel-Knabner Ingrid
Scientific Reports. 2018 8(1).
Quantifying the Importance of Soil‐Forming Factors Using Multivariate Soil Data at Landscape Scale
Eger A.,
Koele N.,
Caspari T.,
Poggio M.,
Kumar K., Burge O. R.
Journal of Geophysical Research: Earth Surface. 2021 126(8).
Mid-Infrared Spectroscopy as a Potential Tool for Reconstructing Lake Salinity
Cunningham Laura,
Tibby John,
Forrester Sean,
Barr Cameron, Skjemstad Jan
Water. 2016 8(11). p.479
Quantification of carbon derived from lignite in soils using mid-infrared spectroscopy and partial least squares
Rumpel C.,
Janik L.J.,
Skjemstad J.O., Kögel-Knabner I.
Organic Geochemistry. 2001 32(6). p.831
Analysis of Soil Chemical Properties of Sand-Based Turfgrass Rootzone using Fourier Transform–Infrared Spectroscopy
Han Lei,
Li Deying,
Fang Wenjuan,
Wang Yichun, Gaussoin Roch
Communications in Soil Science and Plant Analysis. 2012 43(21). p.2709
Visible near-infrared reflectance spectroscopy as a predictive indicator of soil properties
Summers D.,
Lewis M.,
Ostendorf B., Chittleborough D.
Ecological Indicators. 2011 11(1). p.123
Visible, near infrared, mid infrared or combined diffuse reflectance spectroscopy for simultaneous assessment of various soil properties
Viscarra Rossel R.A.,
Walvoort D.J.J.,
McBratney A.B.,
Janik L.J., Skjemstad J.O.
Geoderma. 2006 131(1-2). p.59
Micronutrient Deficiencies in Global Crop Production (2008)
(2012)
The Applications of New Inorganic Polymer for Adsorption Cadmium from Waste Water
Mladenović Nataša,
Kljajević Ljiljana,
Nenadović Snežana,
Ivanović Marija,
Čalija Bojan,
Gulicovski Jelena, Trivunac Katarina
Journal of Inorganic and Organometallic Polymers and Materials. 2020 30(2). p.554
Use of mid‐infrared spectroscopy in the diffuse‐reflectance mode for the prediction of the composition of organic matter in soil and litter
Ludwig Bernard,
Nitschke Renate,
Terhoeven‐Urselmans Thomas,
Michel Kerstin, Flessa Heiner
Journal of Plant Nutrition and Soil Science. 2008 171(3). p.384
Spectroscopic characterization of natural humic substances
Hladký J.,
Pospíšilová L., Liptaj T.
Journal of Applied Spectroscopy. 2013 80(1). p.8
The Performance of Visible, Near-, and Mid-Infrared Reflectance Spectroscopy for Prediction of Soil Physical, Chemical, and Biological Properties
Soriano-Disla José M.,
Janik Les J.,
Viscarra Rossel Raphael A.,
Macdonald Lynne M., McLaughlin Michael J.
Applied Spectroscopy Reviews. 2014 49(2). p.139
Prediction of exchangeable potassium in soil through mid-infrared spectroscopy and deep learning: From prediction to explainability
Albinet Franck,
Peng Yi,
Eguchi Tetsuya,
Smolders Erik, Dercon Gerd
Artificial Intelligence in Agriculture. 2022 6 p.230
Mid- and near-infrared spectroscopic assessment of soil compositional parameters and structural indices in two Ferralsols
Madari Beáta E.,
Reeves James B.,
Machado Pedro L.O.A.,
Guimarães Cleber M.,
Torres Eleno, McCarty Gregory W.
Geoderma. 2006 136(1-2). p.245
Subsetting reduces the error of MIR spectroscopy models for soil organic carbon prediction in the U.S. Great Plains
Dorantes Minerva J.,
Fuentes Bryan A., Miller David M.
Soil Security. 2024 16 p.100145
National calibration of soil organic carbon concentration using diffuse infrared reflectance spectroscopy
Clairotte Michaël,
Grinand Clovis,
Kouakoua Ernest,
Thébault Aurélie,
Saby Nicolas P.A.,
Bernoux Martial, Barthès Bernard G.
