Adrien C. Finzi
Affiliations: | 1999- | Boston University, Boston, MA, United States |
Area:
Ecology Biology, Environmental Sciences, Forestry and Wildlife Agriculture, Soil Science Agriculture, BiogeochemistryWebsite:
https://harvardforest2.fas.harvard.edu/asp/hf/php/researcher_profile1.php?id=734Google:
"Adrien Claude Finzi"Bio:
https://www.bu.edu/biology/2020/12/08/professor-finzi-was-named-highly-cited-researchers/
https://www.bu.edu/bio-geo/files/2013/01/ACF-Full-CV-2012.pdf
https://www.bu.edu/bio-geo/files/2011/04/ACF-CV-Jan-2012.doc
https://scholar.google.com/citations?user=wbtuFy4AAAAJ&hl=en
https://www.caryinstitute.org/sites/default/files/downloads/bio/schlesinger.pdf
Mean distance: (not calculated yet)
Parents
Sign in to add mentor| John A. Silander | grad student | 1996 | University of Connecticut (Evolution Tree) | |
| (Causes and consequences of soil resource heterogeneity in a transition oak-northern hardwood forest) | ||||
| William H. Schlesinger | post-doc | 1996-1998 | Duke (Terrestrial Ecology Tree) | |
Children
Sign in to add trainee| Vikki L. Rodgers | grad student | 2008 | Boston University |
| Edward R. Brzostek | grad student | 2012 | Boston University |
| Poliana C. Lemos | grad student | 2013 | Boston University |
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Publications
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| Saifuddin M, Bhatnagar JM, Phillips RP, et al. (2021) Ectomycorrhizal fungi are associated with reduced nitrogen cycling rates in temperate forest soils without corresponding trends in bacterial functional groups. Oecologia |
| Finzi AC, Giasson M, Plotkin AAB, et al. (2020) Carbon budget of the Harvard Forest Long‐Term Ecological Research site: pattern, process, and response to global change Ecological Monographs |
| Saifuddin M, Bhatnagar JM, Segrè D, et al. (2019) Microbial carbon use efficiency predicted from genome-scale metabolic models. Nature Communications. 10: 3568 |
| Sorensen PO, Bhatnagar JM, Christenson L, et al. (2019) Roots Mediate the Effects of Snowpack Decline on Soil Bacteria, Fungi, and Nitrogen Cycling in a Northern Hardwood Forest. Frontiers in Microbiology. 10: 926 |
| Sorensen PO, Finzi AC, Giasson M, et al. (2018) Winter soil freeze-thaw cycles lead to reductions in soil microbial biomass and activity not compensated for by soil warming Soil Biology and Biochemistry. 116: 39-47 |
| Zhang Q, Phillips RP, Manzoni S, et al. (2018) Changes in photosynthesis and soil moisture drive the seasonal soil respiration-temperature hysteresis relationship Agricultural and Forest Meteorology. 259: 184-195 |
| Savage KE, Davidson EA, Abramoff RZ, et al. (2018) Partitioning soil respiration: quantifying the artifacts of the trenching method Biogeochemistry. 140: 53-63 |
| Zalman C, Keller JK, Tfaily M, et al. (2018) Small differences in ombrotrophy control regional-scale variation in methane cycling among Sphagnum-dominated peatlands Biogeochemistry. 139: 155-177 |
| Terrer C, Vicca S, Stocker BD, et al. (2017) Ecosystem responses to elevated CO2 governed by plant-soil interactions and the cost of nitrogen acquisition. The New Phytologist |
| Gill AL, Giasson MA, Yu R, et al. (2017) Deep peat warming increases surface methane and carbon dioxide emissions in a black spruce dominated ombrotrophic bog. Global Change Biology |