Abstract
Rehabilitation of floodplain systems focuses on restoring interactions between the fluvial system and floodplain, however, there is a paucity of information on the effects of valley plugs and shoals on floodplain hydrological processes. We investigated hydrologic regimes in floodplains at three valley plug sites, two shoal sites, and three unchannelized sites. Valley plug sites had altered surface and sub-surface hydrology relative to unchannelized sites, while only sub-surface hydrology was affected at shoal sites. Some of the changes were unexpected, such as reduced flood duration and flood depth in floodplains associated with valley plugs. Our results emphasize the variability associated with hydrologic processes around valley plugs and our rudimentary understanding of the effects associated with these geomorphic features. Water table levels were lower at valley plug sites compared to unchannelized sites, however, valley plug sites had a greater proportion of days when water table inundation was above mean root collar depth than both shoal and unchannelized sites as a result of lower root collar depths and higher deposition rates. This study has provided evidence that valley plugs can affect both surface and sub-surface hydrology in different ways than previously thought and illustrates the variability in hydrological responses to valley plug formation.
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References
AMS (2000) American Meterorological society glossary, 2nd edn. Boston, Massachusetts
Astrom M, Aaltonen E, Koivusaari J (2001) Effects of ditching operations on stream-water chemistry in a boreal forested catchment. The Science of the Total Environment 279:117–129
Burt TP, Bates PD, Stewart MD, Claxton AJ, Anderson MG, Price DA (2002) Water table fluctuations within the floodplain of the river Severn, England. Journal of Hydrology 262:1–20
Diehl T (2000) Shoals and valley plugs in the Hatchie River Watershed. 00–4279. USGS, Nashville, Tennessee
Emerson J (1971) Channelization: a case study. Science 173:325–326
Essery CI, Wilcock DN (1990) The impact of channelization on the hydrology of the Upper River main, county Antrim, Northern Ireland – long term case study. Regulated Rivers: Research and Management 5:17–34
Flowers RL (1964) Soil survey of Fayette county, Tennessee. U.S. Dept. of Agric. Soil Surv. Service. No. 13, pp 168
Freeman MC, Pringle CM, Jackson CR (2007) Hydrologic connectivity and the contribution of stream headwaters to ecological integrity at region scales. Journal of the American Water Resources Association 43:5–14
Happ SC (1975) Genetic classification of valley sediment deposits. pp 286–292. In V.A. Vanoni ed. Sedimentation engineering: New York, American Society of Civil Engineers
Happ SC, Rittenhouse G, Dobson G (1940) Some principles of accelerated stream and valley sedimentation. Technical Bulletin 695, U.S. Department of Agriculture
Harrelson CC, Rawlins CL, Potyondy JP (1994) Stream channel reference: an illustrated guide to field technique. Gen. Tech. Rep. RM-245. Fort Collins, CO. U.S. Department of Agriculture, Forest Service, Rocky Mountain Forest and Range Experiment Station. p 61
Hintze J (2001) NCSS and PASS. Number Cruncher Statistical Systems. Kaysville
Hodges JD (1997) Development and ecology of bottomland hardwood sites. Forest Ecology and Management 90:117–125
Hosner J, Boyce S (1962) Tolerance to water saturated soil of various bottomland hardwoods. Forest Science 8:180–186
Hupp CR, Pierce AR, Noe GB (2009) Floodpain geomorphic processes and environmental impacts of human alteration along coastal plain rivers, USA. Wetlands 29:413–429
Junk WJ, Bayley PB, Sparks RE (1989) The flood pulse concept in river floodplain systems. In: Dodge DP (ed) Proceedings of the International Large River Symposium. Canadian Special Publication of Fisheries and Aquatic Sciences 106:110–127
King KW, Smiley PC Jr, Fausey NR (2009) Hydrology of channelized and natural headwater streams. Hydrological Sciences Journal 54:929–948
Kozlowski TT (2002) Physiological-ecological impacts of flooding on riparian forest ecosystem. Wetlands 22:550–561
Magner JA, Payne GA, Steffen LJ (2004) Drainage effects on stream nitrate-N and hydrology in south-Central Minnesota, USA. Environmental Monitoring and Assessment 91:183–198
McGee CE (1986) Budbreak for twenty-three upland hardwoods compared under forest canopies and in recent clearcuts. Forest Science 32:924–935
Miller NA (1990) Effects of permanent flooding on bottomland hardwoods and implications for water management in the forked deer river floodplain. Castanea 55:106–112
Moussa R, Voltz M, Andrieux P (2002) Effects of the spatial organization of agricultural management on the hydrological behavior of a farmed catchment during flood events. Hydrological Processes 16:393–412
