{"id":29,"date":"2013-09-17T23:56:49","date_gmt":"2013-09-17T23:56:49","guid":{"rendered":"http:\/\/carey.biol.vt.edu\/?page_id=29"},"modified":"2025-08-22T14:44:19","modified_gmt":"2025-08-22T19:44:19","slug":"publications","status":"publish","type":"page","link":"https:\/\/carey.biol.vt.edu\/?page_id=29","title":{"rendered":"Publications"},"content":{"rendered":"

G<\/sup> = mentored graduate student, U<\/sup> = mentored undergraduate student, P<\/sup> = mentored postdoctoral researcher, T<\/sup>\u00a0= mentored technician
\n<\/strong><\/p>\n

In press<\/strong><\/p>\n

\n

Hipsey, M.R., C.C. Carey<\/strong>, J.D. Brookes, M. Burford, B.W. Ibelings, and D.P. Hamilton. Integrating phytoplankton phenology, traits, and model-data fusion to advance bloom prediction. In press at Limnology & Oceanography-Letters<\/em>. DOI: 10.1002\/lol2.70052<\/p>\n

Wander, H.L.G<\/sup>, M.E. LoftonP<\/sup>, J.P. DoubekG<\/sup>, M.R. Hipsey, and R.Q. Thomas, and C.C. Carey<\/strong>. Warming air temperatures alter the timing and magnitude of reservoir zooplankton biomass. In press at Ecological Modelling<\/em>. ECOMOD-25-599<\/p>\n

Carey, C.C.<\/strong>, F. Olsson P<\/sup>, A. Breef-Pilz T<\/sup>, and R.Q. Thomas. High-frequency monitoring data reveal substantial variability in the intrinsic predictability of ecosystem dynamics. In press at Ecology<\/em>. ECY25-0308.<\/p>\n

2025<\/strong><\/p>\n

Thomas, R.Q., C.C. Carey<\/strong>, E.R. Sokol, M.A. Kenney, M.C. Dietze, and M.A. Xenopoulos. 2025. Advances in ecological forecasting. Eos<\/em>: 106. DOI: 10.1029\/2025EO255024<\/p>\n

Lofton, M.E.P<\/sup>, T. MooreP<\/sup>, W.M. WoelmerG<\/sup>, R.Q. Thomas, and C.C. Carey<\/strong>. 2025. A modular curriculum to teach undergraduates ecological forecasting improves student and instructor confidence in their data science skills. BioScience<\/em>. 75(2):127-138. DOI: 10.1093\/biosci\/biae089<\/p>\n

Neog, A.G<\/sup>, M. Sawhney, K.S. Mehrab, S. Fatemi, M.E. LoftonRS<\/sup>, A. Dutta, A. PradhanG<\/sup>, B.J. McAfeeG<\/sup>, E. MarchisinG<\/sup>, R. Ladwig, A. DawP<\/sup>, C.C. Carey<\/strong>, P.C. Hanson, and A. Karpatne. 2025. Toward scientific foundation models for aquatic ecosystems. International Conference on Machine Learning Workshop on Foundation Models for Structured Data, ICML 2025<\/em>. Vancouver, Canada.<\/p>\n

Paiz, R.G<\/sup>, R.Q. Thomas, C.C. Carey<\/strong>, E. de Eyto, A.D. DelanyT<\/sup>, R. Poole, P. Nixon, M. Dillane, I.D. Jones, V. McCarthy, S. Linnane, and E. Jennings. 2025. Near-term lake water temperature forecasts can be used to anticipate the ecological dynamics of freshwater species. Ecosphere<\/em>. 16(7):e70335. DOI: 10.1002\/ecs2.70335<\/p>\n

Dang, H.V.G<\/sup>, S. Kermode, P. Huang, C.C. Carey<\/strong>, and M.R. Hipsey. 2025. Phytoplankton group classification by integrating trait information and observed environmental thresholds. Ecological Informatics<\/em>. 90: 103212. DOI: 10.1016\/j.ecoinf.2025.103212<\/p>\n

McAfee, B.J., A. Pradhan, A. Neog, S. Fatemi, R.T. Hensley, M.E. LoftonP<\/sup>, A. Karpatne, C.C. Carey<\/strong>, and P.C. Hanson. 2025. LakeBeD-US: a benchmark dataset for lake water quality time series and vertical profiles. Earth System Science Data<\/em>. 17:3141-3165. DOI: 10.5194\/essd-17-3141-2025<\/p>\n

Holthuijzen, M.P<\/sup>, R.B. Gramacy, C.C. Carey<\/strong>, D.M. Higdon, and R.Q. Thomas. 2025. Synthesizing data products, mathematical models, and observational measurements for lake temperature forecasting. The Annals of Applied Statistics<\/em>. 19(2):1127-1146. DOI: 10.1214\/25-AOAS2027<\/p>\n

Olsson, F.P<\/sup>, C.C. Carey<\/strong>, C. Boettiger, G. Harrison, R. Ladwig, M.F. Lapeyrolerie, A.S.L. LewisG<\/sup>, M.E. LoftonP<\/sup>, F. Montealegre-Mora, J. Rabaey, C.J. Robbins, X. Yang, and R.Q. Thomas. 2025. What can we learn from 100,000 freshwater forecasts? A synthesis from the NEON Ecological Forecasting Challenge. Ecological Applications. <\/em>35(1):370004. DOI: 10.1002\/eap.70004<\/p>\n

Rinke, K., C. Mi, M.R. Magee, and C.C. Carey<\/strong>. 2025. Increasing exposure to global climate change and hopes for the era of climate adaptation: an aquatic perspective. Ambio.<\/em> 54:379-384. DOI: 10.1007\/s13280-024-02125-1<\/p>\n

Carey, C.C.<\/strong>, R.S.D. Calder, R.J. Figueiredo, R.B. Gramacy, M.E. LoftonP<\/sup>, M.E. Schreiber, and R.Q. Thomas. 2025. A framework for developing a real-time lake phytoplankton forecasting system to support water quality management in the face of global change. Ambio<\/em>. 54:475-487. DOI: 10.1007\/s13280-024-02076-7<\/p>\n

2024<\/strong><\/p>\n

Olsson, F.P<\/sup>, C. Boettiger, C.C. Carey<\/strong>, M.E. LoftonP<\/sup>, and R.Q. Thomas. 2024. Can you predict the future? A tutorial for the National Ecological Observatory Network Ecological Forecasting Challenge. Journal of Open Science Education.<\/em> 7(82): 259. DOI: 10.21105\/jose.00259<\/p>\n

Figueiredo, R.J., C.C. Carey<\/strong>, and R.Q. Thomas. 2024. Translational edge and cloud computing to advance lake water quality forecasting. IEEE Computing in Science & Engineering. <\/em>26:68-72. DOI: 10.1109\/MCSE.2024.3430148<\/p>\n

Dietze, M.C. and 23 other co-authors, including C.C. Carey<\/strong>. 2024. Forecasting the field of ecological forecasting. Nature Climate Change<\/em>. 14:1236-1244. DOI: 0.1038\/s41558-024-02182-0<\/p>\n

Park, S., R.Q. Thomas, C.C. Carey<\/strong>, A.D. DelanyT<\/sup>, Y.-J. Ku, M.E. LoftonP<\/sup>, and R.J. Figueiredo. 2024. FaaSr: Cross-platform function-as-a-service serverless scientific workflows in R. IEEE eScience Conference<\/em>. pp 1-10. DOI: 10.1109\/e-Science62913.2024.10678660<\/p>\n

Park, S., Y.-J. Ku, N. Mu, V. DaneshmandG<\/sup>, R.Q. Thomas, C.C. Carey<\/strong>, and R.J. Figueiredo. 2024. FaaSr: a package for Function-as-a-Service cloud computing. Journal of Open Source Software<\/em>. 9:7027. DOI: 10.21105\/joss.07027<\/p>\n

Woelmer, W.M.G<\/sup>, R.Q. Thomas, F. OlssonP<\/sup>, B.G. Steele, K.C. Weathers, and C.C. Carey<\/strong>. 2024. Process-based forecasts of lake water temperature and dissolved oxygen outperform null models, with variability over time and depth. Ecological Informatics. <\/em>83:102825. DOI: 10.1016\/j.ecoinf.2024.102825<\/p>\n

Kurucz, K.G<\/sup>, C.C. Carey<\/strong>, P. Huang, E. De Sousa, J. White, and M.R. Hipsey. 2024. Using system-inspired metrics to improve water quality prediction in stratified lakes. Water Resources Research<\/em>. 60:e2023WR036570. DOI: 10.1029\/2023WR036570 Kurucz_etal_2024<\/a><\/p>\n

Wander, H.L.G<\/sup>, A.S. LewisG<\/sup>, D.W. HowardG<\/sup>, M.E. LoftonG<\/sup>, W.M. WoelmerG<\/sup>, B.L. Brown, and C.C. Carey<\/strong>. 2024. Zooplankton community structure and diel migration patterns vary over hours, days, and years in the pelagic and littoral zone of a eutrophic reservoir. Journal of Plankton Research<\/em>.46(3):307-322. DOI: 10.1093\/plankt\/fbae017 Wander_et_al_2024_jpr<\/a><\/p>\n

Howard, D.W.G<\/sup>, J.A. Brentrup, D.C. Richardson, A.S.L. LewisG<\/sup>, F. OlssonP<\/sup>, and C.C. Carey<\/strong>. 2024. Variability in ice cover does not affect annual metabolism estimates in a small eutrophic reservoir. JGR: Biogeosciences<\/em>. 129(7): e2024JG008057. DOI: 10.1029\/2024JG008057 Howard_etal_2024_JGR<\/a><\/p>\n

Ranjbar, M.H., D.P. Hamilton, M.L. Pace, A. Etemad-Shahidi, C.C. Carey<\/strong>, and F. Helfer. 2024. Individual-based modelling of adaptive physiological traits of cyanobacteria: responses to light history. Ecological Modelling<\/em>. 495:110803. DOI: 10.1016\/j.ecolmodel.2024.110803 Ranjbar_etal_2024<\/a><\/p>\n

Man, X.G<\/sup>, C. Lei, K.A. Bierlein, L.D. Bryant, A.S.L. LewisG<\/sup>, C.C. Carey<\/strong>, and J.C. Little. 2024. Computationally characterizing the diffusive boundary layer and modeling sediment oxygen uptake in lakes and reservoirs. Journal of Soils & Sediments. <\/em>24:2132-2143. DOI: 10.1007\/s11368-024-03767-0 Man_etal_2024_JSS<\/a><\/p>\n

