Hubbard Brook Bibliography
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“Winter In Northeastern North America: A Critical Period For Ecological Processes”. Frontiers in Ecology 3(6): 314-322.
. 2005. “Winter Climate Change Influences On Soil Faunal Distribution And Abundance: Implications For Decomposition In The Northern Forest”. Northeastern Naturalist 24(sp7): B209 - B234. http://www.bioone.org/doi/full/10.1656/045.024.s721.
. 2017. “Winter Climate Change Affects Growing-Season Soil Microbial Biomass And Activity In Northern Hardwood Forests”. Global Change Biology 20(11): 3568 - 3577. http://onlinelibrary.wiley.com/doi/10.1111/gcb.12624/abstract.
. 2014. “Who Needs Environmental Monitoring?”. Frontiers in Ecology and the Environment 5(5): 253-260.
. 2007. “Watershed Sulfur Biogeochemistry: Shift From Atmospheric Deposition Dominance To Climatic Regulation”. Environmental Science & Technology 45(12): 5267 - 5271. ://WOS:000291422200031.
. 2011. “Use Of Stable Isotope Ratios For Evaluating Sulfur Sources And Losses At The Hubbard Brook Experimental Forest”. Water, Air and Soil Pollution 130: 75-86.
. 2001. “Systematic Variation In Evapotranspiration Trends And Drivers Across The Northeastern United States”. Hydrological Processes 32(23): 3547 - 3560. https://onlinelibrary.wiley.com/doi/abs/10.1002/hyp.13278.
. 2018. “Sulphate, Nitrogen And Base Cation Budgets At 21 Forested Catchments In Canada, The United States And Europe”. Environmental Monitoring and Assessment 109(1-36).
. 2005. “Sugar Maple And Nitrogen Cycling In The Forests Of Eastern North America.”. Frontiers in Ecology and the Environment 2: 81-88.
. 2004. “Stable Sulfur Isotopic Biogeochemistry At Hubbard Brook Experimental Forest, New Hampshire”. Biogeochemistry 41: 259-275.
. 1998. “Stable Sulfur Isotope Ratios As A Tool For Interpreting Ecosystem Sulfur Dynamics”. Water, Air, and Soil Pollution 28(1-2): 163-171.
. 1986. “Sources Of Stream Sulfate At The Hubbard Brook Experimental Forest: Long-Term Analyses Using Stable Isotopes”. Biogeochemistry 44: 281-299.
. 1999. “A Simulation Model Of Sulfur Transformations In Forested Spodosols”. Biogeochemistry 2(4): 313-328.
. 1986. “Role Of Soil Freezing Events In Interannual Patterns Of Stream Chemistry At The Hubbard Brook Experimental Forest, New Hampshire”. Environmental Science & Technology 37: 1575-1580.
. 2003. “Review Of Book: E. Matzner (Ed): Biogeochemistry Of Forested Catchments In A Changing Environment, A German Case Study”. Journal of Plant Nutrition and Soil Science 168: 145-146.
. 2005. “Research Resource Review: Forest Hydrology And Biogeochemistry: Synthesis Of Past Research And Future Directions”. Progress in Physical Geography 36(3): 451 - 453. http://ppg.sagepub.com/cgi/doi/10.1177/0309133312440216.
. 2012. “Nitrate Dynamics Of Forested Watersheds: Spatial And Temporal Patterns In North America, Europe And Japan”. Journal of Forest Research 16(5): 333 - 340. http://link.springer.com/article/10.1007/s10310-011-0278-1.
. 2011. “Nitrate And Dissolved Organic Carbon Mobilization In Response To Soil Freezing Variability”. Biogeochemistry 131(1-2): 35 - 47. http://link.springer.com/10.1007/s10533-016-0262-0.
. 2016. “A Model To Simulate The Response Of A Northern Hardwood Forest Ecosystem To Changes In S Deposition”. Ecol. Appl. 12(1): 23-Aug.
. 2002. “Models Of Sulfur Dynamics In Forest And Grassland Ecosystems With Emphasis On Soil Processes”. Biogeochemistry 5: 133-163.
. 1988. . 2016.
“Mobility Of Nitrogen-15-Labeled Nitrate And Sulfur-34 Labeled Sulfate During Snowmelt”. Soil Sci. Soc. Am. J. 71: 1934-1944.
. 2007. . 2012.
“Linkages Of Nitrate Losses In Watersheds To Hydrological Processes”. Hydrological Processes 15: 3305-3307.
. 2001. “Input-Output Budgets Of Inorganic Nitrogen For 24 Forest Watersheds In The Northeastern United States: A Review”. Water, Air, and Soil Pollution 151: 373-396.
. 2004.