NEW 2017: HESS 2017
Andreasen, M., K.H. Jensen, D. Desilets, M. Zreda, H.R. Bogena, and M.C. Looms, 2017. Cosmic-ray neutron transport at a forest field site: the sensitivity to various environmental conditions with focus on biomass and canopy interception. Hydrology and Earth System Science 21, 1875-1894.
NEW 2017: RS 2017:
Montzka, C., H.R. Bogena, M. Zreda, A. Monerris, R. Morrison, S. Muddu and H. Vereecken, 2017. Validation of spaceborne and modelled surface soil moisture products with cosmic-ray neutron probes. Remote Sensing 9, p. 103- (30 pp.).
NEW 2017: RSE 2017:
Chan, S., R. Bindlish, P. O'Neill, T. Jackson, E. Njoku, S. Dunbar, J. Chaubell, J. Piepmeier, S. Yueh, D. Entekhabi, A. Colliander, F. Chen, M. Cosh, T. Caldwell, J. Walker, A. Berg, H. McNairn, M. Thibeault, J. Martínez-Fernández, F. Uldall, M. Seyfried, D. Bosch, P. Starks, C. Holifield-Collins, J. Prueger, R.v.d. Velde, J. Asanuma, M. Palecki, E. Small, M. Zreda, J.-C. Calvet, W. Crow, and Y. Kerr, 2017. Development and assessment of SMAP enhanced passive soil moisture product. Remote Sensing of Environment. doi: 10.1016/j.rse.2017.08.025.
NASA-JPL 2016:
Jackson, T., P. O'Neill, S.K. Chan, R. Bindlish, A. Colliander, F. Chen, S. Dunbar, J. Piepmeier, M. Cosh, T. Caldwell, J. Walker, X. Wu, A. Berg, T. Rowlandson, A. Pacheco, H. McNairn, M. Thibeault, J. Martinez-Fernandez, A. Gonzalez-Zamora, E. Lopez-Baeza, F. Uldall, M. Seyfried, D. Bosch, P. Starks, C. Holifield-Collins, J. Prueger, Z. Su, R.v.d. Velde, J. Asanuma, M. Palecki, E. Small, M. Zreda, J. Calvet, W. Crow, Y. Kerr, S. Yueh, and D. Entekhabi, 2016, Soil Moisture Active Passive (SMAP) Project: Calibration and Validation for the L2/3_SM_P Version 4 and L2/3_SM_P_E Version 1 Data Products, Pasadena, NASA-JPL. Report number JPL D-56297.
IEEE 2016:
Chan, S.K., R. Bindlish, P.E. O’Neil, E. Njoku, T. Jackson, A. Colliander, F. Chen, M. Burgin, S. Dunbar, J. Piepmeier, S. Yueh, D. Entekhabi, M.H. Cosh, T. Caldwell, J. Walker, X. Wu, A. Berg, T. Rowlandson, A. Pacheco, H. McNairn, M. Thibeault, J. Martínez-Fernández, Á. González-Zamora, M. Seyfried, D. Bosch, P. Starks, D. Goodrich, J. Prueger, M. Palecki, E.E. Small, M. Zreda, J.-C. Calvet, W.T. Crow, and Y. Kerr, 2016. Assessment of the SMAP passive soil moisture product. IEEE Transactions on Geoscience and Remote Sensing 54, 4994-5007.
Computer Ethics 2016:
Walker, J.P., G. Dumedah, A. Monerris, Y. Gao, C. Rudiger, X. Wu, R. Panciera, O. Merlin, R. Pipunic, D. Ryu, and M. Zreda, 2016, High resolution soil moisture mapping, in D. G. Ahmad Zaki Bin Abu Bakar, John Impagliazzo, and Keith W. Miller, ed., Computing Ethics: A Multicultural Approach, Taylor & Francis, p. 45.
NASA 2016:
O’Neill, P., S. Chan, A. Colliander, S. Dunbar, E. Njoku, R. Bindlish, F. Chen, T. Jackson, M. Burgin, J. Piepmeier, S. Yueh, D. Entekhabi, M. Cosh, T. Caldwell, J. Walker, X. Wu, A. Berg, T. Rowlandson, A. Pacheco, H. McNairn, M. Thibeault, J. Martínez-Fernández, Á. González-Zamora, M. Seyfried, D. Bosch, P. Starks, D. Goodrich, J. Prueger, M. Palecki, E. Small, M. Zreda, J.-C. Calvet, W. Crow, and Y. Kerr, 2016, Evaluation of the validated soil moisture product from the SMAP radiometer, Greenbelt, MD, USA, NASA Goddard Space Flight Center. Report number GSFC-E-DAA-TN32631.