Geoderma. 2016 276 p.41
Geospatial Technologies for Crops and Soils (2021)
Influence of the nature of soil organic matter on the sorption behaviour of pentadecane as determined by PLS analysis of mid-infrared DRIFT and solid-state 13C NMR spectra
Clark Ehlers G.A.,
Forrester Sean T.,
Scherr Kerstin E.,
Loibner Andreas P., Janik Les J.
Environmental Pollution. 2010 158(1). p.285
Quantification of pyrogenic carbon in the environment: An integration of analytical approaches
Cotrufo M. Francesca,
Boot Claudia,
Abiven Samuel,
Foster Erika J.,
Haddix Michelle,
Reisser Moritz,
Wurster Christopher M.,
Bird Michael I., Schmidt Michael W.I.
Organic Geochemistry. 2016 100 p.42
Digital Soil Mapping with Limited Data (2008)
Wiley Encyclopedia of Forensic Science (2009)
Evaluation of sensing technologies for on-the-go detection of macro-nutrients in cultivated soils
Sinfield Joseph V.,
Fagerman Daniel, Colic Oliver
Computers and Electronics in Agriculture. 2010 70(1). p.1
Regional and local factors affecting diversity, abundance and activity of free-living, N2-fixing bacteria in Australian agricultural soils
Wakelin S.A.,
Gupta V.V.S.R., Forrester S.T.
Pedobiologia. 2010 53(6). p.391
Prediction of Atrazine Sorption Coefficients in Soils Using Mid-Infrared Spectroscopy and Partial Least-Squares Analysis
Kookana Rai S.,
Janik Les J.,
Forouzangohar Mohsen, Forrester Sean T.
Journal of Agricultural and Food Chemistry. 2008 56(9). p.3208
Exploring the optimal model for assessing SOC and TN in Zanthoxylum bungeanum forest on the Loess Plateau using VNIR spectroscopy
Hou Mengjia,
Ai Zemin,
Li Xinghua,
Dang Xiaohu,
Yao Yuyan,
Deng Yi,
Wang Tao,
Li Ting, Xiao Lie
Ecological Informatics. 2024 79 p.102429
Calibration set optimization and library transfer for soil carbon estimation using soil spectroscopy—A review
Dorantes Minerva J.,
Fuentes Bryan A., Miller David M.
Soil Science Society of America Journal. 2022 86(4). p.879
Quantitative Analysis of Added Ammonium and Nitrate in Silica Sand and Soil Using Diffuse Reflectance Infrared Spectroscopy
Boonmung Suwanee, Riley Mark R.
Spectroscopy Letters. 2003 36(3). p.251
The influence of land use and management on soil carbon levels for crop-pasture systems in Central New South Wales, Australia
Badgery Warwick B.,
Simmons Aaron T.,
Murphy Brian W.,
Rawson Andrew,
Andersson Karl O., Lonergan Vanessa E.
Agriculture, Ecosystems & Environment. 2014 196 p.147
An ensemble of Monte Carlo uninformative variable elimination for wavelength selection
Han Qing-Juan,
Wu Hai-Long,
Cai Chen-Bo,
Xu Lu, Yu Ru-Qin
Analytica Chimica Acta. 2008 612(2). p.121
The 3D distribution of phyllosilicate clay minerals in western Victoria
Robinson Nathan J., Kitching Matt
Geoderma. 2016 284 p.152
Determination of Organic and Inorganic Carbon in Forest Soil Samples by Mid-Infrared Spectroscopy and Partial Least Squares Regression
Tatzber Michael,
Mutsch Franz,
Mentler Axel,
Leitgeb Ernst,
Englisch Michael, Gerzabek Martin H.
Applied Spectroscopy. 2010 64(10). p.1167
Near‐ and Mid‐Infrared Diffuse Reflectance Spectroscopy for Measuring Soil Metal Content
Siebielec Grzegorz,
McCarty Gregory W.,
Stuczynski Tomasz I., Reeves James B.
Journal of Environmental Quality. 2004 33(6). p.2056
Soil properties prediction of western Mediterranean islands with similar climatic environments by means of mid‐infrared diffuse reflectance spectroscopy
D’Acqui L. P.,
Pucci A., Janik L. J.
European Journal of Soil Science. 2010 61(6). p.865
Predicting soil carbon saturation deficit and related properties of New Zealand soils using infrared spectroscopy
Baldock J. A.,
McNally S. R.,
Beare M. H.,
Curtin D., Hawke B.
