Ford Ballantyne, Ph.D.
Affiliations: | Ecology and Evolutionary Biology | University of Kansas, Lawrence, KS, United States |
Area:
Ecosystem ecology, Theoretical ecologyWebsite:
http://www.people.ku.edu/~fb4/index.htmlGoogle:
"Ford Ballantyne"Parents
Sign in to add mentorJames H. Brown | grad student | 1997-2003 | Univ. of New Mexico | |
(Mean -variance scaling in ecological populations.) |
Children
Sign in to add traineeSarah Glaser | post-doc | University of Kansas | |
Christoph Lehmeier | post-doc | University of Kansas | |
Jarad Mellard | post-doc | University of Kansas |
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Publications
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Wieder WR, Pierson D, Earl S, et al. (2020) SoDaH: the SOils DAta Harmonization database, an open-sourcesynthesis of soil data from research networks, version 1.0 Earth System Science Data Discussions. 1-19 |
Rüegg J, Chaloner DT, Ballantyne F, et al. (2020) Understanding the Relative Roles of Salmon Spawner Enrichment and Disturbance: A High-Frequency, Multi-Habitat Field and Modeling Approach Frontiers in Ecology and Evolution. 8 |
Min K, Lehmeier CA, Ballantyne F, et al. (2019) Corrigendum to Min et al. (2014) “Differential effects of pH on temperature sensitivity of organic carbon and nitrogen decay” [Soil Biology & Biochemistry 76 193–200] Soil Biology and Biochemistry. 139: 107597 |
Song C, Dodds WK, Rüegg J, et al. (2018) Continental-scale decrease in net primary productivity in streams due to climate warming Nature Geoscience. 11: 415-420 |
Machmuller MB, Ballantyne F, Markewitz D, et al. (2018) Temperature sensitivity of soil respiration in a low-latitude forest ecosystem varies by season and habitat but is unaffected by experimental warming Biogeochemistry. 141: 63-73 |
Billings S, Min K, Ballantyne F, et al. (2016) Aging exo-enzymes can create temporally shifting, temperature-dependent resource landscapes for microbes Biogeochemistry. 131: 163-172 |
Min K, Lehmeier CA, Ballantyne F, et al. (2014) Differential effects of pH on temperature sensitivity of organic carbon and nitrogen decay Soil Biology and Biochemistry. 76: 193-200 |
Billings SA, Ballantyne F. (2013) How interactions between microbial resource demands, soil organic matter stoichiometry, and substrate reactivity determine the direction and magnitude of soil respiratory responses to warming. Global Change Biology. 19: 90-102 |
Lehmeier CA, Min K, Niehues ND, et al. (2013) Temperature-mediated changes of exoenzyme-substrate reaction rates and their consequences for the carbon to nitrogen flow ratio of liberated resources Soil Biology and Biochemistry. 57: 374-382 |
Ballantyne F, Menge DN, Ostling A, et al. (2008) Nutrient recycling affects autotroph and ecosystem stoichiometry. The American Naturalist. 171: 511-23 |