Lewis, A.S.L.G<\/sup>, M.P. Lau, S.F. Jane, K.C. Rose, Y. Be\u2019eri-Shlevin, S.H. Burnet, F. Clayer, H. Feuchtmayr, H.-P. Grossart, D.W. HowardG<\/sup>, H. Mariash, J.D. Martin, R.L. North, I. Oleksy, R.M. Pilla, A.P. Smagula, R. Sommaruga, S.E. Steiner, P. Verburg, D. Wain, G.A. Weyhenmeyer, and C.C. Carey<\/strong>. 2024. Anoxia begets anoxia: a positive feedback to the deoxygenation of temperate lakes. Global Change Biology<\/em>. 30(1): e17046. DOI: 10.1111\/gcb.17046 Lewis_etal_2024_GCB<\/a><\/p>\n

Ellis, E.A.G<\/sup>, G.H. Allen, R.M. Riggs, H. Gao, Y. Li, and C.C. Carey<\/strong>. 2024. Bridging the divide between inland water quantity and quality with satellite remote sensing: An interdisciplinary review. WIREs Water<\/em>. 11(4): e1725. DOI: 10.1002\/wat2.1725<\/p>\n

Lewis, A.S.L.G<\/sup>, A. Breef-PilzT<\/sup>, D.W. HowardG<\/sup>, M.E. LoftonP<\/sup>, F. OlssonP<\/sup>, H.L. WanderG<\/sup>, C.E. Wood, M.E. Schreiber, and C.C. Carey<\/strong>. 2024. Reservoir drawdown highlights the emergent effects of water level change on reservoir physics, chemistry, and biology. JGR Biogeosciences.<\/em> 129(2): e2023JG007780. DOI: 10.1029\/2023JG007780 Lewis_etal_2024_JGR<\/a><\/p>\n

Olsson, F.P<\/sup>, T.N. MooreP<\/sup>, C.C. Carey<\/strong>, A. Breef-PilzT<\/sup>, and R.Q. Thomas. 2024. A multi-model ensemble of empirical and process-based models improves the predictive skill of near-term lake forecasts. Water Resources Research. <\/em>60(3): e2023WR035901. DOI: 10.1029\/2023WR035901 Olsson_etal_2024_WRR<\/a><\/p>\n

Wander, H.L.G<\/sup>, R.Q. Thomas, T.N. MooreP<\/sup>, M.E. LoftonP<\/sup>, A. Breef-PilzT<\/sup>, and C.C. Carey<\/strong>. 2024. Data assimilation experiments inform monitoring needs for near-term ecological forecasts in a eutrophic reservoir. Ecosphere.<\/em> 15:e4752. DOI: 10.1002\/ecs2.4752 Open access copies can be downloaded at: <https:\/\/esajournals.onlinelibrary.wiley.com\/doi\/epdf\/10.1002\/ecs2.4752<\/a>><\/p>\n

2023<\/strong><\/p>\n<\/div>\n

Carey, C.C.<\/strong> 2023. Causes and consequences of changing oxygen in lakes. Inland Waters<\/em>. 13:316-326. DOI: 10.1080\/20442041.2023.2239110 Carey_2023_IW<\/a><\/p>\n

Woelmer, W.M.G<\/sup>, T.N. MooreP<\/sup>, M.E. LoftonP<\/sup>, R.Q. Thomas, and C.C. Carey<\/strong>. 2023. Embedding communication concepts in forecasting training increases students\u2019 understanding of ecological uncertainty. Ecosphere.<\/em> 14(8): e4628. DOI: 10.1002\/ecs2.4628 Woelmer_etal_2023_Ecosphere<\/a><\/p>\n

Hanson, P.C., R. Ladwig, C. Buelo, E.A. Albright, A.D. DelanyT<\/sup>, and C.C. Carey<\/strong>. 2023. Legacy phosphorus and ecosystem memory control future water quality in a eutrophic lake. JGR Biogeosciences<\/em>. 128: e2023JG007620. DOI: 10.1029\/2023JG007620 Hanson_etal_2023_JGR<\/a><\/p>\n

Wynne, J.H.U<\/sup>, W.M. WoelmerG<\/sup>, T.N. MooreP<\/sup>, R.Q. Thomas, K.C. Weathers, and C.C. Carey<\/strong>. 2023. Uncertainty in projections of future lake thermal dynamics is differentially driven by lake and global climate models. PeerJ<\/em>. 11:e15445. DOI: 10.7717\/peerj.15445 <Wynne_etal_2023_PeerJ><\/a><\/p>\n

Hammond, N.W.G<\/sup>, F. Birgand, C.C. Carey<\/strong>, B.J. BookoutT<\/sup>, A. Breef-PilzT<\/sup>, and M.E. Schreiber. 2023. High-frequency sensor data capture short-term variability in Fe and Mn cycling due to hypolimnetic oxygenation and seasonal dynamics in a drinking water reservoir. Water Research<\/em>. 240: 120084. DOI: 10.1016\/j.watres.2023.120084 <Hammond_etal_2023_WR<\/a>><\/p>\n

Willson, A., H. Gallo, J.A. Peters, A. Abeyta, N. Bueno Watts, C.C. Carey<\/strong>, T. MooreP<\/sup>, G. Smies, R.Q. Thomas, W. WoelmerG<\/sup>, and J. McLachlan. 2023. Assessing opportunities and inequities in undergraduate ecological forecasting education. Ecology and Evolution.<\/em> 13(5): e10001. DOI: 10.1002\/ece3.10001 <Willson_etal_2023_E&E<\/a>><\/p>\n

Thomas, R.Q., C. Boettiger, C.C. Carey<\/strong>, M.C. Dietze, L.R. Johnson, M.A. Kenney, J.S. Mclachlan, J.A. Peters, E.R. Sokol, J.F. Weltzin, A. Willson, W.M. WoelmerG<\/sup>, and Challenge Contributors. 2023. The NEON Ecological Forecasting Challenge. Frontiers in Ecology and Environment<\/em>. 21(3): 112-113. DOI: 10.1002\/fee.2616 <Thomas_etal_2023_FrontiersinEcolEnvironNEONEcologicalForecastingChallenge<\/a>><\/p>\n

Woelmer, W.M.G<\/sup>, A.G. HounshellP<\/sup>, M.E. LoftonP<\/sup>, H.L. WanderG<\/sup>, A.S.L. LewisG<\/sup>, D. Scott, and C.C. Carey<\/strong>. 2023. The importance of time and space in biogeochemical heterogeneity and processing along the reservoir ecosystem continuum. Aquatic Sciences.<\/em> 85: 66. DOI: 10.1007\/s00027-023-00959-7 <Woelmer_etal_2023_AquatSci<\/a>><\/p>\n

Hounshell, A.G.P<\/sup>, B.M. D\u2019Acunha, A. Breef-PilzT<\/sup>, M.S. Johnson, R.Q. Thomas, and C.C. Carey<\/strong>. 2023. Eddy covariance data reveal that a small freshwater reservoir emits a substantial amount of carbon dioxide and methane. Journal of Geophysical Research-Biogeosciences. <\/em>128: e2022JG007091. DOI: 10.1029\/2022JG007091 <Hounshell_etal_2023_JGRBiogeo<\/a>><\/p>\n

Lewis, A.S.L.G<\/sup>, M.E. Schreiber, B.R. NiederlehnerT<\/sup>, A. DasU<\/sup>, N.W. HammondG<\/sup>, M.E. LoftonP<\/sup>, H.L. WanderG<\/sup>, and C.C. Carey<\/strong>. 2023. Effects of hypoxia on coupled carbon and iron cycling differ between weekly and multiannual timescales in two freshwater reservoirs. Journal of Geophysical Research: Biogeosciences<\/em>. 128: e2022JG007071. DOI: 10.1029\/2022JG007071 <Lewis_etal_2023_JGRBiogeosci<\/a>><\/p>\n

Lofton, M.E.P<\/sup>, D.W. HowardG<\/sup>, R.Q. Thomas, and C.C. Carey<\/strong>. 2023. Progress and opportunities in advancing near-term forecasting of freshwater quality. Global Change Biology. <\/em>29: 1691-1714. DOI: 10.1111\/gcb.16590 <Lofton_etal_2023_GCB<\/a>><\/p>\n

Thomas, R.Q., R.P. McClureP<\/sup>, T.N. MooreP<\/sup>, W.M. WoelmerG<\/sup>, C. Boettiger, R.J. Figueiredo, and C.C. Carey<\/strong>. 2023. Near-term forecasts of NEON lakes reveal gradients of environmental predictability across the U.S. Frontiers in Ecology and the Environment. <\/em>21(5): 220-226. DOI: 10.1002\/fee.2623 <Thomas_etal_2023_FrontiersEcolEnviron_NEONLakesPredictability<\/a>><\/p>\n

2022<\/strong><\/p>\n

Lofton, M.E.G<\/sup>, D.W. HowardG<\/sup>, R.P. McClureP<\/sup>, H.L. WanderG<\/sup>, W.M. WoelmerG<\/sup>, A.G. HounshellP<\/sup>, A.S. LewisG<\/sup>, and C.C. Carey<\/strong>. 2022. Experimental thermocline deepening alters vertical distribution and community structure of phytoplankton in a four-year whole-reservoir manipulation. Freshwater Biology. <\/em>67: 1903-1924. DOI: 10.1111\/fwb.13983 <Lofton_etal_2022_FwB<\/a>><\/p>\n

Weyhenmeyer, G.A., U. Obertegger, H. Rudebeck, E. Jakobsson, J. Jansen, G. Zdorovennova, S. Bansal, B.D. Block, C.C. Carey, <\/strong>J.P. Doubek, H. Dugan, O. Erina, I. Fedorova, J.M. Fischer, L. Grinberga, H.-P. Grossart, K. Kangur, L.B. Knoll, A. Laas, F. Lepori, J. Meier, N. Palshin, M. Peternell, M. Pulkkanen, J.A. Rusak, S. Sharma, D. Wain, and R. Zdorovennov. 2022. Towards critical white ice conditions in lakes under global warming. Nature Communications. <\/em>13: 4974. DOI: 0.1038\/s41467-022-32633-1 <Weyhenmeyer_etal2022_NatureComms<\/a>><\/p>\n

