Thomas A. Day
Affiliations: | Arizona State University, Tempe, AZ, United States |
Area:
Ecology Biology, Microbiology Biology, BiogeochemistryGoogle:
"Thomas Day"Mean distance: (not calculated yet)
Children
Sign in to add trainee| Christopher T. Ruhland | grad student | 2001 | Arizona State |
| Laura J. Morse | grad student | 2005 | Arizona State |
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Publications
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| Day TA, Bliss MS. (2019) A spectral weighting function for abiotic photodegradation based on photochemical emission of CO2 from leaf litter in sunlight Biogeochemistry. 146: 173-190 |
| Day TA, Bliss MS. (2019) Solar Photochemical Emission of CO 2 From Leaf Litter: Sources and Significance to C Loss Ecosystems. 1-18 |
| Day TA, Bliss MS, Placek SK, et al. (2019) Thermal abiotic emission of CO 2 and CH 4 from leaf litter and its significance in a photodegradation assessment Ecosphere. 10 |
| Day TA, Bliss MS, Tomes AR, et al. (2018) Desert leaf litter decay: coupling of microbial respiration, water-soluble fractions and photodegradation. Global Change Biology |
| Guénon R, Day TA, Velazco-Ayuso S, et al. (2017) Mixing of Aleppo pine and Holm oak litter increases biochemical diversity and alleviates N limitations of microbial activity Soil Biology and Biochemistry. 105: 216-226 |
| Day TA, Guénon R, Ruhland CT. (2015) Photodegradation of plant litter in the Sonoran Desert varies by litter type and age Soil Biology and Biochemistry. 89: 109-122 |
| Elmendorf SC, Henry GH, Hollister RD, et al. (2012) Global assessment of experimental climate warming on tundra vegetation: heterogeneity over space and time. Ecology Letters. 15: 164-75 |
| Elmendorf SC, Henry GHR, Hollister RD, et al. (2012) Plot-scale evidence of tundra vegetation change and links to recent summer warming Nature Climate Change. 2: 453-457 |
| Strauss SL, Day TA, Garcia-Pichel F. (2012) Nitrogen cycling in desert biological soil crusts across biogeographic regions in the Southwestern United States Biogeochemistry. 108: 171-182 |
| Day TA, Ruhland CT, Strauss SL, et al. (2009) Response of plants and the dominant microarthropod, Cryptopygus antarcticus, to warming and contrasting precipitation regimes in Antarctic tundra Global Change Biology. 15: 1640-1651 |