Peer-reviewed publications
Peer-reviewed publications
2024
Zhang, Y., Hartemink, A.E., Vanwalleghem, T., Bonfatti, B.R., 2024. Climate and land use changes explain variation in the A horizon and soil thickness in the United States. Communications Earth & Environment 5, 129. SourceOwusu, S., Hartemink, A., Zhang, Y., Michéli, E.C., Csorba, Á., 2024. Exchangeable acidity and pedotransfer functions for the soils of Ghana. European Journal of Soil Science 75, e13460. SourceGozukara, G., Hartemink, A.E., Zhang, Y., Huang, J., Dengiz, O., 2024. Soil evolution following the shrinking of Burder Lake in Turkiye. CATENA 237, 107824. Source Stevenson, A., Zhang, Y., Huang, J., Hu, J., Paustian, K., Hartemink, A.E., 2024. Rates of soil organic carbon change in cultivated and afforested sandy soils. Agriculture, Ecosystems & Environment 360, 108785. SourceRawal, A., Hartemink, A.E., Zhang, Y., Wang, Y., Lankau, R.A., Ruark, M.D., 2023. Visible and near-infrared spectroscopy predicted leaf nitrogen contents of potato varieties under different growth and management conditions. Precision Agriculture, 1–20. Source
Zhang, Y., Hartemink, A.E., Vanwalleghem, T., Bonfatti, B.R., 2024. Climate and land use changes explain variation in the A horizon and soil thickness in the United States. Communications Earth & Environment 5, 129. SourceOwusu, S., Hartemink, A., Zhang, Y., Michéli, E.C., Csorba, Á., 2024. Exchangeable acidity and pedotransfer functions for the soils of Ghana. European Journal of Soil Science 75, e13460. SourceGozukara, G., Hartemink, A.E., Zhang, Y., Huang, J., Dengiz, O., 2024. Soil evolution following the shrinking of Burder Lake in Turkiye. CATENA 237, 107824. Source Stevenson, A., Zhang, Y., Huang, J., Hu, J., Paustian, K., Hartemink, A.E., 2024. Rates of soil organic carbon change in cultivated and afforested sandy soils. Agriculture, Ecosystems & Environment 360, 108785. SourceRawal, A., Hartemink, A.E., Zhang, Y., Wang, Y., Lankau, R.A., Ruark, M.D., 2023. Visible and near-infrared spectroscopy predicted leaf nitrogen contents of potato varieties under different growth and management conditions. Precision Agriculture, 1–20. Source
2023
Zhang, Y., Desai, A.R., Xiao, J., Hartemink, A.E., 2023. Deeper topsoils enhance ecosystem productivity and climate resilience in arid regions, but not in humid regions. Global Change Biology 29, 6794–6811. SourceGozukara, G., Anagun, Y., Isik, S., Zhang, Y., Hartemink, A.E., 2023. Predicting soil EC using spectroscopy and smartphone-based digital images. CATENA 231, 107319. SourceGozukara, G., Hartemink, A.E., Zhang, Y., 2023. Illumination levels affect the prediction of soil organic carbon using smartphone-based digital images. Computers and Electronics in Agriculture 204, 107524. SourceStevenson, A., Hartemink, A.E., Zhang, Y., 2023. Measuring sand content using sedimentation, spectroscopy, and laser diffraction. Geoderma 429, 116268. Source
