Nitrate addition stimulates microbial decomposition of organic matter in salt marsh sediments. Global Change Biology.. 2019.
River network saturation concept: factors influencing the balance of biogeochemical supply and demand of river networks. Biogeochemistry.. 2018.
Using Maximum Entropy Production to Describe Microbial Biogeochemistry Over Time and Space in a Meromictic Pond. Frontiers in Environmental Science.. 2018.
Microbial associations with macrobiota in coastal ecosystems: patterns and implications for nitrogen cycling. Frontiers in Ecology and the Environment. 14:200-208.. 2016.
The Lotic Intersite Nitrogen Experiments: an example of successful ecological research collaboration.. Freshwater Science. 33:700-710.. 2014.
Microbial community composition in salt marsh sediments resists perturbation by nutrient enrichment. The ISME Journal. 5:1540-1548.. 2011.
Nitrous oxide emission from denitrification in stream and river networks. Proceedings of the National Academy of Science. 108:214-219.. 2011.
Short-term nitrogen additions can shift a coastal wetland from a sink to a source of N2O. Atmospheric Envrionment. 45:4390-4397.. 2011.
Taking the pulse of snowmelt: In situ sensors reveal season, event and diurnal patterns of nitrate and dissolved organic matter variability in an upland forest stream. Biogeochemistry.. 2011.
Thinking outside the channel: Modeling nitrogen cycling in networked river ecosystems. Frontiers in Ecology and Environment. 9:229-238.. 2011.
Large-scale manipulations reveal that top-down and bottom-up controls interact to alter habitat utilization by saltmarsh fauna. Marine Ecology Progress Series. 377:33-41.. 2009.
Global N removal by freshwater aquatic systems A spatially distributed, within-basin approach. Global Biogeochemical Cycles. 22. 2008.
Plant nitrogen dynamics in fertilized and natural New England saltmarshes: a paired 15N tracer study. Marine Ecology Progress Series. 354:35-46.. 2008.