Soil Research. 2019 57(8). p.835
The potential of mid- and near-infrared diffuse reflectance spectroscopy for determining major- and trace-element concentrations in soils from a geochemical survey of North America
Reeves James B., Smith David B.
Applied Geochemistry. 2009 24(8). p.1472
Soil respiration and its temperature sensitivity (Q10): Rapid acquisition using mid-infrared spectroscopy
Meyer Nele,
Meyer Hanna,
Welp Gerhard, Amelung Wulf
Geoderma. 2018 323 p.31
Soil charcoal prediction using attenuated total reflectance mid-infrared spectroscopy
Hobley E. U.,
Brereton A. J. L. E. Gay, Wilson B.
Soil Research. 2017 55(1). p.86
Biological indicators of soil quality and soil organic matter characteristics in an agricultural management continuum
Veum Kristen S.,
Goyne Keith W.,
Kremer Robert J.,
Miles Randall J., Sudduth Kenneth A.
Biogeochemistry. 2014 117(1). p.81
Assessment of estuarine sediment and sedimentary organic matter properties by infrared reflectance spectroscopy
Alaoui Ghita,
Léger Marc N.,
Gagné Jean-Pierre, Tremblay Luc
Chemical Geology. 2011 286(3-4). p.290
Synchrotron-Based Techniques in Soils and Sediments (2010)
Relationship between environmental and land-use variables on soil carbon levels at the regional scale in central New South Wales, Australia
Badgery Warwick B.,
Simmons Aaron T.,
Murphy Brian M.,
Rawson Andrew,
Andersson Karl O.,
Lonergan Vanessa E., van de Ven Remy
Soil Research. 2013 51(8). p.645
Use of handheld mid-infrared spectroscopy and partial least-squares regression for the prediction of the phosphorus buffering index in Australian soils
Forrester Sean T.,
Janik Les J.,
Soriano-Disla José M.,
Mason Sean,
Burkitt Lucy,
Moody Phil,
Gourley Cameron J. P., McLaughlin Michael J.
Soil Research. 2015 53(1). p.67
The relationships between land uses, soil management practices, and soil carbon fractions in South Eastern Australia
Rabbi S.M.Fazle,
Tighe Matthew,
Cowie Annette,
Wilson Brian R.,
Schwenke Graeme,
Mcleod Malem,
Badgery Warwick, Baldock Jeff
Agriculture, Ecosystems & Environment. 2014 197 p.41
Precision Agriculture Demands a New Approach to Soil and Plant Sampling and Analysis—Examples from Australia
Bramley R. G. V., Janik L. J.
Communications in Soil Science and Plant Analysis. 2005 36(1-3). p.9
Estimating soil texture from vis–NIR spectra
Hobley E. U., Prater I.
European Journal of Soil Science. 2019 70(1). p.83
Mid-infrared attenuated total reflectance spectroscopy for soil carbon and particle size determination
Ge Yufeng,
Thomasson J. Alex, Morgan Cristine L.S.
Geoderma. 2014 213 p.57
Application of proximal sensing approach to predict cation exchange capacity of calcareous soils using linear and nonlinear data mining algorithms
Karami Ali,
Moosavi Ali Akbar,
Pourghasemi Hamid Reza,
Ronaghi Abdolmajid,
Ghasemi-Fasaei Reza, Lado Marcos
Journal of Soils and Sediments. 2024 24(6). p.2248
The prediction of soil carbon fractions using mid-infrared-partial least square analysis
Janik L. J.,
Skjemstad J. O.,
Shepherd K. D., Spouncer L. R.
Soil Research. 2007 45(2). p.73
Proximal soil sensing for Precision Agriculture: Simultaneous use of electromagnetic induction and gamma radiometrics in contrasting soils
Rodrigues F.A.,
Bramley R.G.V., Gobbett D.L.
Geoderma. 2015 243-244 p.183
Evaluation of Two Portable Hyperspectral-Sensor-Based Instruments to Predict Key Soil Properties in Canadian Soils
Dhawale Nandkishor M.,
Adamchuk Viacheslav I.,
Prasher Shiv O.,
Rossel Raphael A. Viscarra, Ismail Ashraf A.
Sensors. 2022 22(7). p.2556
Variation in vine vigour, grape yield and vineyard soils and topography as indicators of variation in the chemical composition of grapes, wine and wine sensory attributes
BRAMLEY R.G.V.,
OUZMAN J., BOSS P.K.
