Scott A. Heckathorn
Affiliations: | Syracuse University, Syracuse, NY, United States |
Area:
Ecology Biology, Plant Physiology, Molecular BiologyGoogle:
"Scott Heckathorn"
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Publications
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| Refsnider JM, Vazquez TK, Clifton IT, et al. (2020) Cellular and whole-organism effects of prolonged versus acute heat stress in a montane, desert lizard. Journal of Experimental Zoology. Part a, Ecological and Integrative Physiology |
| Heckathorn S, North G, Wang D, et al. (2020) Editorial: Climate Change and Plant Nutrient Relations. Frontiers in Plant Science. 11: 869 |
| Jayawardena DM, Heckathorn SA, Bista DR, et al. (2018) Elevated carbon dioxide plus chronic warming causes dramatic increases in leaf angle in tomato, which correlates with reduced plant growth. Plant, Cell & Environment |
| Bista DR, Heckathorn SA, Jayawardena DM, et al. (2018) Effects of Drought on Nutrient Uptake and the Levels of Nutrient-Uptake Proteins in Roots of Drought-Sensitive and -Tolerant Grasses. Plants (Basel, Switzerland). 7 |
| Mishra S, Heckathorn SA, Frantz JM, et al. (2018) The effect of boron availability, CO2, and irradiance on relative accumulation of the major boron transport proteins, BOR1 and NIP5;1 Biologia Plantarum. 62: 121-128 |
| Giri A, Heckathorn S, Mishra S, et al. (2017) Heat Stress Decreases Levels of Nutrient-Uptake and -Assimilation Proteins in Tomato Roots. Plants (Basel, Switzerland). 6 |
| Jayawardena DM, Heckathorn SA, Bista DR, et al. (2016) Elevated CO2 plus chronic warming reduces nitrogen uptake and levels or activities of nitrogen -uptake and -assimilatory proteins in tomato roots. Physiologia Plantarum |
| Wang D, Heckathorn SA, Mainali K, et al. (2016) Timing Effects of Heat-Stress on Plant Ecophysiological Characteristics and Growth. Frontiers in Plant Science. 7: 1629 |
| Mishra S, Heckathorn S, Krause C. (2015) The Levels of Boron-Uptake Proteins in Roots are Correlated with Tolerance to Boron Stress in Barley Crop Science. 55: 1741-1748 |
| Armenio PM, Mayer CM, Heckathorn SA, et al. (2015) Resource contributions from dreissenid mussels to the benthic algae Lyngbya wollei (Cyanobacteria) and Cladophora glomerata (Chlorophyta) Hydrobiologia |