Moore, T.N.P<\/sup>, R.Q. Thomas, W.M. WoelmerG<\/sup>, and C.C. Carey<\/strong>. 2022. Integrating ecological forecasting into undergraduate ecology curricula with an R Shiny application-based teaching module. Forecasting. <\/em>4: 604-633. DOI: 10.3390\/forecast4030033 <Moore_etal_2022_Forecasting<\/a>><\/p>\n

Golub et al. with 65 co-authors, including T. MooreP<\/sup>, C.C. Carey<\/strong>, and N.K. WardG<\/sup>. 2022. A framework for ensemble modelling of climate change impacts on lakes worldwide: the ISIMIP Lake Sector. Geoscientific Model Development<\/em>. 15: 4597-4623. DOI: 10.5194\/gmd-15-4597-2022 <Golub_etal_2022<\/a>><\/p>\n

Woelmer, W.W.G<\/sup>, R.Q. Thomas, M.E. LoftonG<\/sup>, R.P. McClureG<\/sup>, and C.C. Carey<\/strong>. 2022. Near-term phytoplankton forecasts reveal the effects of model time step and forecast horizon on predictability. Ecological Applications<\/em>. 32: e2642. DOI: 10.1002\/eap.2642 <Woelmer_etal_2022_EcoApps<\/a>><\/p>\n

Lofton, M.E.G<\/sup>, J.A. Brentrup, W. Beck, J.A. Zwart, R. Bhatttacharya, L. Brighenti, S.H. Burnet, I. McCullough, B. Steele, C.C. Carey<\/strong>, K.L. Cottingham, M.C. Dietze, H.A. Ewing, K.C. Weathers, and S. LaDeau. 2022. Using near-term forecasts and uncertainty partitioning to improve prediction of oligotrophic lake cyanobacterial density. Ecological Applications. <\/em>32: e2590. DOI: 10.1002\/eap.2590 <Lofton_etal_2022_EcoApps<\/a>><\/p>\n

Carey, C.C.<\/strong>, P.C. Hanson, R.Q. Thomas, A.B. GerlingG<\/sup>, A.G. HounshellP<\/sup>, A.S. LewisG<\/sup>, M.E. LoftonG<\/sup>, R.P. McClureG<\/sup>, H.L. WanderG<\/sup>, W.M. WoelmerG<\/sup>, B.R. Niederlehner, and M.E. Schreiber. Anoxia decreases the magnitude of the carbon, nitrogen, and phosphorus sink in freshwaters. Global Change Biology<\/em>. 28: 4861-4881. DOI: 10.1111\/gcb.16228 <link to open-access paper<\/a>><\/p>\n

Carey, C.C.<\/strong>, W.M. WoelmerG<\/sup>, M.E. LoftonG<\/sup>, R.J. Figueiredo, B.J. Bookout, R.S. CorriganG<\/sup>, V. DaneshmandG<\/sup>, A.G. HounshellP<\/sup>, D.W. HowardU<\/sup>, A.S.L. LewisG<\/sup>, R.P. McClureG<\/sup>, H.L. WanderG<\/sup>, N.K. WardG<\/sup>, and R.Q. Thomas. 2022. Advancing lake and reservoir water quality management with near-term, iterative ecological forecasting. Inland Waters<\/em>. 12: 107-120. DOI: 10.1080\/20442041.2020.1816421 <Carey_etal_2022_IW<\/a>><\/p>\n

Lewis, A.S.L.G<\/sup>, W.W. WoelmerG<\/sup>, H.L. WanderG<\/sup>, D.W. HowardG<\/sup>, J.W. SmithG<\/sup>, R.P. McClureP<\/sup>, M.E. LoftonG<\/sup>, N.W. HammondG<\/sup>, R.S. CorriganG<\/sup>, R.Q. Thomas, and C.C. Carey<\/strong>. 2022. Increased adoption of best practices in ecological forecasting enables comparisons of forecastability. Ecological Applications<\/em>. 32(2):e2500. DOI: 10.1002\/eap.2500 <Lewis_etal_2022_EcolApps<\/a>><\/p>\n

Ward, N.K.G<\/sup>, M.G. Sorice, M.S. ReynoldsU<\/sup>, K.C. Weathers, W. Weng, and C.C. Carey<\/strong>. 2022. Can interactive data visualizations promote waterfront best management practices? Lake and Reservoir Management. <\/em>38: 95\u2013108. DOI: 10.1080\/10402381.2021.2021335 <Ward_etal_2022_L&RM><\/a><\/p>\n

Ward, N.K.G<\/sup>, J.A. Brentrup, D.C. Richardson, K.C. Weathers, P.C. Hanson, R.J. Hewett, and C.C. Carey<\/strong>. 2022. Dynamics of the stream \u2013 lake transitional zone affect littoral lake metabolism. Aquatic Sciences. <\/em>84: art31. DOI: 10.1007\/s00027-022-00854-7 <Ward_etal_2022_AquatcSci<\/a>><\/p>\n

Figary, S.E. and 135 co-authors (ZIG participants), including C.C. Carey<\/strong>, H.L. WanderG<\/sup>, and J.P. DoubekG<\/sup>. 2022. Building a worldwide freshwater zooplankton dataset to synthesize patterns of zooplankton community structure and change. L&O Bulletin.<\/em> 31(4): 132-133. DOI: 10.1002\/lob.10515 <Figary_etal_2022_L&OB<\/a>><\/p>\n

2021<\/strong><\/p>\n

Reinl, K.L, J.D. Brookes, C.C. Carey<\/strong>, T.D. Harris, B.W. Ibelings, M. Morales-Williams, L.N. De Senerpont Domis, K.S. Atkins, P.D.F. Isles, J.P. Mesman, R.L. North, L.G. Rudstam, J.A.A. Stelzer, J.J. Venkiteswaran, K. Yokota, and Q. Zhan. 2021. Cyanobacterial blooms in oligotrophic lakes: shifting the high nutrient paradigm. Freshwater Biology.<\/em> 66: 1846-1859. DOI: 10.1111\/fwb.13791 <Reinl_etal_2021_FwB><\/a><\/p>\n

Donis, D. et al. and 194 other co-authors, including C.C. Carey<\/strong>. 2021. Stratification strength and light climate explain variation in chlorophyll-a at the continental scale in a European multi-lake survey in a heatwave summer. Limnology & Oceanography. <\/em>66: 4314-4333. DOI: 10.1002\/lno.11963 <Donis_etal_2021_L&O<\/a>><\/p>\n

Daneshmand, VG<\/sup>, A. Breef-Pilz, C.C. Carey<\/strong>, Y. Jin, Y.-J. Ku, K. Subratie, R.Q. Thomas, and R. J. Figueiredo. 2021. Edge-to-cloud virtualized cyberinfrastructure for near real-time water quality forecasting in lakes and reservoirs. 17th IEEE eScience Conference. <\/em>Innsbruck, Austria. DOI: 10.1109\/eScience51609.2021.00024 <Daneshmand_etal_eScience_2021><\/a><\/p>\n

McClure, R.P.G<\/sup>, R.Q. Thomas, M.E. LoftonG<\/sup>, W.M. WoelmerG<\/sup>, and C.C. Carey<\/strong>. 2021. Iterative forecasting improves near-term predictions of methane ebullition rates. Frontiers in Environmental Science<\/em>. 9: 756603. DOI: 10.3389\/fenvs.2021.756603 <McClure_etal_2021_FrontiersEnvSci><\/a><\/p>\n

McClure, R.P.G<\/sup>, M.E. Schreiber, M.E. LoftonG<\/sup>, S. ChenG<\/sup>, K.M. KruegerG<\/sup>, and C.C. Carey<\/strong>. 2021. Ecosystem-scale oxygen manipulations alter terminal electron acceptor pathways in a eutrophic reservoir. Ecosystems. <\/em>24: 1281\u20131298. DOI: 10.1007\/s10021-020-00582-9 <McClure_etal_Ecosystems_2021<\/a>><\/p>\n

Hounshell, A.G.P<\/sup>, K.J. FarrellP<\/sup>, and C.C. Carey<\/strong>. 2021. Macrosystems EDDIE teaching modules increase students\u2019 ability to define, interpret, and apply concepts in macrosystems ecology. Education Sciences.<\/em> 11(8): 382. DOI: 10.3390\/educsci11080382 <Hounshell_etal_2021_EduSci<\/a>><\/p>\n

Ladwig, R., P.C. Hanson, H.A. Dugan, C.C. Carey<\/strong>, Y. Zhang, L. Shu, C.J. Duffy, and K.M. Cobourn. 2021. Lake thermal structure drives inter-annual variability in summer anoxia dynamics in a eutrophic lake over 37 years. Hydrology and Earth System Sciences<\/em>. 25: 1009-1032. DOI: 10.5194\/hess-25-1009-2021 <Ladwig_etal_2021_HESS<\/a>><\/p>\n

Howard, D.W.U<\/sup>, A.G. HounshellP<\/sup>, M.E. LoftonG<\/sup>, W.M. WoelmerG<\/sup>, P.C. Hanson, and C.C. Carey<\/strong>. 2021. Variability in fluorescent dissolved organic matter concentrations across diel to seasonal time scales is driven by water temperature and meteorology in a eutrophic reservoir. Aquatic Sciences. <\/em>83: 30. DOI: 10.1007\/s00027-021-00784-w <Howard_etal_2021_AS<\/a>><\/p>\n

Yang, B., M. Wells, B. McMeans, H. Dugan, J. Rusak, G. Weyhenmeyer, J.A. Brentrup, A. Hrycik, A. Laas, R. Pilla, J. Austin, P. Blanchfield, C.C. Carey<\/strong>, M. Guzzo, N. Lottig, M. Mackay, T. Middel, D. Pierson, J. Wang, and J. Young. 2021. A new thermal categorization of ice-covered lakes. Geophysical Research Letters. <\/em>48: e2020GL091374. DOI: 10.1029\/2020GL091374 <Yang_etal_2021_GRL<\/a>><\/p>\n

Cottingham, K.L., K.C. Weathers, H.A. Ewing, M.L. Greer, and\u00a0C.C. Carey<\/b>. 2021. Predicting the effects of climate change on freshwater cyanobacterial blooms requires consideration of the complete cyanobacterial life cycle.\u00a0Journal of Plankton Research. <\/i>43: 10-19. DOI: 10.1093\/plankt\/fbaa059 <Cottingham_etal_2021_JPR><\/a><\/p>\n