Zhang, Y., Desai, A.R., Xiao, J., Hartemink, A.E., 2023. Deeper topsoils enhance ecosystem productivity and climate resilience in arid regions, but not in humid regions. Global Change Biology 29, 6794–6811. SourceGozukara, G., Anagun, Y., Isik, S., Zhang, Y., Hartemink, A.E., 2023. Predicting soil EC using spectroscopy and smartphone-based digital images. CATENA 231, 107319. SourceGozukara, G., Hartemink, A.E., Zhang, Y., 2023. Illumination levels affect the prediction of soil organic carbon using smartphone-based digital images. Computers and Electronics in Agriculture 204, 107524. SourceStevenson, A., Hartemink, A.E., Zhang, Y., 2023. Measuring sand content using sedimentation, spectroscopy, and laser diffraction. Geoderma 429, 116268. Source
2022
Zhang, Y., Freedman, Z.B., Hartemink, A.E., Whitman, T., Huang, J., 2022. Characterizing soil microbial properties using MIR spectra across 12 ecoclimatic zones (NEON sites). Geoderma 409, 115647. SourceGozukara, G., Acar, M., Ozlu, E., Dengiz, O., Hartemink, A.E., Zhang, Y., 2022. A soil quality index using Vis-NIR and pXRF spectra of a soil profile. CATENA 211, 105954. SourceZhang, Y., Saurette, D.D., Easher, T.H., Ji, W., Adamchuk, V.I., Biswas, A., 2022. Comparison of sampling designs for calibrating digital soil maps at multiple depths. Pedosphere 32, 588–601. SourceGozukara, G., Zhang, Y., Hartemink, A.E., 2022. Using pXRF and vis-NIR spectra for predicting properties of soils developed in loess. Pedosphere 32, 602–615. Source
Zhang, Y., Freedman, Z.B., Hartemink, A.E., Whitman, T., Huang, J., 2022. Characterizing soil microbial properties using MIR spectra across 12 ecoclimatic zones (NEON sites). Geoderma 409, 115647. SourceGozukara, G., Acar, M., Ozlu, E., Dengiz, O., Hartemink, A.E., Zhang, Y., 2022. A soil quality index using Vis-NIR and pXRF spectra of a soil profile. CATENA 211, 105954. SourceZhang, Y., Saurette, D.D., Easher, T.H., Ji, W., Adamchuk, V.I., Biswas, A., 2022. Comparison of sampling designs for calibrating digital soil maps at multiple depths. Pedosphere 32, 588–601. SourceGozukara, G., Zhang, Y., Hartemink, A.E., 2022. Using pXRF and vis-NIR spectra for predicting properties of soils developed in loess. Pedosphere 32, 602–615. Source
2021
Mancini, M., Silva, A.H.G., Hartemink, A.E., Zhang, Y., Faria, A.J.G., Silva, F.M., Inda, A.V., Demattê, J.A.M., Curi, N., 2021. Formation and variation of a 4.5 m deep Oxisol in southeastern Brazil. CATENA 206, 105492. SourceGozukara, G., Zhang, Y., Hartemink, A.E., Altunbas, S., Sari, M., 2021. Soil chronosequence and biosequence on old lake sediments of Burdur Lake in Turkey. Pedosphere 31, 882–891. SourceGozukara, G., Zhang, Y., Hartemink, A.E., 2021. Using vis-NIR and pXRF data to distinguish soil parent materials – an example using 136 pedons from Wisconsin, USA. Geoderma 396, 115091. SourceGozukara, G., Hartemink, A.E., Zhang, Y., 2021. Soil catena characterization using pXRF and Vis-NIR spectroscopy in northwest Turkey. Eurasian Soil Science 54, S1–S15. SourceKirillova, N.P., Zhang, Y., Hartemink, A.E., Zhulidova, D.A., Artemyeva, Z.S., Khomyakov, D.M., 2021. Calibration methods for measuring the color of moist soils with digital cameras. CATENA 202, 105274. SourceZhang, Y., Hartemink, A.E., 2021. Quantifying short-range variation of soil texture and total carbon at a 330 hectares farm. CATENA 201, 105200. SourceZhang, Y., Hartemink, A.E., Huang, J., 2021. Spectral signatures of soil horizons and soil orders – an exploratory study of 270 soil profiles. Geoderma 389, 114961. SourceChatterjee, S., Hartemink, A.E., Triantafilis, J., Desai, A.R., Soldat, D., Zhu, J., Townsend, P.A., Zhang, Y., Huang, J., 2021. Characterization of field-scale soil variation using a stepwise multi-sensor fusion approach and a cost-benefit analysis. CATENA 201, 105190. SourceZhang, Y., Hartemink, A.E., Huang, J., Townsend, P.A., 2021. Synergistic use of hyperspectral imagery, Sentinel-1, and LiDAR improves mapping of soil physical and geochemical properties at the farm-scale. European Journal of Soil Science 72, 1690–1717. Source