Australian Journal of Grape and Wine Research. 2011 17(2). p.217
Variable selection in wavelet regression models
Alsberg Bjørn K.,
Woodward Andrew M.,
Winson Michael K.,
Rowland Jem J., Kell Douglas B.
Analytica Chimica Acta. 1998 368(1-2). p.29
Pitfalls in the use of middle-infrared spectroscopy: representativeness and ranking criteria for the estimation of soil properties
Ludwig Bernard,
Linsler Deborah,
Höper Heinrich,
Schmidt Harald,
Piepho Hans-Peter, Vohland Michael
Geoderma. 2016 268 p.165
Feasibility for chemometric energy dispersive X‐ray fluorescence and scattering (EDXRFS) spectroscopy method for rapid soil quality assessment
Kaniu M. I.,
Angeyo K. H.,
Mangala M. J.,
Mwala A. K., Bartilol S. K.
X-Ray Spectrometry. 2011 40(6). p.432
Predicting partitioning of radiolabelled 14C-PFOA in a range of soils using diffuse reflectance infrared spectroscopy
Knight Emma R.,
Janik Leslie J.,
Navarro Divina A.,
Kookana Rai S., McLaughlin Michael J.
Science of The Total Environment. 2019 686 p.505
Using Various Models for Predicting Soil Organic Carbon Based on DRIFT-FTIR and Chemical Analysis
Thabit Fatma N.,
Negim Osama I. A.,
AbdelRahman Mohamed A. E.,
Scopa Antonio, Moursy Ali R. A.
Soil Systems. 2024 8(1). p.22
Potential Application of Laser‐Induced Breakdown Spectroscopy (LIBS) Data for the Determination of Cation Exchange Capacity (CEC) of Agricultural Soils
Pelagio Michael C.,
Navarro Divina A.,
Janik Les J., Lamorena Rheo B.
ChemistrySelect. 2020 5(13). p.3798
Patterns of Regional Yield Stability in Association with Regional Environmental Characteristics
Williams Carol L.,
Liebman Matt,
Edwards Jode W.,
James David E.,
Singer Jeremy W.,
Arritt Ray, Herzmann Daryl
Crop Science. 2008 48(4). p.1545
Spectral soil analysis and inference systems: A powerful combination for solving the soil data crisis
McBratney Alex B.,
Minasny Budiman, Viscarra Rossel Raphael
Geoderma. 2006 136(1-2). p.272
Total Petroleum Hydrocarbon Concentration Prediction in Soils Using Diffuse Reflectance Infrared Spectroscopy
Forrester Sean T.,
Janik Les J.,
McLaughlin Michael J.,
Soriano-Disla José M.,
Stewart Richard, Dearman Ben
Soil Science Society of America Journal. 2013 77(2). p.450
Rapid and portable mid-infrared analysis of wet sediment samples by a novel “filter-press” attenuated total reflectance method
Janik Leslie J.,
Simpson Stuart L.,
Farrell Mark, Mosley Luke M.
Environmental Earth Sciences. 2024 83(2).
Robust Modelling of Soil Diffuse Reflectance Spectra by “Bagging-Partial Least Squares Regression”
Rossel R.A. Viscarra
Journal of Near Infrared Spectroscopy. 2007 15(1). p.39
The use of mid-infrared diffuse reflectance spectroscopy for acid sulfate soil analysis
Soriano-Disla José M.,
Janik Leslie J.,
Forrester Sean T.,
Grocke Sonia F.,
Fitzpatrick Robert W., McLaughlin Michael J.
Science of The Total Environment. 2019 646 p.1489
Prediction of tropical volcanic soil organic carbon stocks by visible-near- and mid-infrared spectroscopy
Allo Myriam,
Todoroff Pierre,
Jameux Magali,
Stern Mathilde,
Paulin Louis, Albrecht Alain
CATENA. 2020 189 p.104452
Using soil knowledge for the evaluation of mid‐infrared diffuse reflectance spectroscopy for predicting soil physical and mechanical properties
Minasny B.,
McBratney A. B.,
Tranter G., Murphy B. W.
European Journal of Soil Science. 2008 59(5). p.960
Comparison of Soil Extractants and Spectral Reflectance Measurement for Estimation of Available Soil Potassium in Some Ethiopian Soils
Demiss M.,
Beyene Sh., Kidanu S.