Hounshell, A.G.P<\/sup>, R.P. McClureG<\/sup>, M.E. LoftonG<\/sup>, and C.C. Carey<\/strong>. 2021. Whole-ecosystem oxygenation experiments reveal substantially greater hypolimnetic methane concentrations and global warming potential in reservoirs during anoxia. Limnology and Oceanography-Letters. <\/em>6: 33-42. DOI: 10.1002\/lol2.10173 <Hounshell_etal_2021_L&OL<\/a>><\/p>\n

Farrell, K.J.P<\/sup>, K.C. Weathers, S. Sparks, J.A. Brentrup,\u00a0C.C. Carey<\/b>, M.C. Dietze, J. Foster, K. Grayson, J. Matthes, and M. SanClements. 2021. Training macrosystems scientists requires both interpersonal and technical skills.\u00a0Frontiers in Ecology and the Environment. <\/i>19: 39-46. DOI: 10.1002\/fee.2287 Farrell_etal_2021_FEE<\/a><\/p>\n

Brentrup, J.A., D.C. Richardson, C.C. Carey<\/strong>, N.K. WardG<\/sup>, D.A. Bruesewitz, and K.C. Weathers. 2021. Under-ice respiration rates shift the annual carbon cycle in an oligotrophic lake from net autotrophy to net heterotrophy. Inland Waters. <\/em>11: 114-123. DOI: 10.1080\/20442041.2020.1805261 <Brentrup_etal_2021_IW<\/a>><\/p>\n

Man, XG<\/sup>, C. Lei,\u00a0C.C. Carey<\/b>, and J.C. Little. 2021. Relative performance of 1-D versus 3-D hydrodynamic, water-quality models for predicting water temperature and oxygen in a shallow, eutrophic, managed reservoir.\u00a0Water.\u00a0<\/i>13(1), 88. DOI: 10.3390\/w13010088 <Man_etal_2021_Water<\/a>><\/p>\n

2020<\/strong><\/p>\n

Carey, C.C.<\/strong>, K.J. FarrellP<\/sup>, A.G. HounshellP<\/sup>, and K. O\u2019Connell. Macrosystems EDDIE teaching modules significantly increase ecology students\u2019 proficiency and confidence working with ecosystem models and use of systems thinking. Ecology & Evolution. <\/em>10: 12515\u201312527.\u00a0DOI: 10.1002\/ece3.6757 <Carey_etal_2020_E&E<\/a>><\/p>\n

Thomas, R.Q, R.J. Figueiredo, V. Daneshmand, B.J. Bookout, L. Puckett, and C.C. Carey<\/strong>. A near-term iterative forecasting system successfully predicts reservoir hydrodynamics and partitions uncertainty. Water Resources Research<\/em>. 56, e2019WR026138. DOI: 10.1029\/2019WR026138 <Thomas_etal_2020_WRR<\/a>><\/p>\n

Lofton, M.E.G<\/sup>, T.H. Leach, B.E. Beisner, and C.C. Carey<\/strong>. 2020. Relative importance of top-down versus bottom-up control of lake phytoplankton vertical distributions varies among fluorescence-based spectral groups. Limnology and Oceanography<\/em>. 65: 2485-2501. DOI: 10.1002\/lno.11465 <Lofton_etal_2020_L&O<\/a>><\/p>\n

Daw, A., R.Q. Thomas,\u00a0C.C. Carey<\/b>, J.S. Read, A.P. Appling, and A. Karpatne. 2020. Physics-guided architecture (PGA) of neural networks for quantifying uncertainty in lake temperature modeling.\u00a0Proceedings of the 2020 SIAM International Conference on Data Mining.<\/i>\u00a0532-540. DOI: 10.1137\/1.9781611976236.60. <Daw_etal_2020<\/a>><\/p>\n

Stachelek, J., W. Weng, C.C. Carey<\/strong>, A. Kemanian, K.M. Cobourn, T. Wagner, K.C. Weathers, and P.A. Soranno. 2020. Agricultural land-use and lake water quality relationships differ when considering predictor granularity at macroscales.\u00a0Ecological Applications. <\/em>30: e02187.DOI: 10.1002\/eap.2187 <Stachelek_etal_2020_EA><\/a><\/p>\n

Henson, V.R, K.M. Cobourn, K.C. Weathers, C.C. Carey<\/strong>, K.J. FarrellP<\/sup>, J.L. Klug, M.G. Sorice, N.K. WardG<\/sup>, and W. WengG<\/sup>. 2020. A practical guide for managing interdisciplinary teams: lessons learned from Coupled Natural and Human Systems (CNHS) research. Social Science. <\/em>119: 9. DOI: 10.3390\/socsci9070119 <Henson_etal_2010_SocialSci<\/a>><\/p>\n

Krueger, K.M.G<\/sup>, C.E. VavrusU<\/sup>, M.E. LoftonG<\/sup>, R.P. McClureG<\/sup>, P. Gantzer, C.C. Carey<\/strong>, and M.E. Schreiber. 2020. Iron and manganese fluxes across the sediment-water interface in a drinking water reservoir. Water Research. <\/em>182: 116003. DOI: 10.1016\/j.watres.2020.116003 <Krueger_etal_2020_WR<\/a>><\/p>\n

Ward, N.K.G<\/sup>, B.G. Steele, K.C. Weathers, K.L. Cottingham, H.A. Ewing, P.C. Hanson, and C.C. Carey.<\/strong> 2020. Differential responses of maximum and median chlorophyll-a to air temperature and nutrient load in a 31-year oligotrophic lake simulation. Water Resources Research. <\/em>56: e2020WR027296. DOI: 10.1029\/2020WR027296 <Ward_etal_2020><\/a><\/p>\n

Hanson, P.C., A.B. Stillman, X. Jia, A. Karpatne, H.A. Dugan, C.C. Carey<\/strong>, J. Stachelek, N. WardG<\/sup>, Y. Zhang, J.S. Read, and V. Kumar. 2020. Predicting lake surface water phosphorus dynamics using process-guided machine learning. Ecological Modelling. <\/em>430: 109136. DOI: 10.1016\/j.ecolmodel.2020.109136 <Hanson_etal_2020<\/a>><\/p>\n

Farrell, K.J.P<\/sup>, N.K. WardG<\/sup>, A.I. KrinosU<\/sup>, V. DaneshmandG<\/sup>, R.J. Figueiredo, P.C. Hanson, and C.C. Carey<\/strong>. 2020. Ecosystem-scale nutrient cycling responses to increasing air temperatures vary with lake trophic state. Ecological Modelling<\/em>. 430: 109134. DOI: 10.1016\/j.ecolmodel.2020.109134 <Farrell_etal_2020_EcoMod_PDFA<\/a>><\/p>\n

Ewing, H.A., K.C. Weathers, K.L. Cottingham, P.R. Leavitt, M.L. Greer, C.C. Carey<\/strong>, B.G. Steele, A.U. FiorilloU<\/sup>, and J.P. SowlesU<\/sup>. 2020. \u201cNew\u201d cyanobacterial blooms are not new: two centuries of lake productivity are related to ice cover and land use. Ecosphere. <\/em>11(6):e03170. DOI: 10.1002\/ecs2.3170 <Ewing_etal_2020_Ecosphere<\/a>><\/p>\n

McClure, R.P.G<\/sup>, M.E. LoftonG<\/sup>, S. ChenG<\/sup>, J.C. Little, and C.C. Carey<\/strong>. 2020. The magnitude and drivers of methane ebullition and diffusion vary on a longitudinal gradient in a small freshwater reservoir. Journal of Geophysical Research-Biogeosciences<\/em>. 125(3): e2019JG005205 DOI: 10.1029\/2019JG005205 <McClure_etal_2020<\/a>><\/p>\n

Hipsey, M.R., G. Gal, G.B. Arhonditsis, C.C. Carey<\/strong>, J.A. Elliott, M.A. Frassl, J.H. Janse, L. de Mora, and B.J. Robson. 2020. A system of metrics for the assessment and improvement of aquatic ecosystem models. 2020. Ecological Modelling and Software<\/em>. 128: 104697. DOI: 10.1016\/j.envsoft.2020.104697 <Hipsey_etal_2020<\/a>><\/p>\n

Stockwell, J., J.P. DoubekG<\/sup>, R. Adrian, O. Anneville, C.C. Carey<\/strong>, L. Carvalho, L. de Senerpont Domis, G. Dur, M. Frassl, H.-P. Grossart, B. Ibelings, M. Lajeunesse, A. Lewandowska, M. Llames, S.S. Matsuzaki, E. Nodine, P. Noges, V. Patil, F. Pomati, K. Rinke, L. Rudstam, J. Rusak, N. Salmaso, C. Seltmann, D. Straile, S. Thackeray, W. Thiery, P. Urrutia-Cordero, P. Venail, P. Verburg, R. Woolway, T. Zohary, M. Andersen, R. Bhattacharya, J. Hejzlar, N. Janatian Ghadikolaei, T. Kpodonu, T. Williamson, and H. Wilson. 2020. Storm impacts on phytoplankton community dynamics in lakes. Global Change Biology<\/em>. 26: 2756-2784. DOI: 10.1111\/gcb.15033 <Stockwell_etal_2020<\/a>><\/p>\n

Burford, M.A., C.C. Carey<\/strong>, D.P. Hamilton, J. Huisman, H.W. Paerl, S.A. Wood, and A. Wulff. 2020. Advancing the research agenda for improving understanding of cyanobacteria in a future of global change. Harmful Algae. <\/em>91:101591. <\/em>DOI:\u00a010.1016\/j.hal.2019.04.004 <Burford_etal_2020_HarmfulAlgae><\/a>
\n<\/span><\/p>\n

Weng, W.G<\/sup>, K.J. Boyle, K.J. FarrellP<\/sup>, C.C. Carey<\/strong>, K.M. Cobourn, H. Dugan, P.C. Hanson, N.K. WardG<\/sup>, and K.C. Weathers. 2020. Coupling lake water quality and hedonic modeling to evaluate the effects of nutrient loading. Ecological Economics. <\/em>169:106556. <Weng_etal_2020_EcolEcon<\/a>><\/p>\n