Nakamura F, Jitsu M, Kameyama S, Mizugaki S (2002) Changes in riparian forests in the Kushiro mire, Japan, associated with stream channelization. River Research and Applications 18:65–79
Noe GB, Hupp CR (2005) Carbon, nitrogen, and phosphorus accumulation in floodplains of Atlantic coastal plain rivers, USA. Ecological Applications 15:1178–1190
Oswalt SN, King SL (2005) Channelization and floodplain forests: impacts of accelerated sedimentation and valley plug formation on floodplain forests of the middle fork forked deer river, Tennessee, U.S.a. Forest Ecology and Management 215:69–83
Pierce AR, King SL (2007) The influence of valley plugs in channelized streams on floodplain sedimentation dynamics over the last century. Wetlands 27:631–643
Pierce AR, King SL (2008) Spatial dynamics of overbank sedimentation in floodplain systems. Geomorphology 100:256–268
Pijut PM, Woeste KE, Michler CH (2011) Promotion of adventitious root formation of difficult-to-root hardwood tree species. Horticultural Reviews 38:213–251
Rhoads EL, Herricks EE (1996) Naturalization of headwater streams in Illinois. In: Brooks A, Shields Jr FD (eds) River Channel restoration: guiding principles for sustainable projects. John Wiley & Sons, Chichester, pp 331–367
Royer TV, Tank JL, David MB (2004) Transport and fate of nitrate in headwater agricultural streams in Illinois. Journal of Environmental Quality 33:1296–1304
SAS Institute, Inc (2004) SAS Version 9.1. Cary, NC, USA
Schweitzer J (2000a) Forest statistics for Tennessee, 1999. Resource bulletin SRS-49, USDA Forest Service, Southern Research Station, Asheville, North Carolina
Schweitzer J (2000b) Forest statistics for Tennessee, 1999. Resource bulletin SRS-51, USDA Forest Service, Southern Research Station, Asheville, North Carolina
Schweitzer J (2000c) Forest statistics for Tennessee, 1999. Resource bulletin SRS-52, USDA Forest Service, Southern Research Station, Asheville, North Carolina
Shankman D (1993) Channel migration and vegetation patterns in the southeastern coastal plain. Conservation Biology 7:176–183
Shankman D, Pugh TB (1992) Discharge response to channelization for a coastal plain stream. Wetlands 12:157–162
Shankman D, Samson SA (1991) Channelization effects on Obion River flooding, western Tennessee. Water Resources Bulletin 27:247–252
Simon A, Hupp CR (1987) Geomorphic and vegetative recovery processes along modified Tennessee streams: an interdisciplinary approach to disturbed fluvial systems. In: Forest hydrology and watershed management. Proceedings of the Vancouver Symposium, International Association of Scientific Hydrology, pp 251–262
Sokal RR, Rohlf FJ (1995) Biometry: the principles and practice of statistics in biological research. 3rd edn. W.H. Freeman and Company, New York
Tucci P, Hileman GE (1992) Potential effects of dredging the south fork Obion River on ground-water levels near Sidonia, Weakley County. Tennessee USGS Water Resources Investigations Report:90–4041
U.S. Department of Agriculture Soil Conservation Service (1986) Sediment transport analysis report, Hatchie River basin special study, Tennessee and Mississippi. U.S. Department of Agriculture Soil Conservation Service, p. 17
U.S. Fish and Wildlife Service (2001) Hatchie national wildlife refuge. Brownsville, Tennessee
Ward JV, Tockner K (2001) Biodiversity: towards a unifying theme for river ecology. Freshwater Biology 46:807–819
Wharton CH, Kitchens WM, Pendleton EC, Sipe TW (1982) The ecology of bottomland hardwood swamps of the southeast: a community profile. Publ. No. FWS/OBS-81/37, U.S. Fish and Wildlife Service, Washington, D.C
Winter TC (2007) The role of ground water in generating streamflow in headwater areas and in maintaining base flow. Journal of the American Water Resources Association 43:15–25
Winter TC, Harvey JW, Franke OL, Alley WM (1998) Ground water and surface water: A Single Resource. U.S. Geological Survey Circular: 1139, U.S. Geological Survey, Denver, Colorado
Acknowledgements
Funding for this project was provided by the U.S.D.A. –CSREES Initiative for Future Agricultural and Food Systems, the U.S. Fish and Wildlife Service, and The Nature Conservancy – Hatchie River Project. We would like to thank A. Wyss, G. Gallien, C. Wirwa, and D. Orr for their logistic support. We thank B.J. Wilson, W. Cochran, J. Fox, J. Roberson, and B. Hemal for their assistance in the field. We thank J. Weltzin, D. Buehler, C. Harden, J. Franklin, R. Albright, and R. Keim for providing constructive comments on this manuscript. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.
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Pierce, A.R., King, S.L. Hydrological Responses to Channelization and The Formation of Valley Plugs and Shoals. Wetlands 37, 513–523 (2017). https://doi.org/10.1007/s13157-017-0886-4
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DOI: https://doi.org/10.1007/s13157-017-0886-4