Eurasian Soil Science. 2020 53(8). p.1100
Improved soil carbonate determination by FT-IR and X-ray analysis
Bruckman Viktor J., Wriessnig Karin
Environmental Chemistry Letters. 2013 11(1). p.65
Unmixing of soil types and estimation of soil exposure with simulated hyperspectral imagery
Summers D.,
Lewis M.,
Ostendorf B., Chittleborough D.
International Journal of Remote Sensing. 2011 32(21). p.6507
Modeling Processes and Their Interactions in Cropping Systems (2022)
Vibrational spectroscopy in soil and sediment analysis
Armenta Sergio, de la Guardia Miguel
Trends in Environmental Analytical Chemistry. 2014 2 p.43
Development of a Multimode Field Deployable Lidar Instrument for Topographic Measurements of Unsaturated Soil Properties: Instrument Description
Salazar Sean E.,
Garner Cyrus D., Coffman Richard A.
Remote Sensing. 2019 11(3). p.289
Prediction of Soil Fertility Properties from a Globally Distributed Soil Mid‐Infrared Spectral Library
Terhoeven-Urselmans Thomas,
Vagen Tor-Gunnar,
Spaargaren Otto, Shepherd Keith D.
Soil Science Society of America Journal. 2010 74(5). p.1792
Climate and soil properties limit the positive effects of land use reversion on carbon storage in Eastern Australia
Rabbi S.M.F.,
Tighe Matthew,
Delgado-Baquerizo Manuel,
Cowie Annette,
Robertson Fiona,
Dalal Ram,
Page Kathryn,
Crawford Doug,
Wilson Brian R.,
Schwenke Graeme,
Mcleod Malem,
Badgery Warwick,
Dang Yash P.,
Bell Mike,
O’Leary Garry,
Liu De Li, Baldock Jeff
Scientific Reports. 2015 5(1).
An investigation into the long-term binding and uptake of PFOS, PFOA and PFHxS in soil – plant systems
Knight Emma R.,
Bräunig Jennifer,
Janik Leslie J.,
Navarro Divina A.,
Kookana Rai S.,
Mueller Jochen F., McLaughlin Michael J.
Journal of Hazardous Materials. 2021 404 p.124065
Near-infrared laboratory spectroscopy of mineral chemistry: A review
Meer Freek van der
International Journal of Applied Earth Observation and Geoinformation. 2018 65 p.71
Measuring soil organic carbon: which technique and where to from here?
Johns Timothy J.,
Angove Michael J., Wilkens Sabine
Soil Research. 2015 53(7). p.717
Quantifying soil carbon in temperate peatlands using a mid-IR soil spectral library
Helfenstein Anatol,
Baumann Philipp,
Viscarra Rossel Raphael,
Gubler Andreas,
Oechslin Stefan, Six Johan
SOIL. 2021 7(1). p.193
Enhancement of surfactant efficacy during the cleanup of engine oil contaminated soil using salt and multi-walled carbon nanotubes
Bonal Niteesh Singh,
Paramkusam Bala Ramudu, Basudhar Prabir Kumar
Journal of Hazardous Materials. 2018 351 p.54
GEMAS: Prediction of solid‐solution partitioning coefficients (Kd) for cationic metals in soils using mid‐infrared diffuse reflectance spectroscopy
Janik Leslie J.,
Forrester Sean T.,
Soriano‐Disla José M.,
Kirby Jason K.,
McLaughlin Michael J., Reimann Clemens
Environmental Toxicology and Chemistry. 2015 34(2). p.224
The effective monitoring of eleven crucial parameters that describe the condition of cultivated Haplic Luvisol soils using fourier-transformed near-infrared spectroscopy
Daszykowski M.,
Krzebietke S.,
Czarnik-Matusewicz H.,
Stanimirova I.,
Pieszczek L., Zarczynski P.
Chemometrics and Intelligent Laboratory Systems. 2023 243 p.105000
Visible-near infrared reflectance spectroscopy for assessment of soil properties in a semi-arid area of Turkey
Volkan Bilgili A.,
van Es H.M.,
Akbas F.,
Durak A., Hively W.D.
Journal of Arid Environments. 2010 74(2). p.229
Quantification of total element concentrations in soils using total X-ray fluorescence spectroscopy (TXRF)
Towett Erick K.,
Shepherd Keith D., Cadisch Georg
Science of The Total Environment. 2013 463-464 p.374
Mid-infrared spectroscopy and partial least-squares regression to estimate soil arsenic at a highly variable arsenic-contaminated site
Niazi N. K.,
Singh B., Minasny B.