2019<\/strong><\/p>\n

Doubek, J.P.G<\/sup>, K.L. CampbellU<\/sup>, M.E. LoftonG<\/sup>, R.P. McClureG<\/sup>, and C.C. Carey<\/strong>. Hypolimnetic hypoxia increases the biomass and compositional variability of crustacean zooplankton communities. Water.<\/em> 11(10):2179. DOI: 10.3390\/w11102179\u00a0 <Doubek_etal_2019_Water.pdf<\/a>><\/p>\n

WardG<\/sup>, N.K., L. Fitchett, J.A. HartG<\/sup>, L. Shu, J. Stachelek, W. Weng, Y. Zhang, H. Dugan, A. HetheringtonP<\/sup>, K. Boyle, C.C. Carey<\/strong>, K.M. Cobourn, P.C. Hanson, A.R. Kemanian, M.G. Sorice, and K.C. Weathers. 2019. Integrating fast and slow processes is essential for simulating human-freshwater interactions. Ambio. <\/em>1169-1182. DOI: 10.1007\/s13280-018-1136-6 <Ward_etal2019_Ambio.pdf<\/a>><\/p>\n

MungerG<\/sup>, Z.W., C.C. Carey<\/strong>, A.B. GerlingG<\/sup>, J.P. DoubekG<\/sup>, K.D. HamreG<\/sup>, R.P. McClureG<\/sup>, M.E. Schreiber. 2019. Oxygenation and hydrologic controls on iron and manganese mass budgets in a drinking water reservoir. Lake and Reservoir Management. <\/em>35:277-291. DOI: 10.1080\/10402381.2018.1545811 <Munger_etal_2019_LRM.pdf<\/a>><\/p>\n

Carey, C.C.<\/strong>, N.K. WardG<\/sup>, K.J. FarrellP<\/sup>, M.E. LoftonG<\/sup>, A.I. KrinosU<\/sup>, R.P. McClureG<\/sup>, K. SubratieG<\/sup>, R.J. Figueiredo, J.P. DoubekG<\/sup>, P.C. Hanson, P. Papadopoulos, and P. Arzberger. 2019. Enhancing collaboration between ecologists and computer scientists: lessons learned and paths forward. Ecosphere<\/em>. 10(5):e02753. DOI: 10.1002\/ecs2.2753 <Carey_et_al-2019-Ecosphere.pdf<\/a>><\/p>\n

Hipsey, M.R., L.C. Bruce, C. Boon, B. Busch, C.C. Carey<\/strong>, D.P. Hamilton, P.C. Hanson, J.S. Read, E. de Sousa, M. Weber, and L.A. Winslow. 2019. A General Lake Model (GLM 3.0) for linking with high-frequency sensor data from the Global Lake Ecological Observatory Network (GLEON). Geoscientific Model Development<\/em>. 12: 473-523. DOI: 10.5194\/gmd-12-473-2019 Open access at:\u00a0https:\/\/www.geosci-model-dev.net\/12\/473\/2019\/<\/a><\/p>\n

LoftonG<\/sup>, M.E., R.P. McClureG<\/sup>, S. ChenG<\/sup>, J.C. Little, and C.C. Carey<\/strong>. 2019. Whole-ecosystem experiments reveal varying responses of phytoplankton functional groups to epilimnetic mixing in a eutrophic reservoir. Water.<\/em> 11(2):222. DOI: 10.3390\/w11020222 Open access at:\u00a0https:\/\/www.mdpi.com\/2073-4441\/11\/2\/222<\/a><\/p>\n

DoubekG<\/sup>, J.P., C.C. Carey<\/strong>, M. LavenderG<\/sup>, A.K. WinegardnerG<\/sup>, M. BeaulieuG<\/sup>, P.T. KellyG<\/sup>, A.I. Pollard, D. Straile, and J.D. Stockwell. 2019. Calanoid copepod zooplankton density is positively associated with water residence time across the continental U.S. PLOS One. <\/em>14(1):e0209567. DOI: 10.1371\/journal.pone.0209567 Open access at:\u00a0https:\/\/doi.org\/10.1371\/journal.pone.0209567<\/a><\/p>\n

Henson, V.R., K.M. Cobourn, C.C. Carey<\/strong>, K.J. Boyle, M.G. Sorice, N.K. WardG<\/sup>, and K.C. Weathers. 2019. Closing the human-nature feedback loop: understanding people\u2019s responses to changing lakes. LakeLine. <\/em>39(3):35-38. <Henson_etal_LakeLine_2019<\/a>><\/p>\n

Little, J.C., E.T. Hester, S. Elsawah, G.M. Filz, A. Sandu, C.C. Carey<\/strong>, T. Iwanaga, and A.J. Jakeman. 2019. A tiered, system-of-systems modeling framework for resolving complex socio-environmental policy issues. Ecological Modelling and Software. <\/em>Environmental Modelling & Software 112: 82-94. DOI. 10.1016\/j.envsoft.2018.11.011 <Little_etal_2019_EM&S.pdf<\/a>><\/p>\n

2018<\/strong><\/p>\n

DoubekG<\/sup>, J.P., K.L. CampbellU<\/sup>, K. DoubekG<\/sup>, K.D. HamreG<\/sup>, M.E. LoftonG<\/sup>, R.P. McClureG<\/sup>, N.K. WardG<\/sup>, and C.C. Carey<\/strong>. 2018. The effects of hypolimnetic anoxia on the diel vertical migration of freshwater crustacean zooplankton. Ecosphere<\/em>. 9(7):e02332. DOI: 10.1002\/ecs2.2332 Open-access at:\u00a0https:\/\/esajournals.onlinelibrary.wiley.com\/doi\/full\/10.1002\/ecs2.2332<\/a><\/p>\n

FarrellP<\/sup>, K.J., and C.C. Carey<\/strong>. 2018. Power, pitfalls, and potential for integrating computational literacy into undergraduate ecology courses. Ecology and Evolution<\/em>. 8:7744-7751. DOI: 10.1002\/ece3.4363 Open access at: \u00a0https:\/\/onlinelibrary.wiley.com\/doi\/full\/10.1002\/ece3.4363<\/a><\/p>\n

HamreG<\/sup>, K.D., R.P. McClureG<\/sup>, Z.W. MungerG<\/sup>, J.P. DoubekG<\/sup>, A.B. GerlingG<\/sup>, M.E. Schreiber, and C.C. Carey<\/strong>. 2018. In situ<\/em> fluorometry reveals a persistent, perennial hypolimnetic cyanobacterial bloom in a seasonally anoxic reservoir. Freshwater Science<\/em>. 37:483-495.\u00a0DOI: 10.1086\/699327 <Hamre etal FWS _2018.pdf<\/a>><\/p>\n

McClureG<\/sup>, R.P., K.D. HamreG<\/sup>, B.R. Niederlehner, Z.W. MungerG<\/sup>, S. ChenG<\/sup>, M.E. LoftonG<\/sup>, M.E. Schreiber, and C.C. Carey<\/strong>. 2018. Metalimnetic oxygen minimum zones decouple CH4 <\/sub>and CO2<\/sub> fluxes from seasonal turnover. Science of the Total Environment<\/em>. 636:610-620. DOI: 10.1016\/j.scitotenv.2018.04.255<\/p>\n

Mantzouki, E. and 194 co-authors, including C.C. Carey<\/strong>. 2018. A European Multi Lake Survey dataset of environmental parameters, phytoplankton pigments and cyanotoxins. Scientific <\/em>Data. <\/em>5: 180226. DOI: 10.1038\/sdata.2018.226\u00a0Mantzouki_etal_2018_SciData<\/a><\/p>\n

Cobourn, K.M., C.C. Carey<\/strong>, K.J. Boyle, C. Duffy, H.A. Dugan, K.J. FarrellP<\/sup>, L. FitchettG<\/sup>, P.C. Hanson, J.A. HartG<\/sup>, V.R. Henson, A.L. HetheringtonP<\/sup>, A.R. Kemanian, L.G. Rudstam, L. ShuG<\/sup>, P.A. Soranno, M.G. Sorice, J. StachelekG<\/sup>, N.K. WardG<\/sup>, K.C. Weathers, W. WengG<\/sup>, and Y. ZhangG<\/sup>. 2018. From concept to practice to policy: modeling coupled natural and human systems in lake catchments. Ecosphere. <\/em>9(5):e02209. DOI: 10.1002\/ecs2.2209 Open access at:\u00a0https:\/\/esajournals.onlinelibrary.wiley.com\/doi\/10.1002\/ecs2.2209<\/a><\/p>\n

Carey, C.C.<\/strong>, R.P. McClureG<\/sup>, J.P. DoubekG<\/sup>, M.E. LoftonG<\/sup>, N.K. WardG<\/sup>, and D. Scott. 2018. Chaoborus<\/em> spp. transport CH4<\/sub> from the sediments to the surface waters of a eutrophic reservoir, but their contribution to water column CH4<\/sub> concentrations and diffusive efflux is minor. Environmental Science & Technology<\/em>. 52:1165-1173. DOI 10.1021\/acs.est.7b04384 <Carey_etal_2018_ES&T<\/a>><\/strong><\/p>\n

Leach, T.H., B.E. Beisner, C.C. Carey<\/strong>, P. Pernica, K.C. Rose, Y. Huot, J.A. Brentrup, I. Domaizon, H.-P. Grossart, B.W. Ibelings, P.T. Kelly, S. Jacquet, J.A. Rusak, J.D. Stockwell, D. Straile, and P. Verburg. 2018. Patterns and drivers of deep chlorophyll maxima structure in 100 lakes: the relative importance of light and thermal stratification. Limnology and Oceanography. <\/em>63:628-646 DOI: 10.1002\/lno.10656 <Leach_et_al-2018-Limnology_and_Oceanography><\/a><\/strong><\/p>\n

Carey, C.C.<\/strong>, J.P. DoubekG<\/sup>, R.P. McClureG<\/sup>, and P.C. Hanson. Oxygen dynamics control the burial of organic carbon in a eutrophic reservoir. 2018. Limnology and Oceanography-Letters.\u00a0<\/em>3:293-301. DOI: 10.1002\/lol2.10057 <Carey_et_al-2018-Limnology_and_Oceanography_Letters><\/a><\/strong><\/p>\n

ChenG<\/sup>, S., J.C. Little, C.C. Carey<\/strong>, R.P. McClureG<\/sup>, M.E. LoftonG<\/sup>, and C. Lei. Three-dimensional effects of artificial mixing in a shallow drinking-water reservoir. 2018. Water Resources Research. <\/em>54:425-441. DOI. 10.1002\/2017WR021127 <Chen_et_al-2018-Water_Resources_Research><\/a><\/strong><\/p>\n

