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A coupled terrestrial and aquatic biogeophysical model of the Upper Merrimack River watershed, New Hampshire, to inform ecosystem services evaluation and management under climate and land-cover change

DOIFull Paper Access

41

Citations

0

References

2017

Year

Nihar R. Samal, W. M. Wollheim, Shan Zuidema, Robert Stewart, Zaixing Zhou, Madeleine M. Mineau, Mark E. Borsuk, Kevin Gardner, Stanley Glidden, Tao Huang,
Ecology and Society

Abstract

Samal, N. R., W. Wollheim, S. Zuidema, R. Stewart, Z. Zhou, M. M. Mineau, M. Borsuk, K. H. Gardner, S. Glidden, T. Huang, D. Lutz, G. Mavrommati, A. M. Thorn, C. P. Wake, and M. Huber. 2017. A coupled terrestrial and aquatic biogeophysical model of the Upper Merrimack River watershed, New Hampshire, to inform ecosystem services evaluation and management under climate and land-cover change. Ecology and Society 22(4):18. https://doi.org/10.5751/ES-09662-220418