International Journal of Environmental Science and Technology. 2015 12(6). p.1965
Non-First Order Degradation and Time-Dependent Sorption of Organic Chemicals in Soil (2014)
Optical sensing and chemometric analysis of soil organic carbon – a cost effective alternative to conventional laboratory methods?
O’ Rourke S. M., Holden N. M.
Soil Use and Management. 2011 27(2). p.143
Changes in water content of two agricultural soils does not alter labile P and C pools
Butterly Clayton R.,
McNeill Ann M.,
Baldock Jeff A., Marschner Petra
Plant and Soil. 2011 348(1-2). p.185
Organic carbon partitioning in soil and litter in subtropical woodlands and open forests: a case study from the Brigalow Belt, Queensland
Roxburgh S. H.,
Mackey B. G.,
Dean C.,
Randall L.,
Lee A., Austin J.
The Rangeland Journal. 2006 28(2). p.115
(2015)
Rewetting CO2 pulses in Australian agricultural soils and the influence of soil properties
Butterly Clayton R.,
Marschner Petra,
McNeill Ann M., Baldock Jeff A.
Biology and Fertility of Soils. 2010 46(7). p.739
Application of Mid‐Infrared Spectroscopy in Soil Survey
Seybold Cathy A.,
Ferguson Rich,
Wysocki Doug,
Bailey Scarlett,
Anderson Joe,
Nester Brian,
Schoeneberger Phil,
Wills Skye,
Libohova Zamir,
Hoover Dave, Thomas Pam
Soil Science Society of America Journal. 2019 83(6). p.1746
Detection of smectites in ppm and sub-ppm concentrations using dye molecule sensors
Lofaj Marcel, Bujdák Juraj
Physics and Chemistry of Minerals. 2012 39(3). p.227
Vertical distribution of charcoal in a sandy soil: evidence from DRIFT spectra and field emission scanning electron microscopy
Hobley E.,
Willgoose G. R.,
Frisia S., Jacobsen G.
European Journal of Soil Science. 2014 65(5). p.751
Application of mid-infrared spectroscopy for the quantitative and qualitative analysis of organic matter in Holocene sediment records
Ninnes Sofia,
Meyer-Jacob Carsten,
Tolu Julie,
Bindler Richard, Cortizas Antonio Martínez
The Holocene. 2024 34(3). p.259
Improving the generalization error and transparency of regression models to estimate soil organic carbon using soil reflectance data
dos Santos Erli Pinto,
Moreira Michel Castro,
Fernandes-Filho Elpídio Inácio,
Demattê José Alexandre Melo,
Santos Uemeson José dos,
da Silva Demetrius David,
Cruz Renata Ranielly Pedroza,
Moura-Bueno Jean Michel,
Santos Isabel Caligiorne, Sampaio Everardo Valadares de Sá Barreto
Ecological Informatics. 2023 77 p.102240
Vibrational Spectroscopy and Dehydroxylation of Aluminum (Oxo)Hydroxides: Gibbsite
Frost Ray L.,
Kloprogge J. Theo,
Russell Shane C., Szetu Jennifer L.
Applied Spectroscopy. 1999 53(4). p.423
Land-use and historical management effects on soil organic carbon in grazing systems on the Northern Tablelands of New South Wales
Wilson Brian R., Lonergan Vanessa E.
Soil Research. 2013 51(8). p.668
Mid-Infrared Reflectance Spectroscopy for Estimation of Soil Properties of Alfisols from Eastern India
Hati Kuntal M.,
Sinha Nishant K.,
Mohanty Monoranjan,
Jha Pramod,
Londhe Sunil,
Sila Andrew,
Towett Erick,
Chaudhary Ranjeet S.,
Jayaraman Somasundaram,
Vassanda Coumar Mounisamy,
Thakur Jyoti K.,
Dey Pradip,
Shepherd Keith,
Muchhala Pankaj,
Weullow Elvis,
Singh Muneshwar,
Dhyani Shiv K.,
Biradar Chandrashekhar,
Rizvi Javed,
Patra Ashok K., Chaudhari Suresh K.
