A list of my research papers is below. If the papers are not accessible in the link, feel free to contact me via e-mail. I will send a copy of pdf once requested.
Published or In Press
18. Still, C., R. Powell, D. Aubrecht, Y. Kim, B. Helliker, D. Roberts, A.D. Richardson, and M. Goulden. 2019. Thermal imaging in plant and
ecosystem ecology: applications and challenges. Ecosphere 10:e02768. doi:10.1002/ecs2.2768. [Link]
17. Jiang, Y., J.B. Kim, A.T. Trugman, Y. Kim, and C.J. Still. 2019. Linking tree physiological constraints with predictions of carbon and water
fluxes at an old-growth coniferous forest. Ecosphere 10:e02692. doi:10.1002/ecs2.2692. [Link]
16. Ulrich, D.E.M, C. Still, J.R. Brooks, Y. Kim, and F.C. Meinzer. 2019. Investigating old‐growth ponderosa pine physiology using tree‐rings, δ13C,
δ18O, and a process‐based model. Ecology e02656. doi:10.1002/ecy.2656. [Link]
15. Pau, S., M. Detto, Y. Kim, and C.J. Still. 2018. Tropical forest temperature thresholds for gross primary productivity. Ecosphere 9:e02311.
doi:10.1002/ecs2.2322. [Link]
14. Kim, Y., C.J. Still, D.A. Roberts, and M.L. Goulden. 2018. Thermal infrared imaging of leaf temperatures: Comparison to thermocouple
measurements and assessment of environmental influences. Agricultural and Forest Meteorology 248:361–371.
doi:10.1016/j.agrformet.2017.10.010. [Link]
13. Wang, W., N.T. Roulet, Y. Kim, I.B. Strachan, P. del Giorgio, Y.T. Prairie, A. Tremblay. 2018. Modelling CO2 emissions from water surface of a
boreal hydroelectric reservoir. Science of the Total Environment 612:392–404. doi.org/10.1016/j.scitotenv.2017.08.203. [Link]
12. Kim, Y., C.J. Still, C.V. Hanson, H. Kwon, and B.E. Law. 2016. Canopy skin temperature variations in relation to climate, soil temperature and
carbon flux at a ponderosa pine forest in central Oregon. Agricultural and Forest Meteorology 226–227:161–173.
doi:10.1016/j.agrformet.2016.06.001. [Link]
11. Wang, W., N.T. Roulet, Y. Kim, I.B. Strachan, P. del Giorgio, Y.T. Prairie, A. Tremblay. 2016. Integrating aquatic and terrestrial biogeochemical
model to predict effects of reservoir creation on CO2 emissions. Biogeosciences Discussions. doi:10.5194/bg-2016-100. [Link]
10. Kim, Y., N.T. Roulet, C. Li, S. Frolking, I.B. Strachan, C. Peng, C.R. Teodoru, Y.T. Prairie, and A. Tremblay. 2016. Simulating carbon dioxide
exchange in boreal ecosystems flooded by reservoirs. Ecological Modelling 327:1–17. doi:10.1016/j.ecolmodel.21016.01.006. [Link]
9. Kleinknecht, G.J., H.E. Lintz, A. Kruger, J.J. Niemeier, M.J. Salino-Hugg, C.K. Thomas, C.J. Still, and Y. Kim. 2015. Introducing a sensor to
measure budburst and its environmental drivers. Frontiers in Plant Science 6:123. doi:10.3389/fpls.2015.00123. [Link]
8. Kim, Y., S. Ullah, N.T. Roulet, and T.R. Moore. 2015. Effect of inundation, oxygen, and temperature on carbon mineralization in boreal soils.
Science of the Total Environment 511:381–392. doi:10.1016/j.scitotenv.2014.12.065. [Link]
7. Kim, Y., N.T. Roulet, C. Peng, C. Li, S. Frolking, I.B. Strachan, and A. Tremblay. 2014. Multi-year carbon dioxide flux simulations of mature
Canadian black spruce forests and ombrotrophic bogs using Forest-DNDC. Boreal Environment Research 19:417–440. [Link]
6. Kim, Y., S. Ullah, T.R. Moore, and N.T. Roulet. 2014. Dissolved organic carbon and total nitrogen production by boreal soils and litter: the role
of flooding, oxygen concentration, and temperature. Biogeochemistry 118:35–48. doi:10.1007/s10533-013-9903-8. [Link]
5. Webster, K.L., J.W. McLaughlin, Y. Kim, M.S. Packalen, and C. Li. 2013. Modelling carbon dynamics and response to environmental change
along a boreal fen nutrient gradient. Ecological Modelling 248:148–164. doi10.1016/j.ecolmodel.2012.10.004. [Link]
4. Kim, Y., S. Kang, J.-H. Lim, D. Lee, and J. Kim. 2010. Inter-annual and inter-plot variations of wood biomass production as related to biotic
and abiotic characteristics at a deciduous forest in complex terrain, Korea. Ecological Research 25:757–769. doi:10.1007/s11284-010-0705-3.
