The Institute communicates its scientific and educational information in a number of ways. One major outlet is peer-reviewed publications and reports.  Cary Institute staff regularly publish in the best-rated journals in their respective fields.

Export 183 results:
Sort by: Author [ Title (Asc)] Type Year
Filters: First Letter Of Title is M  [Clear All Filters]
A B C D E F G H I J K L [M] N O P Q R S T U V W X Y Z   [Show ALL]
P. A. Staehr, J. M. Testa, W. M. Kemp, J. J. Cole, K. Sand-Jensen, and S. V. Smith, “The metabolism of aquatic ecosystems: History, applications, and future challenges”, Aquat. Sci., vol. 74, p. 15-29, 2012.
S. E. G. Findlay, D. L. Strayer, C. Goumbala, and K. Gould, “Metabolism of streamwater dissolved organic carbon in the shallow hyporheic zone”, Limnol. Oceanogr., vol. 38, p. 1493-1499, 1993.
B. McGrath and S. T. A. Pickett, “The Metacity: A Conceptual Framework for Integrating Ecology and Urban Design”, Challenges, vol. 2, no. 4, p. 55 - 72, 2011.
B. Xu, S. Yu, J. Ding, S. Wu, and J. Ma, “Metal-Dependent Root Iron Plaque Effects on Distribution and Translocation of Chromium and Nickel in Yellow Flag (Iris pseudacorus)”, International Journal of Phytoremediation, vol. 17, no. 2, p. 175 - 181, 2015.
R. E. Munn, G. E. Likens, B. Weisman, J. W. Hornbeck, C. W. Martin, and F. H. Bormann, “A meteorological analysis of the precipitation chemistry event samples at Hubbard Brook, New Hampshire”, Atmospheric Environment, vol. 18, p. 2775-2779, 1984.
D. Bastviken, J. J. Cole, M. L. Pace, and L. J. Tranvik, “Methane emissions from lakes: Dependence of lake characteristics, two regional assessments, and a global estimate”, Global Biogeochem. Cycles, vol. 18, 2004.
P. M. Groffman and R. V. Pouyat, “Methane uptake in urban forests and lawns”, Environ. Sci. Technol., vol. 43, p. 5229-5235, 2009.
G. G. Lampman, N. F. Caraco, and J. J. Cole, “A method for the measurement of particulate C and P on the same filtered sample”, Mar. Ecol. Prog. Ser., vol. 217, p. 59-65, 2001.
M. E. Fenn, et al., “Methods for measuring atmospheric nitrogen deposition inputs in arid and montane ecosystems of western North America.”, in A. H. Legge (ed.). Developments in Environmental Science Series vol. 9: Relating Atmospheric Source Apportionment to Vegetation Effects: Establishing Cause Effect Relationships, 2009, p. 179-228.
P. M. Groffman, et al., “Methods for measuring denitrification: Diverse approaches to a difficult problem”, Ecol. Appl., vol. 16, p. 2091-2122, 2006.
E. J. Rosi-Marshall, H. A. Wellard Kelly, R. O. Hall, and K. L. Vallis, “Methods for quantifying aquatic macroinvertebrate diets”, Freshwater Science, vol. 35, no. 1, p. 229 - 236, 2016.
T. W. Foresman, S. T. A. Pickett, and W. C. Zipperer, “Methods for spatial and temporal land use and land cover assessment for urban ecosystems and applications in the greater Baltimore-Chesapeake region”, Urban Ecosyst., vol. 1, p. 201-216, 1997.
K. Schmidt and R. S. Ostfeld, “Mice in space: Space use predicts interactions between mice and songbirds”, Ecology, vol. 84, p. 3276-3283, 2003.
N. F. Caraco, G. G. Lampman, J. J. Cole, K. E. Limburg, M. L. Pace, and D. T. Fischer, “Microbial assimilation of DIN in a nitrogen rich estuary: implications for food quality and isotope studies”, Mar. Ecol. Prog. Ser., vol. 167, p. 59-71, 1998.
M. D. Harrison, P. M. Groffman, P. M. Mayer, and S. S. Kaushal, “Microbial biomass and activity in geomorphic features in forested and urban restored and degraded streams”, Ecol. Eng., vol. 38, p. 1-10, 2012.
K. A. Kuehn, M. J. Lemke, K. Suberkropp, and R. G. Wetzel, “Microbial biomass and production associated with decaying leaf litter of the emergent macrophyte Juncus effusus”, Limnol. Oceanogr., vol. 45, p. 862-870, 2000.
D. Kominková, K. A. Kuehn, N. Büsing, D. Steiner, and M. O. Gessner, “Microbial biomass, growth, and respiration associated with submerged litter of Phragmites australis decomposing in a littoral reed stand of a large lake”, Aquat. Microb. Ecol., vol. 22, p. 271-282, 2000.
J. J. Cole, “Microbial carbon cycling in pelagic ecosystems: microbial methods for ecosystem scientists”, in O. E. Sala, R. B. Jackson, H. A. Mooney, and R. W. Howarth (eds.). Methods in Ecosystem Science, 2000, p. 138-150.
S. E. G. Findlay and W. V. Sobczak, “Microbial communities in hyporheic sediments”, in J. B. Jones and P. J. Mulholland (eds.). Streams and Ground Waters, 2000, p. 287-306.
P. M. Groffman, E. Zaady, and M. Shachak, “Microbial contribution to biodiversity at organism, landscape and ecosystem scales”, in M. Shachak, J. Gosz, S. T. A. Pickett, and A. Perevolotsky (eds.). Biodiversity in Drylands: Toward a Unified Framework, 2004, p. 109-121.
K. D. McMahon and E. K. Read, “Microbial Contributions to Phosphorus Cycling in Eutrophic Lakes and Wastewater”, Annual Review of Microbiology, vol. 67, no. 1, p. 199 - 219, 2013.
R. Freimann, “Microbial Diversity in Alpine Floodplains: Spatio-Temporal Factors Influencing Bacterial Communities and Ecosystem Functioning”, 2012.
S. E. G. Findlay, C. Hickey, and J. Quinn, “Microbial enzymatic response to catchment-scale variations in supply of dissolved organic carbon”, NZ J. Mar. Freshwater Res., vol. 31, p. 701-706, 1997.
J. J. Cole and N. F. Caraco, “The microbial food-web of oligotrophic lakes”, in T. Ford (ed.). Aquatic Microbiology, 1993, p. 101-112.
S. E. G. Findlay and T. L. Arsuffi, “Microbial growth and carbon transformations during decomposition of leaf litter in a stream”, Freshwater Biol., vol. 21, p. 261-269, 1989.


Cary Institute of Ecosystem Studies | Millbrook, New York 12545 | Tel (845) 677-5343

Privacy Policy Copyright © 2017