Barbara L. Bedford, Mark R. Walbridge, and Allison Aldous. 1999. Patterns in nutrient availability and plant diversity of temperate North American wetlands. Ecology 80:2151-2169.
Appendix C
Literature Cited in Appendices A and B.
Auclair, A. N. D. 1977. Factors affecting tissue nutrient concentrations in a Carex meadow. Oecologia 28:233-246.
Bandle, B. J., and F. P. Day. 1985. Influence of species, season, and soil on foliar macronutrients in the Great Dismal Swamp. Bulletin of the Torrey Botanical Club 112:146-157.
Bares, R. H., and M. K. Wali. 1979. Chemical relations and litter production of Picea mariana and Larix laricina stands on an alkaline peatland in northern Minnesota. Vegetatio 40:79-94.
Bartsch, I. 1991. Effects of Nutrient Availability on Growth and Nutrient Use by Chamaedaphne calyculata and Sphagnum spp. Ph.D. Dissertation, University of Maine, Orono, Maine, USA.
_____. 1994. Effects of fertilization on growth and nutrient use by Chamaedaphne calyculata in a raised bog. Canadian Journal of Botany 72:323-329.
Bartsch, I., and T. R. Moore. 1985. A preliminary investigation of primary production and decomposition in four peatlands near Schefferville, Québec. Canadian Journal of Botany 63:1241-1248.
Bartsch, I., and C. Schwintzer. 1994. Growth of Chamaedaphne calyculata at two peatland sites in relation to nutrient availability. Wetlands 14:147-158.
Bernard, J. M., and F. A. Bernard. 1977. Winter standing crop and nutrient contents in five central New York wetlands. Bulletin of the Torrey Botanical Club 104:57-59.
Bernard, J. M., and G. Hankinson. 1979. Seasonal changes in standing crop, primary production, and nutrient levels in a Carex rostrata wetland. Oikos 32:328-336.
Bernard, J. M., D. Solander, and J. Kvet. 1988. Production and nutrient dynamics in Carex wetlands. Aquatic Botany 30:125-147.
Bernard, J. M., and B. A. Solsky. 1977. Nutrient cycling in a Carex lucustris wetland. Canadian Journal of Botany 55:630-638.
Bowden, W. B. 1984. Nitrogen and phosphorus in the sediments of a tidal freshwater marsh in Massachusetts. Estuaries 7:108-118.
Bowman, W. D., T. A. Theodose, J. C. Schardt, and R. T. Conant. 1993. Constraints of nutrient availability on primary production in two alpine tundra communities. Ecology 74:2085-2097.
Boyd, C. E. 1970. Production, mineral accumulation and pigment concentrations in Typha latifolia and Scirpus americanus. Ecology 51:285-290.
_____. 1971. The dynamics of dry matter and chemical substances in a Juncus effusus population. American Midland Naturalist 86:28-45.
_____. 1978. Chemical composition of wetland plants. Pages 155-167 in R. E. Good, D. F. Whigham, and R. L. Simpson, editors. Freshwater wetlands: ecological processes and management potential. Academic Press, New York, New York, USA.
Boyd, C. E., and D. H. Vickers. 1971. Relationships between production, nutrient ::accumulation, and chlorophyll synthesis in an Eleocharis quadrangulata population. Canadian Journal of Botany 49:883-888.
Bridgham, S. D., and C. J. Richardson. 1993. Hydrology and nutrient gradients in North Carolina peatlands. Wetlands 13:207-218.
Bridgham, S. D., K. Updegraff, and J. Pastor. 1998. Carbon, nitrogen, and phosphorus mineralization in northern wetlands. Ecology 79:1545-1561..
Brinson, M. M. 1977. Decomposition and nutrient exchange of litter in an alluvial swamp forest. Ecology 58:601-609.
Brinson, M. M., H. D. Bradshaw, R. N. Holmes, and J. B. Elkins. 1980. Litterfall, stemflow, and throughfall nutrient fluxes in an alluvial swamp forest. Ecology 61:827-835.
Brinson, M. M., H. D. Bradshaw, and E. S. Kane. 1981. Nitrogen cycling and assimilative capacity of nitrogen and phosphorus by riverine wetland forests. Water Resources Research Institute, University of North Carolina, Raleigh, North Carolina, USA.
Chambers, R. M., and J. W. Fourqurean. 1991. Alternative criteria for assessing nutrient limitation of a wetland macrophyte (Peltandra virginica (L.) Kunth). Aquatic Botany 40:305-320.
