Resources: York River Water Budget - Literature Cited
Allain, M. and N. El-Jabi (2002) Hydrological approach to instream flow evaluation: A sensitivity analysis. Annual Conference of the Canadian Society for Civil Engineering. Montréal, Quebéc, Canada.
Alon, N. and S. Stancyk (1982) Variation in life-history patterns of the grass shrimp Palaemonetes pugio in two South Carolina estuarine systems. Marine Biology 68:265-276.
Annear, T. and A. Conder (1984) Relative bias of several fisheries instream flow methods. North American Journal of Fisheries Management 4: 531-539.
Austin, H.M. (2002) Decadal oscillations and regime shifts, a characterization of the Chesapeake Bay marine climate. Am. Fish. Soc. Symp. 32: 155–170
Beecher. H.A. (1990) Standards for instream flows. Rivers 1: 97-109.
Bilkovic, D.M. (2000) Assessment of Spawning and Nursery Habitat Suitability for American Shad (Alosa sapidissima) in the Mattaponi and Pamunkey Rivers. Doctoral Dissertation. Virginia Institute of Marine Science, Gloucester Point.
Binns, N. and F. Eiserman (1992) Quantification of fluvial trout habitat in Wyoming. Trans Amer Fish Soc 108:215-228.
Clewell, A. R. Beaman, C. Coultas and M. Lasley (1999) Suwannee River tidal marsh vegetation and its response to external variables and endogenous community processes. Report submitted to Suwannee River Water Management District, Live Oak, Florida.
Collings, M. (1972) A methodology for determining instream flow requirements for fish. Proceedings of the Instream Flow Methodology Workshop. Washington State Department of Ecology. Olympia, Washington 71-86.
Collings, M. (1974) Generalization of spawning and rearing discharges for several Pacific salmon species in western Washington. US Geological Survey Open File Report: 39pp.
Copeland, B.J. (1966) Effects of decreased river flow on estuarine ecology. Journal of the Water Pollution Control Federation38: 1831–1839.
Cross, R.D. and D.L. Williams (EDS.). (1981) Proceedings of the National Symposium on Freshwater Inflow to Estuaries. OBS-81/04. U.S. Fish and Wildlife Service, Office of Biological Services, Washington, D.C.
Darke, A. K. and J. P. Megonigal. 2003. Control of sediment deposition rates in two mid-Atlantic Coast tidal freshwater wetlands. Estuarine, Coastal and Shelf Science 57(2003):255-268.
Department of Game and Inland Fisheries, Virginia (2008) http://www.dgif.virginia.gov/fishing/waterbodies.
Doering, P., H. Chamberlain, and D. Haunert (2002) Using Submerged Aquatic Vegetation to Establish Minimum and Maximum Freshwater Inflows to the Caloosahatchee Estuary, Florida. Estuaries 25(6B): 1343–1354.
Estes, C. and J. Orsborn (2007) Review and analysis of methods for quantifying instream flow requirements. Journal of the American Water Resources Association 22(3): 389-389.
Estevez, E. (2000) Matching salinity metrics to estuarine seagrasses for freshwater inflow management, p. 295–307. In S. A. Bortone (ed.). Seagrasses: Monitoring, Ecology, Physiology, and Management. CRC Press, Boca Raton, Florida.
Estevez, E.D. (2002) Review and Assessment of biotic variables and analytical methods used in estuarine inflow studies. Estuaries and Coasts 25(6B):1291-1303.
French, G. and K. Moore (2003) Interactive Effects of Light and Salinity Stress on the Growth, Reproduction, and Photosynthetic Capabilities of Vallisneria americana (Wild Celery) Estuaries 26 (5):1255–1268.
Gao, S. and M.B. Collins. 1997. Changes in sediment transport rates caused by wave action and tidal flow time-asymmetry. Journal of Coastal Research 13(1):198-201.
Geyer, W.R., J.D. Woodruff, and P. Traykovski. 2001. Sediment transport and trapping in the Hudson River estuary. Estuaries 24(5):670-679.
Hardaway, C.S., G.R. Thomas, J.B. Glover, J.B. Smithson, M.R. Berman, A.K. Kenne. 1992. Bank Erosion Study. Special Report in Applied Marine Science and Ocean Engineering Number 319. Virginia Institute of Marine Science, College of William and Mary, Gloucester Point, VA. 88p.
Herman, J.D. 2001. Sediment budgets, estuarine sediment loads, and wetland sediment storage at watershed scales, York River watershed, Virginia. Ph.D. dissertation. School of Marine Science, College of William and Mary. Gloucester Point, VA.
Hershner, C., P. Booth, Jr. and L. Mitchell (1991) Tidal wetlands on the Mattaponi River: Potential responses of the vegetative community to increased salinity as a result of freshwater withdrawal. A report to the Lower Virginia Peninsula Regional Raw Water Study Group.
