Molly Holleran
GRAD STUDENT
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Catalina-Jemez, Shale Hills Soil, Water, and Environmental Science MS student at University of Arizona
BS, Geoscience, Penn State University, 2011
Using statistical methods of landscape variability to investigate soil morphology, regolith weathering, and geochemistry of granitic soils of Marshall Gulch, Santa Catalina Mountains Critical Zone Observatory. B.S. Research: Quantitative analysis of deep shale weathering at Shale Hills Critical Zone Observatory, identifying geochemical reaction fronts.
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CZO Publications
Papers/Books
2018
A net ecosystem carbon budget for snow dominated forested headwater catchments: linking water and carbon fluxes to critical zone carbon storage. Perdrial J., Brooks P.D., Swetnam T., Lohse K.A., Rasmussen C., Litvak M., Harpold A.A., Zapata-Rios X., Broxton P., Mitra B., Meixner M., Condon K., Huckle D., Stielstra C., Vázquez-Ortega A., Lybrand R., Holleran M., Orem C., Pelletier J., Chorover J. (2018): Biogeochemistry 138{3): 225–243 Cross-CZO
2015
Quantifying soil and critical zone variability in a forested catchment through digital soil mapping. Holleran M., Levi M., and Rasmussen C. (2015): SOIL 1(1): 47-64
2015
Climate and landscape as drivers of carbon storage in forested headwater catchments: Insights from a complete C budget. Perdrial, J., Brooks, P., Swetnam, T., Lohse, K., Rasmussen, C., Litvak, M., Harpold, A., Zapata-Rios, X., Broxton, P., Mitra, B., Meixner, T., Condon, K., Huckle, D., Stielstra, C., Vazquez-Ortega, A., Lybrand, R., Holleran, M., Orem, C., Pelletier, J., and J. Chorover (2015): Global Change Biology
2013
Probing deep weathering in the Shale Hills Critical Zone Observatory, Pennsylvania (USA): The hypothesis of nested chemical reaction fronts in the subsurface. Brantley, S.L., Holleran, M., Jin, L., and Bazilevskaya, E. (2013): Earth Surface Processes and Landforms 38:1280-1298
Papers and books that explicitly acknowledge a CZO grant are highlighted in PALE ORANGE.
Other CZO Publications
2014
Three-dimensional prediction of soil physical, chemical, and hydrological properties in a forested catchment of the Santa Catalina CZO. Shepard C., Holleran M., Lybrand R., Rasmussen C. (2014): Abstract H51O-0817 presented at 2014 Fall Meeting, AGU, San Francisco, CA, 15-19 Dec.
2013
Quantifying catchment scale soil variability in Marshall Gulch, Santa Catalina Mountains Critical Zone Observatory. Holleran M.E. (2013): MS Thesis in Soil, Water & Environmental Science. University of Arizona, Tucson, Arizona, 102 pp.
2013
Do fire disturbances account for missing C in snow dominated headwater catchments in NM?. Perdrial J.N., Brooks P.D., Swetnam T., Lohse K.A., Rasmussen C., Harpold A.A., Litvak M.E., Broxton P.D., Mitra B., Condon K., Huckle D.M., Vazquez A., Lybrand R.A., Holleran M., Orem C.A., Meixner T., Chorover J. (2013): Abstract B33E-0531 presented at 2013 Fall Meeting, AGU, San Francisco, CA, 9-13 Dec. Cross-CZO
2013
Using statistical methods to quantify and predict catchment scale soil variability. Rasmussen C., Holleran M. (2013): Abstract presented at AGU Chapman Conference on Soil-mediated Drivers of Coupled Biogeochemical and Hydrological Processes Across Scales, Biosphere 2, Tucson, Arizona, 21-24 October 2013 (Talk)
2012
Quantifying catchment scale soil variability in Marshall Gulch, Santa Catalina Mountains Critical Zone Observatory. Holleran M. and Rasmussen C. (2012): Abstract EP43A-0859 presented at 2012 Fall Meeting, AGU, San Francisco, Calif., 3-7 Dec (Poster)
2011
A Quantitative Analysis of Deep Shale Weathering at the Shale Hills Critical Zone Observatory. Holleran, M.E. (2011): Bachelor of Science, Pennsylvania State University, p. 38
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