Refereed Publications
18. G. Iverson, C. Sanderford, C. P. Humphrey, J. R. Etheridge, T. Kelly. 2020. Fecal Indicator Bacteria Transport from Watersheds with Differing Wastewater Technologies and Septic System Densities. Applied Sciences 10(18). doi: 10.3390/app10186525.
17. A. K. Manda, J. R. Etheridge, C. Grace-McCaskey, T. R. Allen, R. Howard. 2020. Are groundwater level data collected by citizen scientists trustworthy? A cautionary tale. Groundwater. doi: 10.1111/gwat.13019.
16. S. Curtis, R. Etheridge, P. Malali, A.L. Peralta, F. Filho. 2020. Planning for Future Solar Farm Development in North Carolina: A Geographic Food Energy-Water Approach. Southeastern Geographer 60(1): 48–64. doi: 10.1353/sgo.2020.0004.
15. B. R. Hinckley*, J. R. Etheridge, A. L. Peralta. 2019. Wetland Conditions Differentially Influence Nitrogen Processing within Waterfowl Impoundments. Wetlands. doi: 10.1007/s13157-019-01246-8.
14. B. R. Hinckley*, J. R. Etheridge, A. L. Peralta. 2019. Storm Event Nitrogen Dynamics in Waterfowl Impoundments. Water Air Soil Pollut 230(12): 294. doi: 10.1007/s11270-019-4332-5.
13. J. R. Etheridge, A. K. Manda, C. Grace-McCaskey, T. Allen, H. Hao. 2019. Lessons learned from public participation in hydrologic engineering projects. Hydrological Sciences Journal. doi: 10.1080/02626667.2019.1700420.
12. T. Messer, K. Douglas-Mankin, N. Nelson, J. R. Etheridge. 2019. Wetland Ecosystem Resilience: Protecting and Restoring Valuable Ecosystems. Transactions of the ASABE 62(6): 1541–1543. doi: 10.13031/trans.13578.
11. C. A. Grace-McCaskey, B. Iatarola, A. K. Manda, J. R. Etheridge. 2019. Eco-Ethnography and Citizen Science: Lessons from Within. Society & Natural Resources 32(10):1123-1138. doi: 10.1080/08941920.2019.1584343.
10. J. R. Etheridge, M. Randolph**, C. Humphrey. 2019. Real-Time Estimates of Escherichia coli Concentrations Using Ultraviolet-Visible Spectrometers. Journal of Environmental Quality 48(2):531-536. doi:10.2134/jeq2018.08.0294.
9. J. R. Etheridge, M. R. Burchell II, F. Birgand. 2017. Can created tidal marshes reduce nitrate export to downstream estuaries? Ecological Engineering 105:314-324.
8. C. L. Osburn, M. P. Mikan, J. R. Etheridge, M. R. Burchell II, F. Birgand. 2015. Seasonal variation in the quality of dissolved and particulate organic matter exchanged between a salt marsh and its adjacent estuary. Journal of Geophysical Research: Biogeosciences 120. doi:10.1002/2014JG002897.
7. K. Granlund, K. Rankinen, R. Etheridge, P. Seuri, J. Lehtoranta. 2015. Ecological recycling agriculture can reduce inorganic nitrogen losses – model results from three Finnish catchments. Agricultural Systems 133: 167-176. doi:10.1016/j.agsy.2014.10.015.
6. J. R. Etheridge, F. Birgand, M. R. Burchell II. 2015. Quantifying nutrient and suspended solids fluxes in a constructed tidal marsh following rainfall: The value of capturing the rapid changes in flow and concentrations. Ecological Engineering 78:41-52. doi:10.1016/j.ecoleng.2014.05.021.
5. J. R. Etheridge, F. Birgand, M. R. Burchell II, A. Lepistö, K. Rankinen, K. Granlund. 2014. Technical note: Alternative in-stream denitrification equation for the INCA-N model. Hydrology and Earth System Sciences 18: 1467-1473. doi:10.5194/hess-18-1467-2014.
4. J. R. Etheridge, F. Birgand, J. A. Osborne, C. L. Osburn, M. R. Burchell II, J. Irving. 2014. Using in-situ UV-Visual spectroscopy to measure nitrogen, carbon, phosphorus, and suspended solids concentrations in a brackish tidal marsh. Limnology and Oceanography: Methods 12: 10-22. doi:10.4319/lom.2014.12.10.
3. K. Rankinen, K. Granlund, R. Etheridge, P. Seuri. 2014. Valuation of nitrogen retention as an ecosystem service on a catchment scale. Hydrology Research 45(3): 411-424. doi:10.2166/nh.2013.239.
2. J. R. Etheridge, F. Birgand, M. R. Burchell II, B. T. Smith. 2013. Addressing the fouling of in-situ UV-Visual spectrometers used to continuously monitor water quality in brackish tidal marsh waters. Journal of Environmental Quality 42(6): 1896-1901. doi:10.2134/jeq2013.02.0049.