Mancini, M., Silva, A.H.G., Hartemink, A.E., Zhang, Y., Faria, A.J.G., Silva, F.M., Inda, A.V., Demattê, J.A.M., Curi, N., 2021. Formation and variation of a 4.5 m deep Oxisol in southeastern Brazil. CATENA 206, 105492. SourceGozukara, G., Zhang, Y., Hartemink, A.E., Altunbas, S., Sari, M., 2021. Soil chronosequence and biosequence on old lake sediments of Burdur Lake in Turkey. Pedosphere 31, 882–891. SourceGozukara, G., Zhang, Y., Hartemink, A.E., 2021. Using vis-NIR and pXRF data to distinguish soil parent materials – an example using 136 pedons from Wisconsin, USA. Geoderma 396, 115091. SourceGozukara, G., Hartemink, A.E., Zhang, Y., 2021. Soil catena characterization using pXRF and Vis-NIR spectroscopy in northwest Turkey. Eurasian Soil Science 54, S1–S15. SourceKirillova, N.P., Zhang, Y., Hartemink, A.E., Zhulidova, D.A., Artemyeva, Z.S., Khomyakov, D.M., 2021. Calibration methods for measuring the color of moist soils with digital cameras. CATENA 202, 105274. SourceZhang, Y., Hartemink, A.E., 2021. Quantifying short-range variation of soil texture and total carbon at a 330 hectares farm. CATENA 201, 105200. SourceZhang, Y., Hartemink, A.E., Huang, J., 2021. Spectral signatures of soil horizons and soil orders – an exploratory study of 270 soil profiles. Geoderma 389, 114961. SourceChatterjee, S., Hartemink, A.E., Triantafilis, J., Desai, A.R., Soldat, D., Zhu, J., Townsend, P.A., Zhang, Y., Huang, J., 2021. Characterization of field-scale soil variation using a stepwise multi-sensor fusion approach and a cost-benefit analysis. CATENA 201, 105190. SourceZhang, Y., Hartemink, A.E., Huang, J., Townsend, P.A., 2021. Synergistic use of hyperspectral imagery, Sentinel-1, and LiDAR improves mapping of soil physical and geochemical properties at the farm-scale. European Journal of Soil Science 72, 1690–1717. Source
2020
Huang, J., Desai, A.R., Zhu, J., Hartemink, A.E., Stoy, P., Loheide II, S. P., Bogena, H.R, Zhang, Y., Zhang, Z., Arriaga, F.J., 2020. Retrieving heterogeneous surface soil moisture at 100 m across the globe via fusion of remote sensing and land surface parameters. Frontiers in Water 2, 578367. SourceLal, R., Brevik, E.C., Dawson, L., Field, D., Glaser, B., Hartemink, A.E., Hatano, R., Lascelles, B., Monger, C., Scholten, T., Singh, B.R., Spiegel, H., Terribile, F., Basile, A., Zhang, Y., Horn, R., Kosaki, T., Sánchez, L.B.R., 2020. Managing soils for recovering from the COVID-19 pandemic. Soil Systems 4, 46. SourceZhang, Y., Ji, W., Saurette, D.D., Easher, T.H., Li, H., Shi, Z., Adamchuk, V.I., Biswas, A., 2020. Three-dimensional digital soil mapping of multiple soil properties at a field-scale using regression kriging. Geoderma 366, 114253. SourceSimon, T., Zhang, Y., Hartemink, A.E., Huang, J., Walter, C., Yost, J., 2020. Predicting the color of sandy soils from Wisconsin, USA. Geoderma 361, 114039. SourceHartemink, A.E., Zhang, Y., Bockheim, J.G., Curi, N., Silva, S.H.G., Grauer-Gray, J., Lowe, D., Krasilnikov, P., 2020. Soil horizon variation: A review. Advances in Agronomy 160, 125–185. SourceZhang, Y., Hartemink, A.E., 2020. Data fusion of vis-NIR and PXRF spectra to predict soil physical and chemical properties. European Journal of Soil Science 71, 316–333. Source