ChenG<\/sup>, S., C.C. Carey<\/strong>, J.C. Little, M.E. LoftonG<\/sup>, R.P. McClureG<\/sup>, and C. Lei. 2018. Effectiveness of a bubble-plume mixing system for managing phytoplankton in lakes and reservoirs. Ecological Engineering<\/em>. 113:43-51. DOI: 10.1016\/j.ecoleng.2018.01.002 <Chen_etal_2018_EcolEngineering<\/a>><\/strong><\/p>\n

Mantzouki, E. and 194 co-authors, including C.C. Carey<\/strong>. 2018. Temperature effects explain continental scale distribution of cyanobacterial toxins. Toxins. <\/em>10(4):156. DOI: 10.3390\/toxins10040156 <Open-access at http:\/\/www.mdpi.com\/2072-6651\/10\/4\/156\/htm><\/p>\n

2017<\/strong><\/p>\n

Carey, C.C.<\/strong>, B.L. Brown, and K.L. Cottingham. 2017. Cyanobacterial blooms increase the stability and network complexity of phytoplankton communities. Ecosphere. <\/em>8(7):e01830. DOI: 10.1002\/ecs2.1830 <Carey_et_al-2017-Ecosphere<\/a><\/strong>><\/p>\n

Carey, C.C.<\/strong> and R.D. Gougis. 2017. Simulation modeling of lakes in undergraduate and graduate classrooms increases comprehension of climate change concepts and experience with computational tools.\u00a0 Journal of Science Education and Technology<\/em>. 26: 1-11. DOI: 10.1007\/s10956-016-9644-2 <Carey&Gougis_2017_JSciEducTech<\/a><\/strong>><\/p>\n

Klug, J.L., C.C. Carey<\/strong>, D.C. Richardson, and R.D. Gougis. 2017. Analysis of high-frequency and long-term data in undergraduate ecology classes improves quantitative literacy. Ecosphere<\/em>. 8(3):e01733 DOI: 10.1002\/ecs2.1733 <Klug_et_al-2017-Ecosphere<\/a><\/strong>><\/p>\n

Subratie, K.G<\/sup>, S. Aditya, R. Figueiredo, C.C. Carey<\/strong>, and P. Hanson. 2017. GRAPLEr: A distributed collaborative environment for lake ecosystem modeling that integrates overlay networks, high-throughput computing, and web services. Concurrency and Computation: Practice and Experience<\/em>. 29(13):e4139 DOI: 10.1002\/cpe.4139 <Subratie_et_al-2017-Concurrency_and_Computation__Practice_and_Experience><\/a><\/strong><\/p>\n

Hampton, S.E., A.W.E. Galloway, S.M. Powers, T. Ozersky, K.H. Woo, R.D. Batt, S.G. Laboo, C.M. O\u2019Reilly, S. Sharma, N.R. Lottig, E.H. Stanley, R.L. North, J.D. Stockwell, R. Adrian, G.A. Weyhenmeyer, L. Arvola, H.M. Baulch, I. Bertani, L.L. Bowman, C.C. Carey<\/strong>, J. Catalan, W. Colom-Montero, L.M. Domine, M. Felip, I. Granados, C. Gries, H.-P. Grossart, J. Haberman, M. Haldna, B. Hayden, S.N. Higgins, J.C. Jolly, K.K. Kahilainen, E. Kaup, M.J. Kehoe, S. MacIntyre, A.W. Mackay, H.L. Mariash, R. M. McKay, B. Nixdorf, P. Noges, T. Noges, M. Palmer, D.C. Pierson, D.M. Post, M.J. Pruett, M. Rautio, J.S. Read, S.L. Roberts, J. Rucker, S. Sadro, E.A. Silow, D.E. Smith, R.W. Sterner, G.E.A. Swann, M.A. Timofeyev, M. Toro, M.R. Twiss, R.G. Vogt, S.B. Watson, E.J. Whiteford, and M.A. Xenopoulos. Ecology under lake ice. 2017. Ecology Letters<\/em>. 20: 98-111. DOI: 10.1111\/ele.12699 <Hampton_et_al-2017-Ecology_Letters<\/a><\/strong>><\/p>\n

Snortheim, C.A.G<\/sup>, P.C. Hanson, K.D. McMahon, J.S. Read, C.C. Carey<\/strong>, and H.A. Dugan. 2017. Meteorological drivers of hypolimnetic anoxia in a eutrophic, north temperate lake. Ecological Modelling<\/em>. 343: 39-53. DOI: 10.1016\/j.ecolmodel.2016.10.014 <Snortheim_etal_2017_EcolModelling<\/a><\/strong>><\/p>\n

O\u2019Reilly, C.M., R.D. Gougis, J.L. Klug, C.C. Carey<\/strong>, D.C. Richardson, N.E. Bader, D.C. Soule, D. Castendyk, T. Meixner, J. Stromberg, K.C. Weathers, and W. Hunter. 2017. Using large datasets for open-ended inquiry in undergraduate science classrooms. Bioscience<\/em>. 67:1052-1061. DOI: 10.1093\/biosci\/bix118 <OReilly_etal_2017_Bioscience<\/a><\/strong>><\/p>\n

Pauli, J.N., C.C. Carey<\/strong>, and M.Z. Peery. 2017. Green sloths and brown cows: the role of dominant mammalian herbivores in carbon emissions for tropical agro-ecosystems. Mammal Review<\/em>. 47:164-168. DOI: 10.1111\/mam.12086 <Pauli_et_al-2017-Mammal_Review><\/a><\/strong><\/p>\n

Chen, S.G<\/sup>, C. Lei, C.C. Carey<\/strong>, P.A. Gantzer, and J.C. Little. 2017. Predicting hypolimnetic oxygenation and epilimnetic mixing in a shallow eutrophic reservoir using a coupled three-dimensional hydrodynamic model. Water Resources Research. <\/em>53: 470-484. DOI: 10.1002\/2016WR019279 <Chen_et_al-2017-Water_Resources_Research><\/a><\/strong><\/p>\n

HamreG<\/sup>, K.D., A.B. GerlingG<\/sup>, Z.W. MungerG<\/sup>, J.P. DoubekG<\/sup>, R.P. McClureG<\/sup>, K.L. Cottingham, and C.C. Carey<\/strong>. 2017. Spatial variation in dinoflagellate recruitment along a reservoir ecosystem continuum. 39:715-728\u00a0Journal of Plankton Research<\/em>. DOI: 10.1093\/plankt\/fbx004 <Hamre_etal_JPR_2017<\/a>><\/strong><\/p>\n

Doubek, J.P.G<\/sup>, and C.C. Carey.<\/strong> 2017. Catchment, morphometric, and water quality characteristics differ between reservoirs and naturally formed lakes on a latitudinal gradient in the continental United States. \u00a0Inland Waters. <\/em>7:171-180.\u00a0<\/em>DOI: 10.1080\/20442041.2017.1293317 <Doubek&Carey_2017_InlandWaters><\/a><\/strong><\/p>\n

Gougis, R.D., J.F. StrombergG<\/sup>, A. O\u2019Hare, N.E. Bader, T. Meixner, C.M. O\u2019Reilly, and C.C. Carey<\/strong>. 2017. Post-secondary science students\u2019 explanations of randomness and variation and implications for science learning. International <\/em>Journal of Science and Mathematics Education. <\/em>15:1039-1056.\u00a0DOI: 10.1007\/s10763-016-9737-7 <Gougis_etal_2017_IntJSciMathEd><\/a><\/strong>
\n<\/em><\/p>\n

Richardson, D.C., C.C. Carey<\/strong>, D.A. Bruesewitz, and K.C. Weathers. 2017. Intra- and inter-annual variability in metabolism in an oligotrophic lake. Aquatic Sciences<\/em>. 79:319-333. DOI: 10.1007\/s00027-016-0499-7 <Richardson_etal_AquaticSci_2017<\/a><\/strong>><\/p>\n

2016<\/strong><\/p>\n

Munger, Z.W.G<\/sup>, C.C. Carey<\/strong>, A.B. GerlingG<\/sup>, K.D. HamreG<\/sup>, J.P. DoubekG<\/sup>, S.D. KlepatzkiU<\/sup>, R.P. McClureG<\/sup>, and M.E. Schreiber. 2016. Effectiveness of hypolimnetic oxygenation for preventing accumulation of Fe and Mn in a drinking water reservoir. Water Research<\/em>. 106: 1-14. DOI: 10.1016\/j.watres.2016.09.038. <Munger_etal_2016_WaterRes<\/a><\/strong>><\/p>\n

Birgand, F., K. Aveni-Deforge, B. Smith, M. Horstman, B. MaxwellG<\/sup>, A.B. GerlingG<\/sup>, and C.C. Carey<\/strong>. 2016. First report of a novel multiplexer pumping system coupled to a water quality probe to collect high temporal frequency in situ<\/em> water chemistry measurements at multiple sites. Limnology and Oceanography: Methods<\/em>. 14: 767-783. DOI: 10.1002\/lom3.10122. <Birgand_et_al_2016_Limnology_and_Oceanography_Methods<\/a><\/strong>><\/p>\n

Gerling, A.B.G<\/sup>, Z.W. MungerG<\/sup>, J.P. DoubekG<\/sup>, K.D. HamreG<\/sup>, P.A. Gantzer, J.C. Little, and C.C. Carey<\/strong>. 2016. Whole-catchment manipulations of internal and external loading reveal the sensitivity of a century-old reservoir to hypoxia. Ecosystems. <\/em>19:555-571. DOI: 10.1007\/s10021-015-9951-0 <Gerling_etal_2016<\/a>><\/strong><\/p>\n

Carey, C.C.<\/strong>, P.C. Hanson, R.C. Lathrop, and A.L. St. Amand. 2016. Using wavelet analyses to examine variability in phytoplankton seasonal succession and annual periodicity. Journal of Plankton Research<\/em>. 38:27-40. DOI: 10.1093\/plankt\/fbv116 <Carey_etal._2016_JPR><\/a><\/strong><\/p>\n

Little, J.C., E. Hester, and C.C. Carey<\/strong>. 2016. Assessing and enhancing environmental sustainability \u2013 a conceptual review. Environmental Science & Technology. <\/em>50: 6830-6845. DOI: 10.1021\/acs.est.6b00298 <Little et al 2016 EST<\/a><\/strong>>
\n<\/em><\/p>\n

