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Showing 1-20 of about 109 results.
Interspecific size-density relationship among crowded plant stands and its implications for the -3/2 power rule of self-thinningv. 133No. 1University of Chicago Press20–41
Weller, Donald E. 1989. "Interspecific size-density relationship among crowded plant stands and its implications for the -3/2 power rule of self-thinning." American Naturalist 133 (1):20-41.
Human contributions to terrestrial nitrogen fluxv. 46No. 9655–664
Jordan, Thomas E. and Weller, Donald E. 1996. "Human contributions to terrestrial nitrogen flux." Bioscience 46 (9):655-664.
Heuristic models for material discharge from landscapes with riparian buffersv. 8No. 41156–1169
Weller, Donald E., Jordan, Thomas E., and Correll, David L. 1998. "Heuristic models for material discharge from landscapes with riparian buffers." Ecological Applications 8 (4):1156-1169.
Self-thinning exponent correlated with allometric measures of plant geometryv. 68No. 4813–821
Weller, Donald E. 1987. "Self-thinning exponent correlated with allometric measures of plant geometry." Ecology 68 (4):813-821.
Will the real self-thinning rule please stand up? -- A reply to Osawa and Sugitav. 712004–2007
Weller, Donald E. 1990. "Will the real self-thinning rule please stand up? -- A reply to Osawa and Sugita." Ecology 71:2004-2007.
Self-thinning rule: Dead or unsupported? - A reply to Lonsdalev. 72No. 2747–750
Weller, Donald E. 1991. "Self-thinning rule: Dead or unsupported? - A reply to Lonsdale." Ecology 72 (2):747-750.
Nutrient flux in a landscape: Effects of coastal land use and terrestrial community mosaic on nutrient transport to coastal watersv. 15No. 4431–432
Correll, David L., Jordan, Thomas E., and Weller, Donald E. 1992. "Nutrient flux in a landscape: Effects of coastal land use and terrestrial community mosaic on nutrient transport to coastal waters." Estuaries 15 (4):431-432.
Dissolved silicate dynamics of the Rhode River watershed and estuaryv. 23No. 2188–198
Correll, David L., Jordan, Thomas E., and Weller, Donald E. 2000. "Dissolved silicate dynamics of the Rhode River watershed and estuary." Estuaries 23 (2):188-198.
Sources of nutrient inputs to the Patuxen River estuaryv. 26226–243
Jordan, Thomas E., Weller, Donald E., and Correll, David L. 2003. "Sources of nutrient inputs to the Patuxen River estuary." Estuaries 26:226-243.
Effects of land-use change on nutrient discharges from the Patuxent River watershedv. 26244–266
Weller, Donald E., Jordan, Thomas E., Correll, David L., and Liu, Zhi-Jun. 2003. "Effects of land-use change on nutrient discharges from the Patuxent River watershed." Estuaries 26:244-266.
Nutrient interception by a riparian forest receiving inputs from adjacent croplandv. 22No. 3467–473
Jordan, Thomas E., Correll, David L., and Weller, Donald E. 1993. "Nutrient interception by a riparian forest receiving inputs from adjacent cropland." Journal of Environmental Quality 22 (3):467-473.
Effects of agriculture on discharges of nutrients from Coastal Plain watersheds of Chesapeake Bayv. 26No. 3836–848
Jordan, Thomas E., Correll, David L., and Weller, Donald E. 1997. "Effects of agriculture on discharges of nutrients from Coastal Plain watersheds of Chesapeake Bay." Journal of Environmental Quality 26 (3):836-848.
Precipitation effects on sediment and associated nutrient discharges from Rhode River watershedsv. 281897–1907
Correll, David L., Jordan, Thomas E., and Weller, Donald E. 1999. "Precipitation effects on sediment and associated nutrient discharges from Rhode River watersheds." Journal of Environmental Quality 28:1897-1907.
Effects of precipitation and air temperature on Phosphorus fluxes from Rhode River watershedsv. 28No. 1144–154
Correll, David L., Jordan, Thomas E., and Weller, Donald E. 1999. "Effects of precipitation and air temperature on Phosphorus fluxes from Rhode River watersheds." Journal of Environmental Quality 28 (1):144-154.
Nonpoint source discharges of nutrients from Piedmont watersheds of Chesapeake Bayv. 33No. 3631–645
Jordan, Thomas E., Correll, David L., and Weller, Donald E. 1997. "Nonpoint source discharges of nutrients from Piedmont watersheds of Chesapeake Bay." Journal of the American Water Resources Association 33 (3):631-645.
Effects of interannual variation of precipitation on stream discharge from Rhode River subwatershedsv. 35No. 173–82
Correll, David L., Jordan, Thomas E., and Weller, Donald E. 1999. "Effects of interannual variation of precipitation on stream discharge from Rhode River subwatersheds." Journal of the American Water Resources Association 35 (1):73-82.
Effects of land cover and geology on stream chemistry in watersheds of Chesapeake Bayv. 36No. 61349–1363
Liu, Zhi-Jun, Weller, Donald E., Correll, David L., and Jordan, Thomas E. 2000. "Effects of land cover and geology on stream chemistry in watersheds of Chesapeake Bay." Journal of the American Water Resources Association 36 (6):1349-1363.
Improved methods for quantifying potential nutrient interception by riparian buffersDOI: info:10.1007/s10980-006-0020-0v. 211327–1345
Baker, M. E., Weller, Donald E., and Jordan, Thomas E. 2006. "Improved methods for quantifying potential nutrient interception by riparian buffers." Landscape Ecology 21:1327-1345. https://doi.org/10.1007/s10980-006-0020-0
Assessing the ecological condition of wetlands at the catchment scalev. 2099–112
Whigham, Dennis F., Weller, Donald E., Jacobs, A. D., Jordan, Thomas E., and Kentula, M. E. 2003. "Assessing the ecological condition of wetlands at the catchment scale." Landschap 20:99-112.
Nutrients and chlorophyll at the interface of a watershed and an estuaryv. 36251–267
Jordan, Thomas E., Correll, David L., Miklas, Joseph J., and Weller, Donald E. 1991. "Nutrients and chlorophyll at the interface of a watershed and an estuary." Limnology and Oceanography 36:251-267.