Mark B. Green
Plymouth State University
48 Papers
225 Citations
Mark B. Green is an academic researcher from Plymouth State University. The author has contributed to research in topics: Climate change & Evapotranspiration. The author has an hindex of 17, co-authored 43 publications. Previous affiliations of Mark B. Green include United States Forest Service & National Center for Earth-surface Dynamics.
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Papers
The river as a chemostat: fresh perspectives on dissolved organic matter flowing down the river continuum
Irena F. Creed,Diane M. McKnight,Brian A. Pellerin,Mark B. Green,Brian A. Bergamaschi,George R. Aiken,Douglas A. Burns,Stuart E. G. Findlay,Jamie Shanley,R. G. Striegl,Brent T. Aulenbach,David W. Clow,Hjalmar Laudon,Brian L. McGlynn,Kevin J. McGuire,Richard A. Smith,Sarah M. Stackpoole +16 more
TL;DR: In this article, the authors examined a large DOM dataset from the National Water Information System of the US Geological Survey, which represents approximately 100,000 measurements of dissolved organic car-bon (DOC) concentration and dissolved organic matter (DOM) composition at many sites along rivers across the United States.
Changing forest water yields in response to climate warming: results from long‐term experimental watershed sites across North America
Irena F. Creed,Adam T. Spargo,Julia A. Jones,James M. Buttle,Mary Beth Adams,F. D. Beall,Eric G. Booth,John Campbell,Dave Clow,Kelly Elder,Mark B. Green,Nancy B. Grimm,Chelcy Ford Miniat,Patricia Ramlal,Amartya Saha,Stephen D. Sebestyen,Dave Spittlehouse,Shannon Sterling,Mark W. Williams,Rita Winkler,Huaxia Yao +20 more
TL;DR: Forest type appeared to influence the resilience of catchment water yields to climate warming, with conifer and deciduous catchments more susceptible toClimate warming than the more diverse mixed forest catchments.
Linking water age and solute dynamics in streamflow at the Hubbard Brook Experimental Forest, NH, USA
Paolo Benettin,Scott W. Bailey,John Campbell,Mark B. Green,Mark B. Green,Andrea Rinaldo,Andrea Rinaldo,Gene E. Likens,Kevin J. McGuire,Gianluca Botter +9 more
TL;DR: In this paper, the authors combine experimental and modeling results from a headwater catchment at the Hubbard Brook Experimental Forest (HBEF), New Hampshire, USA, to explore the link between stream solute dynamics and water age.
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A longer vernal window: the role of winter coldness and snowpack in driving spring transitions and lags
Alexandra R. Contosta,A. C. Adolph,Denise Burchsted,Elizabeth A. Burakowski,Elizabeth A. Burakowski,Mark B. Green,David Guerra,Mary R. Albert,Jack E. Dibb,Mary E. Martin,William H. McDowell,Michael R. Routhier,Cameron P. Wake,Rachel J. Whitaker,Wilfred M. Wollheim +14 more
TL;DR: The sequence of physical and biogeochemical transitions and lags during the vernal window period is established to understand how climate change may alter them and to modeled lags as a function of both winter coldness and snow depth, both of which are expected to decline with climate change.
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Legacy Effects in Material Flux: Structural Catchment Changes Predate Long-Term Studies
Daniel J. Bain,Mark B. Green,Mark B. Green,John Campbell,John F. Chamblee,Sayo Chaoka,Jennifer M. Fraterrigo,Sujay S. Kaushal,S. L. Martin,Thomas E. Jordan,Anthony J. Parolari,William V. Sobczak,Donald E. Weller,Wilfred M. Wollheim,Emery R. Boose,Jonathan M. Duncan,Gretchen M. Gettel,Brian R. Hall,Praveen Kumar,Jonathan R. Thompson,James M. Vose,Emily M. Elliott,David S. Leigh +22 more
TL;DR: In this article, a general metric for evaluating potential legacy effects, which are computed by normalizing altered system function persistence with duration of disturbance, is proposed, and two distinct legacy effect categories are defined: signal effects from lags in transport and structural effects from physical landscape changes.