Page, M., T. Goldhammer, S. Hilt, S. Tolentino, and S. Brothers*, 2022. Filamentous algae blooms in a large, clear-water lake: potential drivers and reduced benthic primary production. Water, 14, 2136. https://doi.org/10.3390/w14132136
Mehner, T., K. Attermeyer, M. Brauns, S. Brothers, S. Hilt, K. Scharnweber, R. van Dorst, M. J. Vanni, and U. Gaedke, 2022. Trophic transfer efficiency in lakes. Ecosystems. https://doi.org/10.1007/s10021-022-00776-3
Paranaiba, J. R., S. Brothers, et al., 2022. Cross-continental importance of CH4 emissions from dry inland waters. Science of the Total Environment, 814:151925.
Brothers, S. and Y. Vadeboncoeur, 2021. Shoring up the foundations of production to respiration ratios in lakes. Limnology and Oceanography. doi: 10.1002/lno.11787
Vadeboncoeur, Y.,S. Brothers, et al., 2021. Blue waters, green bottoms: filamentous algae blooms (FABs) are an emerging threat to clear lakes worldwide. BioScience
Kazanjian, G., S. Brothers, J. Köhler, and S. Hilt, 2021. Incomplete recovery of a shallow lake to a brownification event. Freshwater Biology. doi: 10.1111/fwb.13701
Brothers, S., D. Bowes, W.D. Pearse, S. Tank, R. Vanengen, and P. Sibley, 2021. Declining summertime pCO2 in tundra lakes in a granitic landscape. Global Biogeochemical Cycles. doi:10.1029/2020GB006850
Clancy, N., J. Draper, J.M. Wolf, U.A. Abdulwahab, M. Pendleton, S. Brothers, J. Brahney, J. Weathered, E. Hammill, T.B. Atwood, 2020. Protecting endangered species in the USA requires both public and private land conservation. Scientific Reports, 10:11925
Keller, P.S., S. Brothers, et al., 2020. Global CO2 emissions from dry inland waters share common drivers across ecosystems. Nature Communications. https://doi.org/10.1038/s41467-020-15929-y
Epperly, J. A. Witt, J. Haight, S. Washko, T. B. Atwood, J. Brahney, S. Brothers, and E. Hammill, 2018. Relationships between borders, management agencies, and the likelihood of impairment. PLOS One, 13:e0204149
Brothers, S. and P. Sibley, 2018. Light may have triggered a period of net heterotrophy in Lake Superior. Limnology and Oceanography, doi:10.1002/lno.10808
Mehner, T., B. Lischke, K. Scharnweber, K. Attermeyer, S. Brothers, U. Gaedke, S. Hilt, and S. Brucet, 2018. Community size spectra from bacteria to fish confirm a transfer-efficiency correction of the energetic equivalence rule. Ecology, 99:1463-1472.
Hilt, S., S. Brothers, E. Jeppesen, A. Veraart, and S. Kosten, 2017. Translating regime shifts in shallow lakes into changes in ecosystem function. BioScience, 67: 928-936.
Lischke, B., T. Mehner, S. Hilt, K. Attermeyer, M. Brauns, S. Brothers, H.-P. Grossart, J. Köhler, K. Scharnweber, and U. Gaedke, 2017. Benthic carbon is inefficiently transferred in the food webs of two eutrophic shallow lakes. Freshwater Biology doi: 10.1111/fwb.12979
Brothers, S., Y. Vadeboncoeur, and P. Sibley, 2017. A decline in benthic algal production may explain recent hypoxic events in Lake Erie’s central basin. Journal of Great Lakes Research. 43: 73-78.
Brothers, S., G. Kazanjian, J. Köhler, U. Scharfenberger, and S. Hilt, 2017. Convective mixing and high littoral primary production can establish systematic errors in lake diel oxygen curves in shallow, eutrophic lakes. Limnology and Oceanography: Methods. doi: 10.1002/lom3.10169
Brothers, S., Y. Vadeboncoeur, and P. Sibley, 2016. Benthic algae compensate for phytoplankton losses in large aquatic ecosystems. Global Change Biology. doi:10.1111/gcb.13306
Mehner, T., K. Attermeyer, M. Brauns, S. Brothers, J. Diekmann, U. Gaedke, H. Grossart, J. Köhler, B. Lischke, N. Meyer, K. Scharnweber, J. Syväranta, M. Vanni, and S. Hilt, 2016. Weak response of animal allochthony and production to enhanced supply of terrestrial leaf litter in nutrient-rich lakes. Ecosystems doi: 10.1007/s10021-015-9933-2
Hilt, S., T. Wanke, K. Scharnweber, M. Brauns, J. Syväranta, S. Brothers, U. Gaedke, J. Köhler, B. Lischke, and T. Mehner, 2014. Contrasting response of two shallow lakes to a partial winterkill of fish. Hydrobiologia, doi: 10.1007/s10750-014-2143-7
Brothers, S., J. Köhler, K. Attermeyer, H.P. Grossart, T. Mehner, N. Meyer, K. Scharnweber, and S. Hilt, 2014. A feedback loop links brownification to anoxia in a temperate, shallow lake. Limnology and Oceanography, 59(4): 1388-1398.
Scharnweber, K., J. Syväranta, S. Hilt, M. Brauns, M.J. Vanni, S. Brothers, J. Köhler, J. Knežević-Jarić, and T. Mehner, 2014. Whole-lake experiments trace added terrestrial particulate organic carbon in benthic food webs of shallow lakes. Ecology, 95:1496-1505. http://dx.doi.org/10.1890/13-0390.1
Brothers, S., S. Hilt, K. Attermeyer, H.P. Grossart, S. Kosten, B. Lischke, T. Mehner, N. Meyer, K. Scharnweber, and J. Köhler, 2013. A regime shift from macrophyte to phytoplankton dominance enhances carbon burial in a shallow, eutrophic lake. Ecosphere, 4: art137. dx.doi.org/10.1890/ES13-00247.1
Brothers, S., S. Hilt, S. Meyer, and J. Köhler, 2013. Plant community structure determines primary productivity in shallow, eutrophic lakes. Freshwater Biology, 58: 2264-2276. doi:10.1111/fwb.12207
Brothers, S., P.A. del Giorgio, C.R. Teodoru, and Y.T. Prairie, 2012. Landscape heterogeneity influences carbon dioxide production in a young boreal reservoir. Canadian Journal of Fisheries and Aquatic Sciences, 69: 447-456.
Brothers, S., Y.T. Prairie, and P.A. del Giorgio, 2012. Benthic and pelagic sources of carbon dioxide in boreal lakes and a young reservoir (Eastmain-1) in eastern Canada. Global Biogeochemical Cycles, 26. doi:10.1029/2011GB004074.
Brothers, S., J. Vermaire, and I. Gregory-Eaves, 2008. Empirical models for describing recent sedimentation rates in lakes distributed across broad spatial scales. Journal of Paleolimnology, 40(4): 1003-1019.