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Shultz, David
Although it may be difficult for us to observe in our short lifetimes, the composition of trees in a forest can be a very variable thing. When a forest is clear-cut or thinned by fire, the first trees to rebound are often the fastest growing—those that can sprout quicker than their competitors. However, over time, these speedy …
Journal: EOS, Volume 96: 1-1 (2015). DOI: 10.1029/2015EO026455 Sites: US-UMB
Fu, D., Chen, B., Zhang, H., Wang, J., Black, T. A., Amiro, B. D., Bohrer, G., Bolstad, P., Coulter, R., Rahman, A. F., Dunn, A., McCaughey, J. H., Meyers, T., Verma, S.
Journal: Remote Sensing Of Environment, Volume 141: 90-104 (2014). DOI: 10.1016/j.rse.2013.10.029 Sites: US-UMB
Matheny, A. M., Bohrer, G., Stoy, P. C., Baker, I. T., Black, A. T., Desai, A. R., Dietze, M. C., Gough, C. M., Ivanov, V. Y., Jassal, R. S., Novick, K. A., Schäfer, K. V., Verbeeck, H.
Journal: Journal Of Geophysical Research: Biogeosciences, Volume 119 (7): 1458-1473 (2014). DOI: 10.1002/2014JG002623 Sites: CA-Ca1, CA-Gro, CA-Let, CA-Oas, CA-Ojp, CA-Qfo, US-ARM, US-Dk3, US-Ha1, US-Ho1, US-IB2, US-Me2, US-MMS, US-MOz, US-Ne1, US-Ne2, US-Ne3, US-NR1, US-PFa, US-Syv, US-Ton, US-UMB, US-Var, US-WCr
Keenan, T. F., Gray, J., Friedl, M. A., Toomey, M., Bohrer, G., Hollinger, D. Y., Munger, J. W., O’Keefe, J., Schmid, H. P., Wing, I. S., Yang, B., Richardson, A. D.
Journal: Nature Climate Change, Volume 4 (7): 598-604 (2014). DOI: 10.1038/nclimate2253 Sites: US-UMB
Nave, L. E., Sparks, J. P., Le Moine, J., Hardiman, B. S., Nadelhoffer, K. J., Tallant, J. M., Vogel, C. S., Strahm, B. D., Curtis, P. S.
Journal: Biogeochemistry, Volume 121 (3): 471-488 (2014). DOI: 10.1007/s10533-014-0013-z Sites: US-UMB, US-UMd
Matheny, A.M. Bohrer, G. Vogel, C.S. Morin, T.H. He, L. Frasson, R.P.dM. Mirfenderesgi, G. Schäfer, K.V.R. Gough, C.M. Ivanov, V.Y. Curtis, P.S.
Intermediate disturbances shape forest structure and composition, which may in turn alter carbon, nitrogen, and water cycling. We used a large-scale experiment in a forest in northern lower Michigan where we prescribed an intermediate disturbance by stem girdling all canopy-dominant early successional trees to simulate an accelerated …
Journal: Journal of Geophysical Research-Biogeosciences, Volume 119: 2292-2311 (2014). DOI: 10.1002/2014JG002804 Sites: US-UMB
Verma, M., Friedl, M. A., Richardson, A. D., Kiely, G., Cescatti, A., Law, B. E., Wohlfahrt, G., Gielen, B., Roupsard, O., Moors, E. J., Toscano, P., Vaccari, F. P., Gianelle, D., Bohrer, G., Varlagin, A., Buchmann, N., van Gorsel, E., Montagnani, L., Propastin, P.
Journal: Biogeosciences, Volume 11 (8): 2185-2200 (2014). DOI: 10.5194/bg-11-2185-2014 Sites: US-UMB
He, L., Ivanov, V. Y., Bohrer, G., Maurer, K. D., Vogel, C. S., Moghaddam, M.
Journal: Agricultural And Forest Meteorology, Volume 184: 243-256 (2014). DOI: 10.1016/j.agrformet.2013.10.006 Sites: US-UMB
Thomsen, J., Bohrer, G., Matheny, A., Ivanov, V., He, L., Renninger, H., Schäfer, K.
Journal: Forests, Volume 4 (4): 1106-1120 (2013). DOI: 10.3390/f4041106 Sites: US-UMB, US-UMd
McFarlane, K. J., Torn, M. S., Hanson, P. J., Porras, R. C., Swanston, C. W., Callaham, M. A., Guilderson, T. P.
Forest soils represent a significant pool for carbon sequestration and storage, but the factors controlling soil carbon cycling are not well constrained. We compared soil carbon dynamics at five broadleaf forests in the Eastern US that vary in climate, soil type, and soil ecology: two sites at the University of Michigan Biological …
Journal: Biogeochemistry, Volume 112 (1-3): 457-476 (2013). DOI: 10.1007/s10533-012-9740-1 Sites: US-Bar, US-Ha1, US-MOz, US-UMB