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Dragone NB, Childress MK, Vanderburgh C, et al. A comprehensive survey of soil microbial diversity across the Antarctic continent. Polar Biology. 2025;48(2). doi:10.1007/s00300-025-03372-y.\par \par Novis PM, Monks A, Hunt JE, et al. Inference from eDNA-based field distributions vs laboratory analysis of isolated strains: Physiological performance of non-marine Antarctic biota. Polar Biology. 2025;48(1):36. doi:10.1007/s00300-025-03356-y.\par \par Snyder MD, Adams BJ, Borgmeier A, et al. Soil biota sensitivity to hydroclimate variability in a polar desert ecosystem. Arctic, Antarctic, and Alpine Research. 2025;57(1). doi:10.1080/15230430.2025.2485283.\par \par Childress MK, Dragone NB, Young BD, Adams BJ, Fierer N, C. Quandt A. Three new Pseudogymnoascus species (\i Pseudeurotiaceae\i0 , \i Thelebolales\i0 ) described from Antarctic soils. IMA Fungus. 2025;16. doi:10.3897/imafungus.16.142219.\par \par Xue X, Thompson AR, Adams BJ. An Antarctic worm and its soil ecosystem: A review of an emerging research program in ecological genomics. Applied Soil Ecology. 2024;193:105110. doi:10.1016/j.apsoil.2023.105110.\par \par Barrett JE, Adams BJ, Doran PT, et al. Response of a terrestrial polar ecosystem to the March 2022 Antarctic weather anomaly. Earth's Future. 2024;12(8):e2023EF004306. doi:10.1029/2023EF004306.\par \par Jorna J, Adams BJ, Aanderud ZT, Frandsen PB, Takacs-Vesbach CD, K\'e9fi S. The underground network: Facilitation in soil bacteria. Oikos. 2024. doi:10.1111/oik.10299.\par \par Salvatore MR, Barrett JE, Fackrell LE, et al. The distribution of surface soil moisture over space and time in eastern Taylor Valley, Antarctica. Remote Sensing. 2023;15(12):3170. doi:10.3390/rs15123170.\par \par Robinson CMichael, Hansen LD, Xue X, Adams BJ. Temperature response of metabolic activity of an Antarctic nematode. Biology. 2023;12(1):109. doi:10.3390/biology12010109.\par \par Schulte NO, Khan AL, Smith EW, et al. Blowin? in the wind: Dispersal, structure, and metacommunity dynamics of aeolian diatoms in the McMurdo Sound region, Antarctica. Journal of Phycology. 2022;58(1):36-54. doi:10.1111/jpy.13223.\par \par Xue X, Adams BJ, Dilman AR. A draft mitogenome of \i Plectus murrayi\i0 . Journal of Nematology. 2022;54(1). doi:10.2478/jofnem-2022-0035.\par \par Jackson AC. Effect of climate history on the genetic structure of an Antarctic soil nematode. Adams BJ. Biology. 2022;MS. Available at: http://hdl.lib.byu.edu/1877/etd12622.\par \par Jackson AC, Jorna J, Chaston J, Adams BJ. Glacial legacies: Microbial communities of Antarctic refugia. Biology. 2022;11(10):1440. doi:10.3390/biology11101440.\par \par Gutt J, Isla E, Xavier JC, et al. Ten scientific messages on risks and opportunities for life in the Antarctic. Antarctic Environments Portal; 2022. Available at: https://environments.aq/publications/ten-scientific-messages-on-risks-and-opportunities-for-life-in-the-antarctic/.\par \par Gutt J, Isla E, Xavier JC, et al. Antarctic ecosystems in transition ? life between stresses and opportunities. Biological Reviews. 2021. doi:10.1111/brv.12679.\par \par Dragone NB, Diaz MA, Hogg ID, et al. Exploring the boundaries of microbial habitability in soil. Journal of Geophysical Research: Biogeosciences. 2021;126(6). doi:10.1029/2020JG006052.\par \par Diaz MA, Gardner CB, Welch SA, et al. Geochemical zones and environmental gradients for soils from the central Transantarctic Mountains, Antarctica. Biogeosciences. 2021;18(5):1629 - 1644. doi:10.5194/bg-18-1629-2021.\par \par Thompson AR, Roth-Monz\'f3n AJ, Aanderud ZT, Adams BJ. Phagotrophic protists and their associates: Evidence for preferential grazing in an abiotically driven soil ecosystem. Microorganisms. 2021;9(8):1555. doi:10.3390/microorganisms9081555.\par \par Thompson AR. Heterotrophic protists as useful models for studying microbial food webs in a model soil ecosystem and the universality of complex unicellular life. Adams BJ. Department of Biology. 2019;PhD. Available at: https://www.proquest.com/docview/2310631977.\par \par }