Sustainability. 2022 14(9). p.4883
The effect of terrain and management on the spatial variability of soil properties in an apple orchard
Umali Beng P.,
Oliver Danielle P.,
Forrester Sean,
Chittleborough David J.,
Hutson John L.,
Kookana Rai S., Ostendorf Bertram
CATENA. 2012 93 p.38
Influence of soil γ-irradiation and spiking on sorption of p,p ′-DDE and soil organic matter chemistry
Škulcová Lucia,
Scherr Kerstin E.,
Chrást Lukáš,
Hofman Jakub, Bielská Lucie
Ecotoxicology and Environmental Safety. 2018 155 p.125
Application of diffuse reflectance FT‐IR spectroscopy and partial least‐squares regression to predict NMR properties of soil organic matter
Leifeld J.
European Journal of Soil Science. 2006 57(6). p.846
Mid-infrared spectroscopy for rapid assessment of soil properties after land use change from pastures to Eucalyptus globulus plantations
Madhavan Dinesh B.,
Kitching Matt,
Mendham Daniel S.,
Weston Christopher J., Baker Thomas G.
Journal of Environmental Management. 2016 175 p.67
Criminal and Environmental Soil Forensics (2009)
FTIR spectroscopy of peat in and bordering Scots pine woodland: relationship with chemical and biological properties
Chapman S.J,
Campbell C.D,
Fraser A.R, Puri G
Soil Biology and Biochemistry. 2001 33(9). p.1193
Accuracy of Estimating Soil Properties with Mid‐Infrared Spectroscopy: Implications of Different Chemometric Approaches and Software Packages Related to Calibration Sample Size
Ludwig Bernard,
Murugan Raja,
Parama V. R. Ramakrishna, Vohland Michael
Soil Science Society of America Journal. 2019 83(5). p.1542
Application of mid-infrared (MIR) spectroscopy to identify and quantify minerals in New Zealand soils
Ma Yuxin,
Minasny Budiman,
Roudier Pierre,
Theng Benny K.G., Carrick Sam
CATENA. 2024 242 p.108115
Determining the composition of mineral-organic mixes using UV–vis–NIR diffuse reflectance spectroscopy
Viscarra Rossel R.A.,
McGlynn R.N., McBratney A.B.
Geoderma. 2006 137(1-2). p.70
Mid-Infrared Spectrum Analysis for Mapping Attributes of Cohesive Soils in Brazil
Porto de Oliveira Romário,
Barbosa Ronny Sobreira,
Marques Júnior José,
Jacques Agra Bezerra da Silva Yuri,
Barrón Vidal,
Silva Dantas Jussara,
Maria Do Amaral Resende José, Veniciús Santana Gualberto Adriano
Communications in Soil Science and Plant Analysis. 2022 53(10). p.1277
Ultra-violet, visible, near-infrared, and mid-infrared diffuse reflectance spectroscopic techniques to predict several soil properties
Pirie Adam,
Singh Balwant, Islam Kamrunnahar
Soil Research. 2005 43(6). p.713
Regional transferability of mid-infrared diffuse reflectance spectroscopic prediction for soil chemical properties
Minasny Budiman,
Tranter Grant,
McBratney Alex. B.,
Brough Daniel M., Murphy Brian W.
Geoderma. 2009 153(1-2). p.155
Bulk mineralogical characterisation of oilfield reservoir rocks and sandstones using Diffuse Reflectance Infrared Fourier Transform Spectroscopy and Partial Least Squares analysis
Breen C.,
Clegg F.,
Herron M.M.,
Hild G.P.,
Hillier S.,
Hughes T.L.,
Jones T.G.J.,
Matteson A., Yarwood J.
Journal of Petroleum Science and Engineering. 2008 60(1). p.1
Near- versus mid-infrared diffuse reflectance spectroscopy for soil analysis emphasizing carbon and laboratory versus on-site analysis: Where are we and what needs to be done?
Reeves James B.
Geoderma. 2010 158(1-2). p.3
Mid-infrared spectroscopy for accurate measurement of an extensive set of soil properties for assessing soil functions
Ng Wartini,
Minasny Budiman,
Jeon Sang Ho, McBratney Alex
Soil Security. 2022 6 p.100043
Performance of mid infrared spectroscopy to predict nutrients for agricultural soils in selected areas of Ethiopia
Lelago Alemu, Bibiso Mesfin
Heliyon. 2022 8(3). p.e09050