Hoffman J.C., Bronk D.A., Olney J.E. (2007) Tracking Nursery Habitat Use in the York River Estuary, Virginia, by Young American Shad Using Stable Isotopes. Transactions of the American Fisheries Society: Vol. 136, No. 5 pp. 1285–1297.
Hupp, C.R. 2000. Hydrology, geomorphology and vegetation of Coastal Plain rivers in the south-eastern USA. Hydrological Processes 14:2991-3010.
Hupp, C.R. and W.R. Osterkamp. 1996. Riparian vegetation and fluvial geomorphic processes. Geomorphology 14:277-295.
Ibison, N.A., C.W. Frye, J.E. Frye, C.L. Hill and N.H. Burger. 1990. Sediment and Nutrient Contributions of Selected Eroding Banks of the Chesapeake Bay Estuarine System. Department of Conservation and Recreation, Division of Soil and Water Conservation, Shoreline Programs Bureau, Gloucester Point, VA. 80p.
Jassby A.D., Kimmerer W.J., Monismith S.G., Armor C., Cloern J.E., Powell T.M., Schubel J.R., Vendlinski T.J. (1995) Isohaline position as a habitat indicator for estuarine populations. Ecol Appl 5:272–289
Jowett, I.G. (1997) Instream Flow Methods: A comparison of approaches. Regulated Rivers: Research & Management 13:115-127.
Kelley, D., A. Cordone and G. Delisle (1960) A method to determine the volume of flow required by trout below dams: A proposal for investigation. California Department of Fish and Game.
Kemp, P. and G. Cunningham (1980) Light, temperature and salinity effects on growth, leaf anatomy and photosynthesis of Distichlis spicata. American Journal of Botany 68: 506-516.
Kimmerer, W. (2002) Physical, biological and management responses to variable freshwater flow into the San Francisco Estuary. Estuaries 25(6B): 1275-1290.
Kimmerer, W. and J. Schubel (1994) Managing freshwater flows into San Francisco Bay using a salinity standard: Results of a workshop, p. 411–416. In K. R. Dyer and R. J. Orth (eds.). Changes in Fluxes in Estuaries: Implications from Science to Management. Olsen and Olsen, Fredensborg, Denmark.
Koch, E. (2001) Beyond Light: Physical, Geological, and Geochemical Parameters as Possible Submersed Aquatic Vegetation Habitat Requirements. Estuaries (24): 1–17.
Limburg, K. E. (1996) Growth and migration of 0-year American shad (Alosa sapidissima) in the Hudson River estuary: otolith microstructural analysis. Canadian Journal of Fisheries and Aquatic Sciences 53:220–238.
McIvor, C. and W. Odum (1988) Food, predation risk, and microhabitat selection in a marsh fish assemblage. Ecology 69:1341-1351.
McKee, K. and A. Mendelssohn (1989) Response of a freshwater marsh plant community to increased salinity and increased water level. Aquatic Botany 34:301-316.
Mattson, R. (2002) A resource-based framework for establishing freshwater inflow requirements for the Suwannee River Estuary. Estuaries 25(6): 1333-1342.
Milhous, R., D. Wegner and T. Waddle (1984) User’s guide to the physical habitat simulation system. US Fish and Wildlife Service Biological Services Program FWS/OBS-81/43.
Mitsch, W.J. and Gosselink, J.G. (1993) Wetlands (2nd ed.), John Wiley, New York.
Neubauer, S.C., I.C. Anderson, J.A. Constantine, and S.A. Kuehl. 2002. Sediment deposition and accretion in a Mid-Atlantic (U.S.A.) tidal freshwater marsh. Estuarine, Coastal and Shelf Science 54:713-727.
Nichols, M. M., S. C. Kim and C. M. Brouwer. 1991. Sediment characterization of the Chesapeake Bay and its tributaries, Virginian Province. In National Estuarine Inventory: Supplement. National Oceanic and Atmospheric Administration Strategic Assessment Branch.
88 p.
Noe, G.B. and C.R. Hupp. 2005. Carbon, nitrogen, and phosphorus accumulation in floodplains of Atlantic coastal plain rivers, USA. Ecological Applications 15(4):1178-1190.
North E.W., Houde E.D. (2001) Retention of white perch and striped bass larvae: biological-physical interactions in Chesapeake Bay estuarine turbidity maximum. Estuaries 24:756–769
Odum, W. and M. Haywood (1978) Decomposition of intertidal freshwater marsh plants. Pages 89-97 in R. Good, D. Whigham and R. Simpson (eds.) Freshwater Wetlands: Ecological processes and management potential. Academic Press, New York.
Odum W., T. Smith, III, J. Hoover and C. McIvor (1984) The ecology of tidal freshwater marshes of the United States East Coast: A community profile. FWS/OBS-87/17. Fish and Wildlife Service, U.S. Department of the Interior, Washington, D.C.
Orth, D. (1987) Ecological considerations in the development and application of instream flow-habitat models. Regulated Rivers: Research & Management 1: 171-181.