CILSA 2016:
Chodyka, M., J. Nitychoruk, M. Zreda, T. Grudniewski, and Z. Lubanska, 2016. Innowacyjna metoda pomiaru wilgotnosci gleby z zastosowaniem neutronow kosmicznych; trzy lata funkcjonowania czujnika na poludniowym Podlasiu [An innovative method of measuring soil moisture using cosmic-ray neutrons: three years of work of the sensor in southern Podlasie]. Czasopismo Inzynierii Ladowej, Srodowiska i Architektury [Journal of Civil Engineering, Environment and Architecture] 33, 51-58.
WRR 2016:
Andreasen, M., K.H. Jensen, M. Zreda, D. Desilets, H. Bogena, and M.C. Looms, 2016. Modeling cosmic-ray neutron field measurements. Water Resources Research 52, 6451-6471.
VZJ 2016:
Cosh, M.H., T.E. Ochsner, L. McKee, J. Dong, J.B. Basara, S.R. Evett, C.E. Hatch, E.E. Small, S.C. Steele-Dunne, M. Zreda, and C. Sayde, 2016. The Soil Moisture Active Passive Marena, Oklahoma, In Situ Sensor Testbed (SMAP-MOISST): Testbed Design and Evaluation of In Situ Sensors. Vadose Zone Journal 15, doi: 10.2136/vzj2015.09.0122.
COSMOS Workshop 2016:
Presentations from the 5th COSMOS Workshop, Copenhagen, Denmark, 22-24 August 2016.
WRR 2016:
Andreasen, M., K.H. Jensen, M. Zreda, D. Desilets, H. Bogena and M.C. Looms, 2016. Modeling cosmic-ray neutron field measurements. Water Resources Research 8, 6451-6471.
JJSSP 2016:
Zreda, M., 2016. Land-surface hydrology with cosmic-ray neutrons: principles and applications. Journal of the Japanese Society of Soil Physics 132, 25-30.
WRR 2015:
Koehli, M., M. Schroen, M. Zreda, U. Schmidt, P. Dietrich, and S. Zacharias, 2015. Footprint characteristics revised for field-scale soil moisture monitoring with cosmic-ray neutrons. Water Resources Research 51, 5772–5790.
PG 2015:
Zreda, M., J. Nitychoruk, M. Chodyka, K. Swierczewska-Pietras and L. Zbucki, 2015. Nowa metoda pomiaru wilgotnosci gleby z wykorzystaniem neutronów kosmogenicznych. Przeglad Geologiczny [Geological Review] 63, 239–246.
HESS 2014:
Rosolem, R., T. Hoar, A. Arellano, J.L. Anderson, W.J. Shuttleworth, X. Zeng, and T.E. Franz, 2014. Translating aboveground cosmic-ray neutron intensity to high-frequency soil moisture profiles at sub-kilometer scale. Hydrology and Earth System Sciences 18, 4363-4379.
ERS 2014:
Desilets, D., and M. Zreda, 2014: Cosmic-ray hydrometrology: Measuring soil moisture with cosmic-ray neutrons, in E. Njoku, ed., Encyclopedia of Remote Sensing: Springer Reference, Berlin Heidelberg, Springer-Verlag.
VZJ 2014:
Dong, J., T.E. Ochsner, M. Zreda, M.H. Cosh, and C.B. Zou, 2014: Calibration and validation of the COSMOS rover for surface soil moisture measurement, Vadoze Zone Journal (accepted), doi:.
HESS 2013:
Chrisman, B. and M. Zreda, 2013: Quantifying mesoscale soil moisture with the cosmic-ray rover, Hydrology and Earth System Science 17, 5097-5108, doi:10.5194/hess-17-5097-2013.
WRR 2013:
Franz, T.E., M. Zreda, T.P.A. Ferre, and R. Rosolem, 2013. An assessment of the effect of horizontal soil moisture heterogeneity on the area-average measurement of cosmic-ray neutrons. Water Resources Research 49, doi: 10.1002/wrcr.20530, 2013.
SSSAJ 2013:
Ochsner, T.E., M.H. Cosh, R.H. Cuenca, W.A. Dorigo, C.S. Draper, Y. Hagimoto, Y.H. Kerr, E.G. Njoku, E.E. Small, and M. Zreda, 2013. State of the art in large-scale soil moisture monitoring. Soil Science Society of America Journal, doi: 10.2136/sssaj2013.03.0093.
JHM 2013:
(wordle abstract, 168 kB)
Rosolem, R., W.J. Shuttleworth, M. Zreda, T.E. Franz, X. Zeng and S.A. Kurc, 2013. The effect of atmospheric water vapor on neutron count in the Cosmic-Ray Soil Moisture Observing System. Journal of Hydrometeorology 14, 1659–1671, doi: 10.1175/JHM-D-12-0120.1.
EPSL 2013:
(wordle abstract, 145 kB)
Zweck, C., M. Zreda, and D. Desilets, 2013. Snow shielding factors for cosmogenic nuclide dating inferred from Monte Carlo neutron transport simulations. Earth and Planetary Science Letters 379, 64-71, doi: 10.1016/j.epsl.2013.07.023.