Davis, C. B., and A. G. van der Valk. 1983. Uptake and release of nutrients by living and decomposing Typha glauca tissues at Eagle Lake, Iowa. Aquatic Botany 16:75-89.
Day, F.P. 1982. Litter decomposition rates in the seasonally flooded Great Dismal Swamp. Ecology 63:670-678.
DeLucia, E. H., and W. H. Schlesinger. 1995. Photosynthetic rates and nutrient-use efficiency among evergreen and deciduous shrubs in Okefenokee swamp. International Journal of Plant Sciences 156:19-28.
Feustel, I.C., and H.G. Byers. 1930. The physical and chemical characteristics of certain American peat profiles. USDA Technical Bulletin Number 214.
Golet, F.C., A.J.K. Calhoun, W.R. DeRagon, D.J. Lowry, A.J. Gold. 1993. Ecology of red maple swamps in the glaciated northeast: a community profile. Biological Report 12. U.S. Department of the Interior, Fish and Wildlife Service, Washington, D.C., USA.
Gomez, M. M., and F. P. Day. 1982. Litter nutrient content and production in the Great Dismal Swamp. American Journal of Botany 69:1314-1321.
Grigal, D. F. 1991. Elemental dynamics in forested bogs in northern Minnesota, USA. Canadian Journal of Botany 69: 539-546.
Heilman, P.E. 1968. Relationship of availability of phosphorus and cations to forest succession and bog formation in interior Alaska. Ecology 49:331-336.
Kemp, G. P., and J. W. Day, Jr. 1981. Floodwater Nutrient Processing in a Louisiana Swamp Forest Receiving Agricultural Runoff. Water Resources Research Institute, Report # A-043-LA. Louisiana State University, Baton Rouge, Louisiana, USA.
Klopatek, J. M. 1978. Nutrient dynamics of freshwater riverine marshes and the role of emergent macrophytes. Pages 195-216 in R. E. Good, D. F. Whigham, and R. L. Simpson, editors. Freshwater Wetlands: Ecological Processes and Management Potential. Academic Press, New York, New York, USA.
Lieffers, V. J. 1988. Sphagnum and cellulose decomposition in drained and natural areas of an Alberta peatland. Canadian Journal of Soil Science 68:755-761.
Lindsley, D. S. 1977. Emergent macrophytes of a Wisconsin marsh: productivity, soil-plant nutrient regimes and uptake experiments with phosphorus-32. Ph.D. Dissertation, University of Wisconsin, Milwaukee, Wisconsin, USA.
Lunz, J.D., T.W. Zweigler, R.T. Huffman, R.J. Diaz, E.J. Clairain, and L.J. Hunt. 1978. Habitat development field investigations of Windmill Point marsh development site, James River, Virginia; summary report. Technical Report D-79-23. U.S. Army Waterways Experiment Station, Vicksburg, Mississippi, USA.
Malmer, N., D. G. Horton, and D. H. Vitt. 1992. Element concentrations in mosses and surface waters of western Canadian mires relative to precipitation chemistry and hydrology. Ecography 15:114-158.
Morris, J. T., and K. Lajtha. 1986. Decomposition and nutrient dynamics of litter from four species of freshwater emergent macrophytes. Hydrobiologia 131:215-224.
Mudroch, A., and J. A. Capobianco. 1979. Effects of treated effluent on a natural marsh. Research Journal of the Water Pollution Control Federation 51:2243-2256.
Mugasha, A. G., D. J. Pluth, and G. R. Hillman. 1993. Foliar responses of tamarack and black spruce to drainage and fertilization of a minerotrophic peatland. Canadian Journal of Forest Research 23:166-180.
Neill, C. 1990. The effects of nutrients and water levels on emergent macrophyte biomass in a prairie marsh. Canadian Journal of Botany 68:1007-1014.
Pakarinen, P., and E. Gorham. 1983. Mineral element composition of Sphagnum fuscum peats collected from Minnesota, Manitoba, and Ontario. Pages 417-429 in C. H. Fuchsman and S.A. Spigarelli, editors. Proceedings of the International Symposium on Peat Utilization. Bemidji State University, Bemidji, Minnesota, USA.
Peterjohn, W. T., and D. L. Correll. 1984. Nutrient dynamics in an agricultural watershed: observations on the role of a riparian forest. Ecology 65:1466-1475.
Peverly, J. H. 1985. Element accumulation and release by macrophytes in a wetland stream. Journal of Environmental Quality 14:137-143.