Huang, J., Desai, A.R., Zhu, J., Hartemink, A.E., Stoy, P., Loheide II, S. P., Bogena, H.R, Zhang, Y., Zhang, Z., Arriaga, F.J., 2020. Retrieving heterogeneous surface soil moisture at 100 m across the globe via fusion of remote sensing and land surface parameters. Frontiers in Water 2, 578367. SourceLal, R., Brevik, E.C., Dawson, L., Field, D., Glaser, B., Hartemink, A.E., Hatano, R., Lascelles, B., Monger, C., Scholten, T., Singh, B.R., Spiegel, H., Terribile, F., Basile, A., Zhang, Y., Horn, R., Kosaki, T., Sánchez, L.B.R., 2020. Managing soils for recovering from the COVID-19 pandemic. Soil Systems 4, 46. SourceZhang, Y., Ji, W., Saurette, D.D., Easher, T.H., Li, H., Shi, Z., Adamchuk, V.I., Biswas, A., 2020. Three-dimensional digital soil mapping of multiple soil properties at a field-scale using regression kriging. Geoderma 366, 114253. SourceSimon, T., Zhang, Y., Hartemink, A.E., Huang, J., Walter, C., Yost, J., 2020. Predicting the color of sandy soils from Wisconsin, USA. Geoderma 361, 114039. SourceHartemink, A.E., Zhang, Y., Bockheim, J.G., Curi, N., Silva, S.H.G., Grauer-Gray, J., Lowe, D., Krasilnikov, P., 2020. Soil horizon variation: A review. Advances in Agronomy 160, 125–185. SourceZhang, Y., Hartemink, A.E., 2020. Data fusion of vis-NIR and PXRF spectra to predict soil physical and chemical properties. European Journal of Soil Science 71, 316–333. Source
2019
Huang, J., Hartemink, A.E., Zhang, Y., 2019. Climate and land use change effects on soil carbon stocks over 150 years in Wisconsin, USA. Remote Sensing 11, 1504. SourceZhang, Y., Hartemink, A.E., Huang, J., 2019. Quantifying coarse fragments in soil samples using a digital camera. Eurasian Soil Science 52, 954−962. SourceZhang, Y., Hartemink, A.E., 2019. Soil horizon delineation using vis-NIR and pXRF data. CATENA 180, 298−308. SourceZhang, Y., Hartemink, A.E., 2019. A method for automated soil horizon delineation using digital images. Geoderma 343, 97−115. SourceZhang, Y., Hartemink, A.E., 2019. Digital mapping of a soil profile. European Journal of Soil Science 70, 27−41. Source
Huang, J., Hartemink, A.E., Zhang, Y., 2019. Climate and land use change effects on soil carbon stocks over 150 years in Wisconsin, USA. Remote Sensing 11, 1504. SourceZhang, Y., Hartemink, A.E., Huang, J., 2019. Quantifying coarse fragments in soil samples using a digital camera. Eurasian Soil Science 52, 954−962. SourceZhang, Y., Hartemink, A.E., 2019. Soil horizon delineation using vis-NIR and pXRF data. CATENA 180, 298−308. SourceZhang, Y., Hartemink, A.E., 2019. A method for automated soil horizon delineation using digital images. Geoderma 343, 97−115. SourceZhang, Y., Hartemink, A.E., 2019. Digital mapping of a soil profile. European Journal of Soil Science 70, 27−41. Source
2018
Biswas, A., Zhang, Y., 2018. Sampling for validating digital soil maps: a review. Pedosphere 28, 1−15. Source