Orth, R. and K. Moore. (1984) Distribution and abundance of submerged aquatic vegetation in Chesapeake Bay: A historical perspective. Estuaries7:531–540.
Pasternack, G., W. Hilgartner and G. Brush (2000) Biogeomorphology of an upper Chesapeake Bay river-mouth tidal freshwater marsh. Wetlands 20(3): 520-537.
Pearcy, R., D. Baver and S. Ustin (1982) Salinity productivity relationships of selected plant species from the Suisun Marsh. California. Technical Completion Report. California Water Resources Center, University of California, Davis, California.
Perry, J.E. and C.H. Hershner (1999) Temporal changes in the vegetation pattern in a tidal freshwater marsh. Wetlands 19(1):90-99.
Pezeshki, S., R. DeLaune and W. Patrick, Jr. (1987) Response of bald cypress (Taxodium distichum L. var. distichum) to increases in flooding salinity in Louisiana’s Mississippi River deltaic plain. Wetlands 7:1-10.
Pierson, W., K. Bishop, D. Van Senden, P. Horton and C. Adamantidis (2002) Environmental Water Requirements to Maintain Estuarine Processes. Environmental Flows Initiative Technical Report Number 3, Commonwealth of Australia, Canberra.
Reiser, D., T. Wesche and C. Estes (1989) Status of instream flow legislation and practices in North America. Fisheries 14: 22-29.
Riparian Areas, Functions and Strategies for Management. 2002. Committee on Riparian Zone Functioning and Strategies for Management. Water Science and Technology Board. Board on Environmental Studies and Toxicology. Division on Earth and Life Studies. National Research Council. NATIONAL ACADEMY PRESS. Washington, D.C. http://books.nap.edu/openbook.php?record_id=10327&page=R1
Rozas L. and W. Odum (1987) The role of submerged aquatic vegetation in influencing the abundance of nekton on contiguous tidal fresh-water marshes. Journal of Experimental Biology 114:289-300.
Rozas L. and D. Reed (1993) Nekton use of marsh-surface habitats in Louisiana (USA) deltaic salt marshes undergoing subsidence. Marine Ecological Progress Series 96:147-157.
Shen, J. and L. Haas. 2004. Calculating age and residence time in the tidal York River using three-dimensional model experiments. Estuarine, Coastal and Shelf Science 61:449-461.
Skreslet, S. (1986) The role of freshwater outflow in coastal marine ecosystems. NATO ASI Series, G edition. Springer-Verlag, Berlin, Germany.
Spalding, E. and M. Hester (2007) Interactive effects of hydrology and salinity on oligohaline plant species productivity: Implications of relative sea-level rise. Estuaries and Coasts 30(2):214-225.
Sun, T., Z. Yang and B. Cui (2008) Critical environmental flows to support integrated ecological objectives for the Yellow River Estuary, China. Water Resources Management 22:973-989.
Tennant, D.L. (1976) Instream flow regimes for fish, wildlife, recreation and related environmental resources, in J.F. Orsborn and C.H. Allman, eds. Proceedings of Symposium and Specialty Conference on Instream Flow Needs, Vol II, American Fisheries Society, Bethesda, Maryland: 359-373.
Turek, J. G., Goodger, T. E., Bigford, T. E. & Nichols, J. S. (1987). Influence of freshwater inflows on estuarine productivity. NOAA Technical Report NMFS-F/NEC-46.
USGS. 2003. A Summary Report of Sediment Processes in Chesapeake Bay and Watershed. M. Langland and T. Cronin (eds). Water-Resources Investigations Report 03-4123
USGS monitoring data. USGS Real-Time Water Data for Virginia
http://waterdata.usgs.gov/va/nwis/rt?
Vadas, R.L. Jr. and D.L.Weigmann.(1993) The concept of instream flow and its relevance to drought management in the James River basin. Va. Wat. Resour. Res. Center Bull. 178. 78 pp.
Wilber D.H. (1992) Associations between freshwater inflows and oyster productivity in Apalachicola Bay, Florida. Estuar Coast Shelf Sci 35:179–190
Williams, K., M, Meads and D. Sauerbrey (1998) The roles of seedling salt tolerance and resprouting in forest zonation on the west coast of Florida, USA. American Journal of Botany 8:1745-1752.
Wood RJ (2000) Synoptic scale climate forcing of multispecies fish recruitment patterns in Chesapeake Bay. PhD thesis, College of William and Mary, Williamsburg
Yozzo D. and R. Diaz (1999) Tidal Freshwater Wetlands: invertebrate diversity, ecology, and functional significance. Pages 889-918 in D. Batzer, R. Radar and S. Wissinger (eds.) Invertebrates in Freshwater Wetlands of North America: Ecology and Management. John Wiley & Sons, Inc.
Yozzo, D. and D. Smith (1998) Composition and abundance of resident marsh-surface nekton: comparison between tidal freshwater and salt marshes in Virginia, USA. Hydrobiologia 362:9-19. |