Prentki, R. T., T. D. Gustafson, and M. S. Adams. 1978. Nutrient movements in lakeshore marshes. Pages 169-195 in R.E. Good, D.F. Whigham, and R.L. Simpson, editors. Freshwater wetlands: ecological processes and management potential. Academic Press, New York, New York, USA.
Reynolds, P.E., K.G. Carlson, T.W. Fromm, K.A. Gigliello, and R.J. Kaminski. 1978. Phytosociology, biomass, productivity, and nutrient budget for the tree stratum of a southern New Jersey hardwood swamp. Pages 123-139 in P.E. Pope, editor. Proceedings of the Central Hardwood Forest Conference II. Purdue University Press, Lafayette, Indiana, USA.
Richardson, C. J., and P. E. Marshall. 1986. Processes controlling movement, storage and export of phosphorus in a fen peatland. Ecological Monographs 56:279-302.
Richardson, C.J., D.L. Tilton, J.A. Kadlec, J.P.M. Chamie, and W.A. Wentz. 1978. Nutrient dynamics of northern wetland ecosystems. Pages 217-241 in R. E. Good, D. F. Whigham, and R. L. Simpson, editors. Freshwater wetlands: ecological processes and management potential. Academic Press, New York, New York, USA.
Richardson, C.J., M.R. Walbridge, and A. Burns. 1988. Soil chemistry and phosphorus
retention capacity of North Carolina Coastal Plain swamps receiving sewage effluent. Report Number 241. Water Resources Research Institute of the University of North Carolina, Raleigh, North Carolina, USA.
Schlesinger, W. H. 1978. Community structure, dynamics, and nutrient cycling in the Okefenokee cypress swamp-forest. Ecological Monographs 48:43-65.
Simms, E. L. 1987. The effects of nitrogen and phosphorus addition on the growth, reproduction, and nutrient dynamics of two ericaceous shrubs. Oecologia 71:541-547.
Simpson, R. L., R. E. Good, R. Walker, and B. R. Frasco. 1983. The role of Delaware River freshwater tidal wetlands in the retention of nutrients and heavy metals. Journal of Environmental Quality 12:41-48.
Small, E. 1972a. Photosynthetic rates in relation to nitrogen recycling as an adaptation to nutrient deficiency in peat bog plants. Canadian Journal of Botany 50:2227-2233.
_____. 1972b. Ecological significance of four critical elements in plants of raised Sphagnum peat bogs. Ecology 53:498-503.
Stanek, W., and J. K. Jeglum. 1977. Comparisons of peatland types using macro-nutrient contents of peat. Vegetatio 33:163-173.
Templer, P., S. Findley, and C. Wigand. 1998. Sediment nutrient chemistry associated with native and non-native emergent macrophytes of a Hudson River marsh ecosystem. Wetlands 18:70-78.
Thormann, M.N., and S.E. Bayley. 1997b. Aboveground plant production and nutrient content of the vegetation in six peatlands in Alberta, Canada. Plant Ecology 131:1-16.
Tilton, D. L. 1977. Seasonal growth and foliar nutrients of Larix laricina in three wetland ecosystems. Canadian Journal of Botany 55:1291-1298.
Van Dyke, G. D. 1972. Aspects relating to emergent vegetation dynamics in a deep marsh, north central Iowa. Dissertation. Iowa State University, Ames, Iowa, USA.
Walbridge, M.R. 1991. Phosphorus availability in acid organic soils of the lower North
Carolina coastal plain. Ecology 72:2083-2100.
Watt, R. F., and M. L. Heinselman. 1965. Foliar nitrogen and phosphorus level related to site quality in a northern Minnesota spruce bog. Ecology 46:357-361.
Wells, E. D. 1994. Effects of planting spacing and refertilization on growth and nutrition of black spruce (Picea mariana) planted in a minerotrophic peatland in Newfoundland, Canada. Canadian Journal of Forest Research 24:1302-1311.
Wells, E. D., and H. G. Miller. 1994. Effects of refertilization on growth and nutrition of lodgepole pine (Pinus contorta) planted on a minerotrophic peatland in central Newfoundland, Canada. Forestry 67:149-164.
Whigham, D. F., and C. J. Richardson. 1988. Soil and plant chemistry of an Atlantic white cedar wetland on the inner coastal plain of Maryland, USA. Canadian Journal of Botany 66:568-576.
Wieder, R. K. 1985. Peat and water chemistry at Big Run Bog, a peatland in the Appalachian mountains of West Virginia, USA. Biogeochemistry 1:277-302.