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Additional Information:
Authorship Contribution Statement:
CCC developed and led the reservoir monitoring program 2013-present. AGH is the point person for dissolved GHG data collation, QA/QC, and publishing for 2021. RPM was the point person for the dissolved GHG data analysis, collation, QA/QC, and publishing from 2015-2020; ABG co-developed sampling protocol with CCC and was the point person for spring-summer 2015. ASL coordinated GHG data collation, assisted with QA/QC, and data publishing in 2020-2021. BRN conducted all dissolved GHG analysis in 2020-2021 and all QA/QC curves.
Oxygenation Information:
From 2015 to 2021, multiple whole-ecosystem manipulations were conducted at Falling Creek Reservoir. These manipulations include intermittent operation of hypolimnetic oxygenation and pulsed epilimnetic mixing engineering systems. For a detailed description of the hypolimnetic oxygenation engineered system, see Gerling et al. (2014) and for a detailed description of the epilimnetic mixing engineered system, see Chen et al. (2017). These systems were operated over time following Table 1 in Gerling et al. (2016), Table 1 in Munger et al. (2016), and Table 2 in McClure et al. (2018). In 2019, the HOx was activated during the following time periods: 29 June to 11 September, 25 September to 02 December. In 2020, the HOx was activated during the following time periods: 29 June to 11 September, 25 September to 02 December. In 2021, the HOx was activated during the following time periods: 11 June to 28 June, 26 July to 6 December 2021.
Chen, S., C. Lei, C.C. Carey, 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. 53: 470-484. DOI: 10.1002/2016WR019279
Gerling, A.B., Browne, R.G., Gantzer, P.A., Mobley, M.H., Little, J.C., and C.C. Carey. 2014. First report of the successful operation of a side stream supersaturation hypolimnetic oxygenation system in a eutrophic, shallow reservoir. Water Research. 67: 129-143. doi: 10.1016/j.watres.2014.09.002
Gerling, A.B., Z.W. Munger, J.P. Doubek, K.D. Hamre, P.A. Gantzer, J.C. Little, and C.C. Carey. 2016. Whole-catchment manipulations of internal and external loading reveal the sensitivity of a century-old reservoir to hypoxia. Ecosystems. 19:555-571. DOI: 10.1007/s10021-015-9951-0
McClure, R.P., K.D. Hamre, B.R. Niederlehner, Z.W. Munger, S. Chen, M.E. Lofton, M.E. Schreiber, and C.C. Carey. 2018 Metalimnetic oxygen minima alter the vertical profiles of carbon dioxide and methane in a managed freshwater reservoir. Science of the Total Environment 636: 610-620. DOI: 10.1016/j.scitotenv.2018.04.255
Munger, Z.W., C.C. Carey, A.B. Gerling, K.D. Hamre, J.P. Doubek, S.D. Klepatzki, R.P. McClure, and M.E. Schreiber. 2016. Effectiveness of hypolimnetic oxygenation for preventing accumulation of Fe and Mn in a drinking water reservoir. Water Research. 106: 1-14. DOI: 10.1016/j.watres.2016.09.038
Lofton, M.E., McClure, R.P., Chen, S., Little, J.C., and C.C. Carey. 2019. Whole-ecosystem experiments reveal varying responses of phytoplankton functional groups to epilimnetic mixing in a eutrophic reservoir. Water. 11, 222; DOI:10.3390/w11020222
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