Biswas, A., Zhang, Y., 2018. Sampling for validating digital soil maps: a review. Pedosphere 28, 1−15. Source
2017
Zhang, Y., Hartemink, A.E., 2017. Sampling designs for soil organic carbon stock assessment of soil profiles. Geoderma 307, 220−230. SourceZhang, Y., Biswas, A., Ji, W., Adamchuk, V.I., 2017. Depth-specific prediction of soil properties in-situ using vis-NIR spectroscopy. Soil Science Society of America Journal 81, 993−1004. SourceZhang, Y., Biswas, A., Adamchuk, V.I., 2017. Implementation of a sigmoid depth function to describe change of soil pH with depth. Geoderma 289, 1–10. Source
Zhang, Y., Hartemink, A.E., 2017. Sampling designs for soil organic carbon stock assessment of soil profiles. Geoderma 307, 220−230. SourceZhang, Y., Biswas, A., Ji, W., Adamchuk, V.I., 2017. Depth-specific prediction of soil properties in-situ using vis-NIR spectroscopy. Soil Science Society of America Journal 81, 993−1004. SourceZhang, Y., Biswas, A., Adamchuk, V.I., 2017. Implementation of a sigmoid depth function to describe change of soil pH with depth. Geoderma 289, 1–10. Source
2016
Ji, W., Adamchuk, V.I., Biswas, A., Dhawale, N.M., Sudarsan, B., Zhang, Y., Viscarra Rossel, R.A., Shi, Z., 2016. Assessment of soil properties in-situ using a prototype portable MIR spectrometer in two agricultural fields. Biosystems Engineering 152, 14−27. Source
Ji, W., Adamchuk, V.I., Biswas, A., Dhawale, N.M., Sudarsan, B., Zhang, Y., Viscarra Rossel, R.A., Shi, Z., 2016. Assessment of soil properties in-situ using a prototype portable MIR spectrometer in two agricultural fields. Biosystems Engineering 152, 14−27. Source
Book chapters
Book chapters
2022
Zhang, Y., Hartemink, A.E., Huang, J., Minasny, B., 2022. Digital Soil Morphometrics. In Encyclopedia of Soils in the Environment, Second Edition. Source
Zhang, Y., Hartemink, A.E., Huang, J., Minasny, B., 2022. Digital Soil Morphometrics. In Encyclopedia of Soils in the Environment, Second Edition. Source
2017
Zhang, Y., Biswas, A., 2017. The effects of forest fire on soil organic matter and nutrients in boreal forests of North America: a review. In: Rakshit, A. et al. (Eds.), Adaptive Soil Management: From Theory to Practices. Springer Singapore, Singapore, pp. 465−476. Source
Zhang, Y., Biswas, A., 2017. The effects of forest fire on soil organic matter and nutrients in boreal forests of North America: a review. In: Rakshit, A. et al. (Eds.), Adaptive Soil Management: From Theory to Practices. Springer Singapore, Singapore, pp. 465−476. Source
Non-refereed articles
Non-refereed articles
2019
Fischer, S., Hartemink, A.E., Zhang, Y., Yost, J.L., 2019. Soil moisture effects on portable X-ray fluorescence spectroscopy and visible-near infrared spectroscopy measurements. Journal of Undergraduate Science and Technology (JUST) at University of Wisconsin-Madison 4, 23−29.
Fischer, S., Hartemink, A.E., Zhang, Y., Yost, J.L., 2019. Soil moisture effects on portable X-ray fluorescence spectroscopy and visible-near infrared spectroscopy measurements. Journal of Undergraduate Science and Technology (JUST) at University of Wisconsin-Madison 4, 23−29.
Newsletters
Newsletters
2018
Zhang, Y., 2018. Conference reports on 21st World Congress of Soil Science. Pedometron 43, 14 – 15.
Zhang, Y., 2018. Conference reports on 21st World Congress of Soil Science. Pedometron 43, 14 – 15.