Follow
Jingnuo Dong
Jingnuo Dong
Other namesGeano Dong
Formation Environmental, LLC
Verified email at formationenv.com
Title
Cited by
Cited by
Year
Calibration and validation of the COSMOS rover for surface soil moisture measurement
J Dong, TE Ochsner, M Zreda, MH Cosh, CB Zou
Vadose zone journal 13 (4), 1-8, 2014
862014
The soil moisture active passive Marena, Oklahoma, in situ sensor testbed (smap‐moisst): Testbed design and evaluation of in situ sensors
MH Cosh, TE Ochsner, L McKee, J Dong, JB Basara, SR Evett, CE Hatch, ...
Vadose Zone Journal 15 (4), 1-11, 2016
832016
Validation of GPS-IR soil moisture retrievals: Comparison of different algorithms to remove vegetation effects
EE Small, KM Larson, CC Chew, J Dong, TE Ochsner
IEEE Journal of Selected Topics in Applied Earth Observations and Remote …, 2016
822016
Soil texture often exerts a stronger influence than precipitation on mesoscale soil moisture patterns
J Dong, TE Ochsner
Water Resources Research 54 (3), 2199-2211, 2018
682018
Mesoscale soil moisture patterns revealed using a sparse in situ network and regression kriging
TE Ochsner, E Linde, M Haffner, J Dong
Water Resources Research 55 (6), 4785-4800, 2019
272019
Upscaling soil moisture from point scale to field scale: Toward a general model
WG Brown, MH Cosh, J Dong, TE Ochsner
Vadose Zone Journal 22 (2), e20244, 2023
72023
Modeling graphene oxide transport and retention in biochar
MS Hasan, J Dong, V Gadhamshetty, M Geza
Journal of Contaminant Hydrology 248, 104014, 2022
12022
Upscaling in-Situ Soil Moisture Sensors at the Marena, Oklahoma in-Situ Sensor Testbed (MOISST) Using a Cosmic Ray Neutron Rover
TE Ochsner, M Cosh, J Dong
ASA, CSSA, SSSA International Annual Meeting, 2021
2021
Reply to Comment by Jakobi et al.(2020) on “Soil Texture Often Exerts a Stronger Influence Than Precipitation on Mesoscale Soil Moisture Patterns”
J Dong, TE Ochsner
Water resources research 57 (2), e2020WR028756, 2021
2021
Information measures of land-carbon source-sink dynamics
Y Liu, J Dong, A Jurgens, A Kraay, K Ogle, CR Schwalm, S Stopnitzky, ...
AGU Fall Meeting Abstracts 2018, IN24A-06, 2018
2018
Upscaling of in situ soil moisture measurements based on phase space analysis
J Dong, TE Ochsner, MH Cosh
AGU Fall Meeting Abstracts 2018, NG43A-0965, 2018
2018
Random and systematic errors in mixed sensor networks
MH Cosh, EJ Coopersmith, TE Ochsner, L McKee, J Dong
AGU Fall Meeting Abstracts 2018, H53J-1720, 2018
2018
Soil moisture monitoring with long term in situ sensors: Lessons from MOISST.
MH Cosh, TE Ochsner, L McKee, EJ Coopersmith, J Dong, EE Small, ...
AGU Fall Meeting Abstracts 2017, H51E-1310, 2017
2017
Primary Drivers of Meso-Scale Soil Moisture Variability: A Cosmic-Ray Neutron Rover Study.
J Dong, TE Ochsner
ASA, CSSA and SSSA International Annual (2017), 2017
2017
Long Term Time Series Analysis of Co-Incident Soil Water Content Sensor at the Marena Oklahoma in Situ Sensor Testbed.
MH Cosh, T Ochsner, L McKee, E Coopersmith, G Dong, SR Evett, ...
ASA, CSSA and SSSA International Annual (2017), 2017
2017
Test of Taylor's Hypothesis with Distributed Temperature
Y Cheng, P Gentine, C Sayde, E Tanner, TE Ochsner, J Dong
AGU Fall Meeting Abstracts 2016, A23B-0199, 2016
2016
Soil moisture spatial patterns at three different scales explored using three different soil moisture measurement devices
J Dong, TE Ochsner
AGU Fall Meeting Abstracts 2016, H31D-1418, 2016
2016
The Soil Moisture Active Passive Marena, Oklahoma, In Situ Sensor Testbed (SMAP-MOISST): Testbed Design and Evaluation of In Situ Sensors
M Zreda, MH Cosh, TE Ochsner, L McKee, J Dong, JB Basara, SR Evett, ...
Soil Sci Soc Amer, 2016
2016
Developing an Operational System for Daily 800-m Resolution Soil Moisture Estimates across Oklahoma
TE Ochsner, JC Patton, J Dong, A Patrignani, M Haffner
AGU Fall Meeting Abstracts 2015, H13K-1734, 2015
2015
An Approach to Revealing Meso-Scale Spatial Patterns of Soil Moisture.
J Dong, J Patton, TE Ochsner
ASA, CSSA and SSSA International Annual Meetings (2015), 2015
2015
The system can't perform the operation now. Try again later.
Articles 1–20