The following publications are possibly variants of this publication:
- Effect of Emission From the Moon on Remote Sensing of Sea Surface Salinity: An Example With the Aquarius RadiometerEmmanuel P. Dinnat, Saji Abraham, David M. Le Vine, Paolo de Matthaeis, S. Daniel Jacob. lgrs, 6(2):239-243, 2009. [doi]
- Aquarius: An Instrument to Monitor Sea Surface Salinity From SpaceDavid M. Le Vine, Gary S. E. Lagerloef, Fernando Raúl Colomb, Simon Yueh, Fernando A. Pellerano. tgrs, 45(7-1):2040-2050, 2007. [doi]
- The Multifrequency Future for Remote Sensing of Sea Surface Salinity from SpaceDavid M. Le Vine, Emmanuel P. Dinnat. remotesensing, 12(9):1381, 2020. [doi]
- Impact of the Sun on remote sensing of sea surface salinity from spaceDavid M. Le Vine, Saji Abraham, Frank Wentz, Gary S. E. Lagerloef. igarss 2005: 4 [doi]
- Assessment of Aquarius Sea Surface SalinityHsun-Ying Kao, Gary S. E. Lagerloef, Tong Lee, Oleg Melnichenko, Thomas Meissner, Peter Hacker. remotesensing, 10(9):1341, 2018. [doi]
- The effect of the ionosphere on remote sensing of sea surface salinity from space: absorption and emission at L bandDavid M. Le Vine, Saji Abraham. tgrs, 40(4):771-782, 2002. [doi]
- Sea Surface Salinity Retrievals from Aquarius Using Neural NetworksYan Soldo, David M. Le Vine, Emmanuel P. Dinnat. igarss 2019: 8143-8146 [doi]
- Sun glint and sea surface salinity remote sensingEmmanuel P. Dinnat, Paolo de Matthaeis, David M. Le Vine. igarss 2007: 1334-1337 [doi]