GRL 2013:
(wordle paper, 195 kB)
Franz, T.E., M. Zreda, R. Rosolem, B.K. Hornbuckle, S.L. Irvin, H. Adams, T.E. Kolb, C. Zweck, and W.J. Shuttleworth, 2013. Ecosystem scale measurements of biomass water using cosmic-ray neutrons. Geophysical Research Letters, Accepted article, doi: 10.1002/grl.50791.
WRR 2013:
Desilets, D., and M. Zreda, 2013. Footprint diameter for a cosmic-ray soil moisture probe: Theory and Monte Carlo simulations. Water Resources Research, Accepted article, doi: 10.1029/wrcr.20187, 2013.
HESSD 2013:
Chrisman, B. and M. Zreda. Quantifying mesoscale soil moisture with the cosmic-ray rover, Hydrology and Earth System Sciences Discussions 10, 7127-7160, doi: 10.5194/hessd-10-7127-2013.
HESSD 2013:
Shuttleworth, J., R. Rosolem, M. Zreda, and T. Franz, 2013. The COsmic-ray Soil Moisture Interaction Code (COSMIC) for use in data assimilation. Hydrology and Earth System Sciences Discussions 10, 1097-1125.
..........Software: COsmic-ray Soil Moisture Interaction Code (COSMIC)
HESS 2013:
Franz, T.E, M. Zreda, R. Rosolem and T.P.A. Ferre, 2013. A universal calibration function for determination of soil moisture with cosmic-ray neutrons, Hydrology and Earth System Sciences 17, 453-460, doi: 10.5194/hess-17-453-2013.
HESS 2012:
(wordle paper, 195 kB)
Zreda, M., W.J. Shuttleworth, X. Zeng, C. Zweck, D. Desilets, T. Franz and R. Rosolem, 2012. COSMOS: The COsmic-ray Soil Moisture Observing System. Hydrology and Earth System Science 16, 4079-4099, doi:10.5194/hess-16-1-2012.
WRR 2012:
Franz, T.E, M. Zreda, T.P.A. Ferre, R. Rosolem, C. Zweck, S. Stillman, X. Zeng and W.J. Shuttleworth. 2012, Measurement depth of the cosmic-ray soil moisture probe affected by hydrogen from various sources, Water Resources Research 48, W08515, doi:10.1029/2012WR011871.
VZJ 2012:
Franz, T.E, M. Zreda, R. Rosolem, T.P.A. Ferre, 2012. Field validation of cosmic-ray soil moisture probe using a distributed sensor network, Vadose Zone Journal (in press), doi:10.2136/vzj2012.0046.
CRC 2012:
Walker, J.P., G. Dumedah, A. Monerris, Y. Gao, C. Rudiger, X. Wu, R. Panciera, O. Merlin, R. Pipunic, D. Ryu, M. Zreda, 2012. High resolution soil moisture mapping. In: B. Minasny, B.P. Malone, A.B. McBratney (Editor), Digital Soil Assessments and Beyond. CRC Press, pp. 45-51.
IGARSS 2012:
Hornbuckle, B., S. Irvin, T. Franz, R. Rosolem, and C. Zweck, 2012. The potential of the COSMOS network to be a source of new soil moisture information for SMOS and SMAP, Proc. IEEE Intl. Geosci. Remote Sens. Symp., 1243-1246, Munich, Germany.
GEWEX 2011:
(wordle paper, 170 kB)
Zreda, M., X. Zeng, J. Shuttleworth, C. Zweck, T. Ferre, T. Franz, R. Rosolem, D. Desilets, S. Desilets and G. Womack, 2011, Cosmic-Ray Neutrons, An Innovative Method for Measuring Area-Average Soil Moisture. GEWEX News, 21(3), 6-10.
WRR 2010:
(wordle abstract, 209 kB)
Desilets, D., M. Zreda and T. Ferre, 2010, Nature's neutron probe: Land-surface hydrology at an elusive scale with cosmic rays. Water Resources Research 46, W011505, doi:10.1029/2009WR008726.
BHS 2010:
(wordle abstract, 126 kB)
Shuttleworth, W.J., Zreda, M., Zeng, X., Zweck, C., and Ferre, P.A. (2010) The COsmic-ray Soil Moisture Observing System (COSMOS): a non-invasive, intermediate scale soil moisture measurement network. Proceedings of the British Hydrological Society's Third International Symposium: 'Role of hydrology in managing consequences of a changing global environment', Newcastle University, 19-23 July 2010. ISBN: 1 903741 17 3.
GRL 2008:
(wordle abstract, 167 kB)
Zreda, M., D. Desilets, T.P.A. Ferre and R.L. Scott, 2008, Measuring soil moisture content non-invasively at intermediate spatial scale using cosmic-ray neutrons. Geophysical Research Letters 35, L21402, doi:10.1029/2008GL035655.
Selected publications not co-authored by COSMOS project members