1. J. R. Etheridge, A. Lepistö, K. Granlund, K. Rankinen, F. Birgand, M. R. Burchell II. 2014. Reducing uncertainty in the calibration and validation of the INCA-N model by using soft data. Hydrology Research 45(1): 73-88. doi:10.2166/nh.2013.039.
17. A. K. Manda, J. R. Etheridge, C. Grace-McCaskey, T. R. Allen, R. Howard. 2020. Are groundwater level data collected by citizen scientists trustworthy? A cautionary tale. Groundwater. doi: 10.1111/gwat.13019.
16. S. Curtis, R. Etheridge, P. Malali, A.L. Peralta, F. Filho. 2020. Planning for Future Solar Farm Development in North Carolina: A Geographic Food Energy-Water Approach. Southeastern Geographer 60(1): 48–64. doi: 10.1353/sgo.2020.0004.
15. B. R. Hinckley*, J. R. Etheridge, A. L. Peralta. 2019. Wetland Conditions Differentially Influence Nitrogen Processing within Waterfowl Impoundments. Wetlands. doi: 10.1007/s13157-019-01246-8.
14. B. R. Hinckley*, J. R. Etheridge, A. L. Peralta. 2019. Storm Event Nitrogen Dynamics in Waterfowl Impoundments. Water Air Soil Pollut 230(12): 294. doi: 10.1007/s11270-019-4332-5.
13. J. R. Etheridge, A. K. Manda, C. Grace-McCaskey, T. Allen, H. Hao. 2019. Lessons learned from public participation in hydrologic engineering projects. Hydrological Sciences Journal. doi: 10.1080/02626667.2019.1700420.
12. T. Messer, K. Douglas-Mankin, N. Nelson, J. R. Etheridge. 2019. Wetland Ecosystem Resilience: Protecting and Restoring Valuable Ecosystems. Transactions of the ASABE 62(6): 1541–1543. doi: 10.13031/trans.13578.
11. C. A. Grace-McCaskey, B. Iatarola, A. K. Manda, J. R. Etheridge. 2019. Eco-Ethnography and Citizen Science: Lessons from Within. Society & Natural Resources 32(10):1123-1138. doi: 10.1080/08941920.2019.1584343.
10. J. R. Etheridge, M. Randolph**, C. Humphrey. 2019. Real-Time Estimates of Escherichia coli Concentrations Using Ultraviolet-Visible Spectrometers. Journal of Environmental Quality 48(2):531-536. doi:10.2134/jeq2018.08.0294.
9. J. R. Etheridge, M. R. Burchell II, F. Birgand. 2017. Can created tidal marshes reduce nitrate export to downstream estuaries? Ecological Engineering 105:314-324.
8. C. L. Osburn, M. P. Mikan, J. R. Etheridge, M. R. Burchell II, F. Birgand. 2015. Seasonal variation in the quality of dissolved and particulate organic matter exchanged between a salt marsh and its adjacent estuary. Journal of Geophysical Research: Biogeosciences 120. doi:10.1002/2014JG002897.
7. K. Granlund, K. Rankinen, R. Etheridge, P. Seuri, J. Lehtoranta. 2015. Ecological recycling agriculture can reduce inorganic nitrogen losses – model results from three Finnish catchments. Agricultural Systems 133: 167-176. doi:10.1016/j.agsy.2014.10.015.
6. J. R. Etheridge, F. Birgand, M. R. Burchell II. 2015. Quantifying nutrient and suspended solids fluxes in a constructed tidal marsh following rainfall: The value of capturing the rapid changes in flow and concentrations. Ecological Engineering 78:41-52. doi:10.1016/j.ecoleng.2014.05.021.
5. J. R. Etheridge, F. Birgand, M. R. Burchell II, A. Lepistö, K. Rankinen, K. Granlund. 2014. Technical note: Alternative in-stream denitrification equation for the INCA-N model. Hydrology and Earth System Sciences 18: 1467-1473. doi:10.5194/hess-18-1467-2014.
4. J. R. Etheridge, F. Birgand, J. A. Osborne, C. L. Osburn, M. R. Burchell II, J. Irving. 2014. Using in-situ UV-Visual spectroscopy to measure nitrogen, carbon, phosphorus, and suspended solids concentrations in a brackish tidal marsh. Limnology and Oceanography: Methods 12: 10-22. doi:10.4319/lom.2014.12.10.
3. K. Rankinen, K. Granlund, R. Etheridge, P. Seuri. 2014. Valuation of nitrogen retention as an ecosystem service on a catchment scale. Hydrology Research 45(3): 411-424. doi:10.2166/nh.2013.239.
2. J. R. Etheridge, F. Birgand, M. R. Burchell II, B. T. Smith. 2013. Addressing the fouling of in-situ UV-Visual spectrometers used to continuously monitor water quality in brackish tidal marsh waters. Journal of Environmental Quality 42(6): 1896-1901. doi:10.2134/jeq2013.02.0049.
1. J. R. Etheridge, A. Lepistö, K. Granlund, K. Rankinen, F. Birgand, M. R. Burchell II. 2014. Reducing uncertainty in the calibration and validation of the INCA-N model by using soft data. Hydrology Research 45(1): 73-88. doi:10.2166/nh.2013.039.