ChenG<\/sup>, S. C. Lei, C.C. Carey<\/strong> and J.C. Little. Modelling the effect of artificial mixing on thermal stability and substance transport in a drinking-water reservoir using a 3D hydrodynamic model. Proceedings of the 20th<\/sup> Australasian Fluid Mechanics Conference. Perth, Australia, 5-8 December 2016. <Chen_etal_2016_FluidMechanics<\/a><\/strong>><\/p>\n

Beisner, B.E. and C.C. Carey<\/strong>. Lake name or name lake? The etymology of lake nomenclature in the United States. Freshwater Biology<\/em>. 61: 1601-1609. DOI: 10.1111\/fwb.12795. <Beisner&Carey_2016_Freshwater_Biology<\/a><\/strong>><\/p>\n

ChenG<\/sup>, S., C. Lei, C.C. Carey<\/strong> and J.C. Little. Predicting the performance of an epilimnetic bubble-plume mixer in a shallow reservoir using a three-dimensional hydrodynamic model. Proceedings of the Australasian Heat and Mass Transfer Conference. Brisbane, Australia, July 2016. <Chen_etal_2016_AHMT<\/a><\/strong>><\/p>\n

Carey, C.C.<\/strong>, and K.L. Cottingham. Cross-scale perspectives: Integrating long-term and high-frequency data into our understanding of communities and ecosystems. Bulletin of the Ecological Society of America<\/em>. 97:129-132. DOI: 10.1002\/bes2.1205 <Carey&Cottingham_2016_ESABulletin><\/a><\/strong><\/p>\n

2015<\/strong><\/p>\n

Hipsey, M.R., D.P. Hamilton, P.C. Hanson, C.C. Carey<\/strong>, J.Z. Coletti, J.S. Read, B.W. Ibelings, F. Valesini, and J.D. Brookes. Predicting the resilience and recovery of aquatic systems: a framework for model evolution within environmental observatories. Water Resources Research. <\/em>51:7023-7043. DOI: 10.1002\/2015WR017175 <<\/em>Hipsey_etal._2015_Water_Resources_Research><\/a> <\/strong>
\n<\/em><\/p>\n

Doubek, J.P.G<\/sup>, C.C. Carey<\/strong>, and B.J. Cardinale. Anthropogenic land use is associated with N-fixing cyanobacterial dominance in lakes across the continental United States. Aquatic Sciences<\/em>. 77:681-694. DOI 10.1007\/s00027-015-0411-x <Doubek_etal_2015_AquaticSci<\/strong>><\/a><\/p>\n

Bruesewitz, D.A.,\u00a0C.C. Carey<\/b>, D.C. Richardson, and K.C. Weathers. Under-ice thermal stratification dynamics of a large, deep lake revealed by high-frequency data. Limnology & Oceanography<\/i>. 60:347-359. DOI:\u00a010.1002\/lno.10014 <Bruesewitz_etal._2015<\/a><\/strong>><\/p>\n

Carey, C.C.<\/strong>, R.D. Gougis, J.L. Klug, C.M. O\u2019Reilly, and D.C. Richardson. A model for using environmental data-driven inquiry and exploration to teach limnology to undergraduates. Limnology & Oceanography Bulletin<\/em>. 24:32-35. DOI: 10.1002\/lob.10020 <Carey_et_al_LOB_2015<\/a><\/strong>><\/p>\n

Brookes, J.D., and C.C. Carey<\/strong>. Goal 6: Ensure availability and sustainable management of water and sanitation for all. United Nations Chronicle<\/em>. 51(4):15-16. <Brookes_&_Carey_2015<\/a><\/strong>><\/p>\n

Sokol, E.R., B.L. Brown, C.C. Carey<\/strong>, B. TornwallG<\/sup>, C.M. Swan, and J.E. Barrett. Linking management to biodiversity in built ponds using metacommunity simulations. Ecological Modelling.\u00a0<\/em>296:36-45. DOI:10.1016\/j.ecolmodel.2014.10.022 <Sokol_et_al_2015<\/a><\/strong>><\/p>\n

Hansen, G.J.A.*, and C.C. Carey*<\/strong>. Fish and phytoplankton exhibit contrasting temporal species abundance patterns in a dynamic north temperate lake.\u00a0PLOS One.\u00a0<\/em>10(2): e0115414\u00a0<\/em>DOI: 10.1371\/journal.pone.0115414 \u00a0<Hansen&Carey_PLOSOne_2015<\/a><\/strong>> *Both authors contributed equally to this work.<\/p>\n

Cottingham, K.L., H.A. Ewing, M. Greer, C.C. Carey<\/b>, and K.C. Weathers. \u00a02015. Cyanobacteria as biological drivers of lake nitrogen and phosphorus cycling.\u00a0 Ecosphere.\u00a0<\/i>6(1):1 DOI: 10.1890\/ES14-00174.1 <Cottingham et al 2015 Ecosphere<\/a><\/strong>><\/p>\n

2014<\/strong><\/p>\n

Gerling, A.B.G<\/sup>, Browne, R.G.G<\/sup>, Gantzer, P.A., Mobley, M.H., Little, J.C., and\u00a0C.C. Carey<\/b>. 2014. First report of the successful operation of a side stream supersaturation hypolimnetic oxygenation system in a eutrophic, shallow reservoir.\u00a0 Water Research.\u00a0<\/i>67: 129-143.\u00a0doi: 10.1016\/j.watres.2014.09.002\u00a0<Gerling_etal_2014_WR<\/a><\/strong>><\/p>\n

Carey, C.C.,\u00a0<\/b><\/b>K.L. Cottingham, N.G. Hairston, Jr., and K.C. Weathers. \u00a02014. Trophic state mediates the effects of a large, colonial cyanobacterium on phytoplankton dynamics.\u00a0 Fundamental and Applied Limnology.\u00a0<\/i>184: 247-260. DOI: 10.1127\/1863-9135\/2014\/0492 <Carey et al 2014 FAL<\/strong><\/a>><\/p>\n

Carey, C.C.<\/b>,\u00a0<\/b>K.C. Weathers, H.A. Ewing, M.L. Greer, and K.L. Cottingham. 2014. Spatial and temporal variability in recruitment of the cyanobacterium\u00a0Gloeotrichia echinulata\u00a0<\/i>in an oligotrophic lake.\u00a0\u00a0Freshwater Science. \u00a0<\/i>33: 577-592. DOI: 10.1086\/675734\u00a0 *Chosen as the Featured Article of the issue <Carey_et_al_2014_FWS<\/a><\/strong>><\/p>\n

Carey, C.C.<\/b>,<\/strong>\u00a0K.L. Cottingham, K.C. Weathers, J.A. BrentrupU<\/sup>, N.M. RuppertsbergerU<\/sup>, H.A. Ewing, and N.G. Hairston, Jr.\u00a0 Facilitation in an oligotrophic lake: the cyanobacterium\u00a0Gloeotrichia echinulata<\/i>\u00a0stimulates phytoplankton biomass, richness, and diversity. \u00a02014.\u00a0Journal of Plankton Research. <\/i>36:364-377. <\/i>doi: 10.1093\/plankt\/fbt105 \u00a0<Carey_etal_J. Plankton Res_2014<\/a>>\u00a0 *<\/strong>Cover article of the issue<\/p>\n

Hamilton, D.P., C.C. Carey<\/strong>, L. Arvola, P. Arzberger, C. Brewer, J.J. Cole, E. Gaiser, P.C. Hanson, B.W. Ibelings, E. Jennings, T.K. Kratz, F.-P. Lin, C.G. McBride, D. de Motta Marques, K. Muraoka, A. Nishri, B. Qin, J.S. Read, K.C. Rose, E. Ryder, K.C. Weathers, G. Zhu, D. Trolle, and J.D. Brookes. 2014. A Global Lake Ecological Observatory Network (GLEON) for synthesising high-frequency sensor data for validation of deterministic ecological models. Inland Waters. <\/em>5: 49-56. DOI: 10.5268\/IW-5.1.566 <Hamilton_etal_IW_2014<\/a><\/strong>><\/p>\n

Brookes, J.D., C.C. Carey<\/b>, D.P. Hamilton, L. Ho, L. van der Linden, R. Renner, and A. Rigosi. 2014. Emerging challenges for the drinking water industry. Environmental Science & Technology. <\/i>48:2099-2101. \u00a0DOI: 10.1021\/es405606t <Brookes_et_al_2014_ES&T<\/a>><\/strong><\/p>\n

Rigosi, A., C.C. Carey<\/b>, B.W. Ibelings, and J.D. Brookes. 2014. The interaction between climate warming and eutrophication to promote cyanobacteria is dependent on trophic state and varies among taxa. Limnology and Oceanography<\/em>. \u00a059:99-114. DOI: 10.4319\/lo.2014.59.01.0099 <Rigosi_etal_2014_L&O<\/a>><\/strong><\/p>\n

Pauli, J.N., J.E. Mendoza, S.A. Steffan, C.C. Carey<\/b>, P.J. Weimer, and M.Z. Peery. \u00a02014. A syndrome of mutualism reinforces the life history of a sloth.\u00a0 Proceedings of the Royal Society B<\/i>. \u00a0281: 20133006.\u00a0DOI: 10.1098\/rspb.2013.3006 <Proc. R. Soc. B_Pauli_etal_2014<\/a>>\u00a0<\/strong><\/p>\n

Baustian, M.M., Hansen, G.J.A., de Kluijver, A., Robinson, K., Henry, E.N., Knoll, L.B., Rose, K.C., and C.C. Carey<\/strong>. 2014. Linking the bottom to the top in aquatic ecosystems: mechanisms and stressors of benthic-pelagic coupling, p. 25-47. In P.F. Kemp [ed.], Eco-DAS X Symposium Proceedings, ASLO. DOI: 10.4319\/ecodas.2014.978-0-9845591-4-5.25 <Baustian_etal_2014<\/a><\/strong>><\/p>\n

2013<\/strong><\/p>\n

Bertilsson, S., A. Burgin,\u00a0C.C. Carey<\/b>, S.B. Fey, H.-P. Grossart, L. Grubisic, I. Jones, G. Kirillin, J.T. Lennon, A. Shade, and R.L. Smyth. 2013. The under-ice microbiome of seasonally frozen lakes.\u00a0 Limnology and Oceanography<\/em>.\u00a0<\/i>58:1998-2012. DOI: 10.4319\/lo.2013.58.6.1998 <Bertilsson_et_al_UnderIceMicrobes_L&O_2013<\/a>><\/strong><\/p>\n

