For, Bi-QingStaveley-Smith, ListerWestmeier, T.Whiting, M.T.Oh, S HKoribalski, Baerbel SWang, JWong, O.IBekiaris, GCortese, LJerjen, Helmut2022-05-262022-05-260035-8711http://hdl.handle.net/1885/266365We present an HI study of the galaxy group LGG 351 usingWidefield ASKAP L-band Legacy All-sky Blind Survey (WALLABY) early science data observed with the Australian Square Kilometre Array Pathfinder (ASKAP). LGG 351 resides behind the M 83 group at a velocity range (cz) of similar to 3500-4800 km s(-1) within the rich Hydra-Centaurus overdensity region. We detect 40 sources with the discovery of a tidally interacting galaxy pair and two new H I sources that are not presented in previous optical catalogues. 23 out of 40 sources have new redshifts derived from the new H I data. This study is the largest WALLABY sub-sample to date and also allows us to further validate the performance of ASKAP and the data reduction pipeline ASKAPSOFT. Extended H I emission is seen in six galaxies indicating interaction within the group, although no HI debris is found. We also detect HI in a known ultra-faint dwarf galaxy (dw 1328-29), which demonstrates that it is not a satellite of the M 83 group as previously thought. In conjunction with multiwavelength data, we find that our galaxies follow the atomic gas fraction and baryonic Tully-Fisher scaling relations derived from the GALEX Arecibo SDSS Survey. In addition, majority of our galaxies fall within the star formationmain sequence indicating inefficiency of gas removal processes in this loose galaxy group.application/pdfen-AU© 2019 The Author(s) Published by Oxford University Press on behalf of the Royal Astronomical Societyinstrumentation: interferometergalaxies: distances and redshiftsgalaxies: groups: generalgalaxies: interactionsgalaxies: star formation201910.1093/mnras/stz25012020-12-27