Search Results
Showing 1-20 of about 113 results.
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.
Effects of precipitation and air temperature on nitrogen discharges from Rhode River watershedsv. 115No. 1547–575
Correll, David L., Jordan, Thomas E., and Weller, Donald E. 1999. "Effects of precipitation and air temperature on nitrogen discharges from Rhode River watersheds." Water, Air, and Soil Pollution, 115, (1) 547–575.
Effects of watershed and estuarine characteristics on the abundance of submerged aquatic vegetation in Chesapeake Bay subestuariesDOI: info:10.1007/BF02841338v. 30840–854
Li, Xuyong, Weller, Donald E., Gallegos, Charles L., Jordan, Thomas E., and Kim, Hae-Cheol. 2007. "Effects of watershed and estuarine characteristics on the abundance of submerged aquatic vegetation in Chesapeake Bay subestuaries." Estuaries and Coasts, 30 840–854. https://doi.org/10.1007/BF02841338.
Requirement of low oxidation-reduction potential for photosynthesis in a blue-green alga (Phormidium sp.)v. 1047–13
Weller, Donald E., Doemel, W., and Brock, T. D. 1975. "Requirement of low oxidation-reduction potential for photosynthesis in a blue-green alga (Phormidium sp.)." Archives of Microbiology, 104 7–13.
Beaver pond biogeochemical effects in the Maryland Coastal Plainv. 49217–239
Correll, David L., Jordan, Thomas E., and Weller, Donald E. 2000. "Beaver pond biogeochemical effects in the Maryland Coastal Plain." Biogeochemistry, 49 217–239.
Modeling the hydrochemistry of the Choptank River Basin using GWLF and Arc/Info: 1. Model calibration and validationv. 49No. 2143–173
Lee, K. Y., Fisher, T. R., Jordan, Thomas E., Correll, David L., and Weller, Donald E. 2000. "Modeling the hydrochemistry of the Choptank River Basin using GWLF and Arc/Info: 1. Model calibration and validation." Biogeochemistry, 49, (2) 143–173.
Temporal variability of optical properties in a shallow, eutrophic estuary: Seasonal and interannual variabilityDOI: info:10.1016/j.ecss.2005.01.013v. 64156–170
Gallegos, Charles L., Jordan, Thomas E., Hines, Anson H., and Weller, Donald E. 2005. "Temporal variability of optical properties in a shallow, eutrophic estuary: Seasonal and interannual variability." Estuarine, Coastal and Shelf Science, 64 156–170. https://doi.org/10.1016/j.ecss.2005.01.013.
Nitrogen input-output budgets for forests in the Chesapeake Bay watershedSETAC Press431–442
Correll, David L. and Weller, Donald E. 1997. "Nitrogen input-output budgets for forests in the Chesapeake Bay watershed." from Atmospheric deposition of contaminants to the Great Lakes and coastal waters (Proceedings from a session at the SETAC 15th Annual Meeting). 431–442. Pensacola, Florida: SETAC Press. SETAC Technical Publications Series.
Temporal variation in precipitation chemistry on the shore of the Chesapeake Bayv. 83263–284
Jordan, Thomas E., Correll, David L., Weller, Donald E., and Goff, Nancy M. 1995. "Temporal variation in precipitation chemistry on the shore of the Chesapeake Bay." Water, Air, and Soil Pollution, 83 263–284.
Effects of stream map resolution on measures of riparian buffer distribution and nutrient retention potentialDOI: info:10.1007/s10980-007-9080-zv. 22973–992
Baker, M. E., Weller, Donald E., and Jordan, Thomas E. 2007. "Effects of stream map resolution on measures of riparian buffer distribution and nutrient retention potential." Landscape Ecology, 22 973–992. https://doi.org/10.1007/s10980-007-9080-z.
Using landscape analysis to explore ecological linkages between watersheds and estuariesHigher Education Press122–125
Li, X., King, Ryan S., Weller, Donald E., and Hines, Anson H. 2010. "Using landscape analysis to explore ecological linkages between watersheds and estuaries." In Ecological complexity and ecological vision. Wu, Y. and Fan, J., editors. 122–125. Beijing, China: Higher Education Press.
A reevaluation of the -3/2 power rule of plant self-thinningv. 57No. 123–43
Weller, Donald E. 1987. "A reevaluation of the -3/2 power rule of plant self-thinning." Ecological Monographs, 57, (1) 23–43.
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.