Weathers, K.C., P.C. Hanson, P. Arzberger, J. Brentrup, J. Brookes, C.C. Carey<\/b>, E. Gaiser, D.P. Hamilton, G.S. Hong, B. Ibelings, E. Jennings, B. Kim, T. Kratz, F.-P. Lin, K. Muraoka, C. O\u2019Reilly, C. Piccolo, K.C. Rose, G. Zhu. The Global Lake Ecological Observatory Network (GLEON): the evolution of grassroots network science. 2013. Limnology and Oceanography Bulletin<\/em>. <\/i>22:71-73. <Weathers_etal_2013_L&O_Bulletin<\/a>><\/strong><\/p>\n

2012 \u00a0<\/strong><\/p>\n

Carey, C.C.<\/strong>, H.A. Ewing, K.L. Cottingham, K.C. Weathers, R.Q. Thomas, and J.F. Haney. 2012. Occurrence and toxicity of the cyanobacterium\u00a0Gloeotrichia echinulata<\/em>\u00a0in low-nutrient lakes in the northeastern United States. Aquatic Ecology<\/em> 46: 395\u2013409 DOI: 10.1007\/s10452-012-9409-9 <Carey_2012_Aquat Ecol<\/a>><\/strong><\/p>\n

Carey, C.C.<\/strong>, B.W. Ibelings, E.P. Hoffman, D.P. Hamilton, and J.D. Brookes. \u00a02012. Eco-physiological adaptations that favour freshwater cyanobacteria in a changing climate.\u00a0Water Research. <\/em>46: 1394-1407. DOI: 10.1016\/j.watres.2011.12.016<\/a><\/span> <Carey_2012_Water Res<\/a>><\/strong><\/p>\n

Capps, K.A., C.L. Atkinson, A. Rugenski, C. Baxter, K.S. Boersma, C.C. Carey<\/b>, P.B. McIntyre, J.W. Moore, W.H. Nowlin, and C.C. Vaughn. \u00a02012. Impacts of species addition and species loss on ecosystem function in freshwater systems.\u00a0 Bulletin of the Ecological Society of America<\/em> 93: 402-408. DOI: 10.1890\/0012-9623-93.4.402<\/a> <Capps_2012_Bulletin of the Ecological Society of America<\/a>><\/strong><\/p>\n

Kara, E.L., P.C. Hanson, D.P. Hamilton, M. Hipsey, K.D. McMahon, J.S. Read, L. Winslow, J. Dedrick, K.C. Rose,\u00a0C.C. Carey<\/strong>, S. Bertilsson, D. da Motta Marques, L. Beversdorf, T. Miller, C. Wu, Y.-F. Hsieh, E. Gaiser, and T.K. Kratz. \u00a02012. Time-scale dependence in numerical simulations: assessment of physical, chemical, and biological predictions in a stratified lake at temporal from scales of hours to months.\u00a0Environmental Modelling and Software.<\/em> 35:104-121. DOI: 10.4319\/lo.2013.58.6.1998\u00a0<Kara_2012_Environmental Modelling and Software<\/a>><\/strong><\/p>\n

Carey, C.C.<\/strong>, P.C. Hanson, D.A. Bruesewitz, G.W. Holtgrieve, E.L. Kara, K.C. Rose, R.L. Smyth, and K.C. Weathers. \u00a02012. Novel applications of high-frequency sensor data in aquatic ecosystems: discoveries from GLEON, the Global Lake Ecological Observatory Network.\u00a0Bulletin of the Ecological Society of America<\/em>.\u00a0 93: 100-105. DOI: 10.1890\/0012-9623-93.1.100\u00a0 <Carey_2012_Bulletin of the Ecological Society of America<\/a>><\/strong><\/p>\n

2011 \u00a0<\/strong><\/p>\n

Brookes, J.D.* and\u00a0C.C. Carey<\/strong>*.\u00a0 2011.\u00a0 Resilience to blooms.\u00a0\u00a0Science<\/em>\u00a0334: 46-47.\u00a0DOI: 10.1126\/science.1207349 *Both authors contributed equally to this work.<\/p>\n

Carey, C.C<\/strong>., and E. Rydin. \u00a02011. Lake trophic status may be determined by the depth distribution of sediment phosphorus.\u00a0\u00a0Limnology and Oceanography<\/em>\u00a056: 2051-2063. DOI: 10.4319\/lo.2011.56.6.2051 <Carey_2011_Limnol Oceanogr<\/a>><\/strong><\/p>\n

Carey, C.C.<\/strong>, M.P. Ching, S.M. Collins, A.M. Early, W.W. Fetzer, D. Chai, N.G. Hairston, Jr.\u00a0 2011. Predator-dependent diel migration by\u00a0Halocaridina rubra<\/em>\u00a0shrimp (Malacostraca: Atyidae) in Hawaiian anchialine pools.\u00a0Aquatic Ecology\u00a0<\/em>45: 35-41. DOI: 10.1007\/s10452-010-9321-0 <Carey_2011_Aquat Ecol<\/a>><\/strong><\/p>\n

2010\u00a0\u00a0\u00a0<\/strong><\/p>\n

Carey, C.C.<\/strong>\u00a0and K. Rengefors.\u00a0 2010. The cyanobacterium\u00a0Gloeotrichia echinulata\u00a0<\/em>stimulates algal division.\u00a0\u00a0Journal of Plankton Research.<\/em> 32: 1349-1354.\u00a0DOI: 10.1093\/plankt\/fbq046 <Carey_2010_J Plankton Res<\/a>><\/strong><\/p>\n

2009\u00a0\u00a0\u00a0 <\/strong><\/p>\n

Shade, A.,\u00a0C.C. Carey,<\/strong>\u00a0E. Kara, S. Bertilsson, K.D. McMahon, and M.C. Smith.\u00a0\u00a02009.\u00a0Can the black box be cracked?\u00a0 The augmentation of microbial ecology with high-resolution, automated sensing technologies.\u00a0\u00a0ISME Journal<\/em>\u00a03: 881-888. DOI: 10.1038\/ismej.2009.56 <Shade_2009_IsmeJ<\/a>><\/strong><\/p>\n

Carey, C.C<\/strong>., Weathers, K.C., and K.L. Cottingham.\u00a0 2009.\u00a0 Increases in phosphorus at the\u00a0sediment-water interface may accelerate the initiation of cyanobacterial blooms in an\u00a0oligotrophic lake.\u00a0\u00a0Verhandlungen der Internationalen Vereinigung der Limnologie.\u00a0<\/em>30:1185-1188. <Carey_2009_Verh. Internat. Verein. Limnol<\/a>><\/strong><\/p>\n

2008\u00a0\u00a0\u00a0\u00a0<\/strong><\/p>\n

Carey, C.C.<\/strong>, Weathers, K.C., and K.L. Cottingham.\u00a0 2008.\u00a0\u00a0Gloeotrichia echinulata<\/em>\u00a0blooms in\u00a0an oligotrophic lake:\u00a0 Helpful insights from eutrophic lakes.\u00a0\u00a0Journal of Plankton Research.<\/em> \u00a0230: 893-904. DOI: 10.1093\/plankt\/fbn055 <Carey_2008_J Plankton Res<\/a>><\/strong><\/p>\n

Benson, B.J., Winslow, L.,\u00a0 Arzberger, P.,\u00a0Carey, C.C.<\/strong>,\u00a0Fountain, T., Hanson, P.C., Kratz,\u00a0T.K., and S. Tilak. 2008. Meeting the challenges of an international, grassroots organization of\u00a0sites deploying sensor networks: the Global Lake Ecological Observatory Network\u00a0(GLEON). Pages 33-38 in Gries, C. and M.B. Jones, eds.\u00a0Proceedings of the\u00a0Environmental Information Management 2008 Conference. <<\/em>Benson_2008_Proceedings of the Environmental Information Management Conference 2008<\/a>><\/strong><\/p>\n

2007\u00a0\u00a0\u00a0\u00a0<\/strong><\/p>\n

Carey, C.C.<\/strong>, Haney, J.F., and K.L. Cottingham.\u00a0 2007.\u00a0 First report of microcystin-LR in\u00a0Gloeotrichia echinulata<\/em>.\u00a0\u00a0Environmental Toxicology<\/em>\u00a022: 337-339. \u00a0DOI: 10.1002\/tox.20245 <Carey_2007_Environ Toxicol<\/a>><\/strong><\/p>\n","protected":false},"excerpt":{"rendered":"

G = mentored graduate student, U = mentored undergraduate student, P = mentored postdoctoral researcher, T\u00a0= mentored technician In press Hipsey, M.R., C.C. Carey, J.D. Brookes, M. Burford, B.W. Ibelings, and D.P. Hamilton. Integrating phytoplankton phenology, traits, and model-data fusion to advance bloom prediction. In press at Limnology & Oceanography-Letters. DOI: 10.1002\/lol2.70052 Wander, H.L.G, M.E. LoftonP, J.P. DoubekG, M.R. Hipsey, and R.Q. Thomas, and C.C. Carey. Warming air temperatures alter the timing and magnitude of reservoir zooplankton biomass. In press…<\/p>\n

Read More Read More<\/span><\/a><\/p>\n","protected":false},"author":3,"featured_media":0,"parent":0,"menu_order":3,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_monsterinsights_skip_tracking":false,"_monsterinsights_sitenote_active":false,"_monsterinsights_sitenote_note":"","_monsterinsights_sitenote_category":0,"footnotes":""},"class_list":["post-29","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/carey.biol.vt.edu\/index.php?rest_route=\/wp\/v2\/pages\/29","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/carey.biol.vt.edu\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/carey.biol.vt.edu\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/carey.biol.vt.edu\/index.php?rest_route=\/wp\/v2\/users\/3"}],"replies":[{"embeddable":true,"href":"https:\/\/carey.biol.vt.edu\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=29"}],"version-history":[{"count":57,"href":"https:\/\/carey.biol.vt.edu\/index.php?rest_route=\/wp\/v2\/pages\/29\/revisions"}],"predecessor-version":[{"id":1854,"href":"https:\/\/carey.biol.vt.edu\/index.php?rest_route=\/wp\/v2\/pages\/29\/revisions\/1854"}],"wp:attachment":[{"href":"https:\/\/carey.biol.vt.edu\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=29"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}