MAMMOTH-Grism: Revisiting the Mass-Metallicity Relation in Protocluster Environments at Cosmic Noon
Abstract
We present one of the first measurements of the mass-metallicity relation (MZR) in multiple massive protoclusters at cosmic noon, using Hubble Space Telescope (HST) G141 slitless spectroscopy from the MAMMOTH-Grism survey. We identify 63 protocluster member galaxies across three overdense structures at z = 2-3 with robust detections of [OIII], Hβ, and [OII] emission. The sample spans gas-phase metallicities of 12 + (O/H) = 8.2-8.6, dust-corrected Hβ-based star formation rates (SFRs) of 10-250\,M\,yr-1, and stellar masses of M 109.4-1010.5\,M, derived via spectral energy distribution fitting using deep HST and ground-based photometry. We stack spectra in five M bins to obtain average metallicities and SFRs. Relative to field galaxies at similar redshifts, protocluster members show elevated SFRs at M < 1010.25\,M and a systematically shallower MZR: 12 + (O/H) = (6.96 0.13) + (0.143 0.017) × (M/M). We detect a mass-dependent environmental offset: massive protocluster galaxies are metal-poor compared to field counterparts of similar mass, whereas lower-mass systems exhibit comparable or mildly enhanced metallicities. This trend is consistent with a scenario where cold-mode accretion dilutes the interstellar medium (ISM) across the full mass range, while efficient recycling of feedback-driven outflows preferentially enriches the ISM in low-mass galaxies. Finally, we assess the dependence of metallicity offsets on local overdensity and find no significant trend, likely reflecting the survey's bias toward protocluster cores.
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