[Link]
3. Hwang, T., S. Kang, J. Kim, Y. Kim, D. Lee, and L. Band. 2008. Evaluating drought effect on MODIS Gross Primary Production (GPP) with an
eco-hydrological model in the mountainous forest, East Asia. Global Change Biology 14:1–20. doi:10.1111/j.1365-2486.2008.01556.x. [Link]
2. Kim, Y., S. Kang, and J. Kim. 2007. Enhancing the reliability of MODIS Gross Primary Productivity (GPP) by improving input data. Korean
Journal of Agricultural and Forest Meteorology 9:132–139. [Link]
1. Kang, S., Y. Kim, and Y.-J. Kim. 2005. Errors of MODIS product of Gross Primary Production by using Data Assimilation Office Meteorological
Data. Korean Journal of Agricultural and Forest Meteorology 7:171–183 (in Korean with English abstract). [Link]
18. Still, C., R. Powell, D. Aubrecht, Y. Kim, B. Helliker, D. Roberts, A.D. Richardson, and M. Goulden. 2019. Thermal imaging in plant and
ecosystem ecology: applications and challenges. Ecosphere 10:e02768. doi:10.1002/ecs2.2768. [Link]
17. Jiang, Y., J.B. Kim, A.T. Trugman, Y. Kim, and C.J. Still. 2019. Linking tree physiological constraints with predictions of carbon and water
fluxes at an old-growth coniferous forest. Ecosphere 10:e02692. doi:10.1002/ecs2.2692. [Link]
16. Ulrich, D.E.M, C. Still, J.R. Brooks, Y. Kim, and F.C. Meinzer. 2019. Investigating old‐growth ponderosa pine physiology using tree‐rings, δ13C,
δ18O, and a process‐based model. Ecology e02656. doi:10.1002/ecy.2656. [Link]
15. Pau, S., M. Detto, Y. Kim, and C.J. Still. 2018. Tropical forest temperature thresholds for gross primary productivity. Ecosphere 9:e02311.
doi:10.1002/ecs2.2322. [Link]
14. Kim, Y., C.J. Still, D.A. Roberts, and M.L. Goulden. 2018. Thermal infrared imaging of leaf temperatures: Comparison to thermocouple
measurements and assessment of environmental influences. Agricultural and Forest Meteorology 248:361–371.
doi:10.1016/j.agrformet.2017.10.010. [Link]
13. Wang, W., N.T. Roulet, Y. Kim, I.B. Strachan, P. del Giorgio, Y.T. Prairie, A. Tremblay. 2018. Modelling CO2 emissions from water surface of a
boreal hydroelectric reservoir. Science of the Total Environment 612:392–404. doi.org/10.1016/j.scitotenv.2017.08.203. [Link]
12. Kim, Y., C.J. Still, C.V. Hanson, H. Kwon, and B.E. Law. 2016. Canopy skin temperature variations in relation to climate, soil temperature and
carbon flux at a ponderosa pine forest in central Oregon. Agricultural and Forest Meteorology 226–227:161–173.
doi:10.1016/j.agrformet.2016.06.001. [Link]
11. Wang, W., N.T. Roulet, Y. Kim, I.B. Strachan, P. del Giorgio, Y.T. Prairie, A. Tremblay. 2016. Integrating aquatic and terrestrial biogeochemical
model to predict effects of reservoir creation on CO2 emissions. Biogeosciences Discussions. doi:10.5194/bg-2016-100. [Link]
10. Kim, Y., N.T. Roulet, C. Li, S. Frolking, I.B. Strachan, C. Peng, C.R. Teodoru, Y.T. Prairie, and A. Tremblay. 2016. Simulating carbon dioxide
exchange in boreal ecosystems flooded by reservoirs. Ecological Modelling 327:1–17. doi:10.1016/j.ecolmodel.21016.01.006. [Link]
9. Kleinknecht, G.J., H.E. Lintz, A. Kruger, J.J. Niemeier, M.J. Salino-Hugg, C.K. Thomas, C.J. Still, and Y. Kim. 2015. Introducing a sensor to
measure budburst and its environmental drivers. Frontiers in Plant Science 6:123. doi:10.3389/fpls.2015.00123. [Link]
8. Kim, Y., S. Ullah, N.T. Roulet, and T.R. Moore. 2015. Effect of inundation, oxygen, and temperature on carbon mineralization in boreal soils.
Science of the Total Environment 511:381–392. doi:10.1016/j.scitotenv.2014.12.065. [Link]
7. Kim, Y., N.T. Roulet, C. Peng, C. Li, S. Frolking, I.B. Strachan, and A. Tremblay. 2014. Multi-year carbon dioxide flux simulations of mature
Canadian black spruce forests and ombrotrophic bogs using Forest-DNDC. Boreal Environment Research 19:417–440. [Link]
6. Kim, Y., S. Ullah, T.R. Moore, and N.T. Roulet. 2014. Dissolved organic carbon and total nitrogen production by boreal soils and litter: the role
of flooding, oxygen concentration, and temperature. Biogeochemistry 118:35–48. doi:10.1007/s10533-013-9903-8. [Link]
5. Webster, K.L., J.W. McLaughlin, Y. Kim, M.S. Packalen, and C. Li. 2013. Modelling carbon dynamics and response to environmental change
along a boreal fen nutrient gradient. Ecological Modelling 248:148–164. doi10.1016/j.ecolmodel.2012.10.004. [Link]
4. Kim, Y., S. Kang, J.-H. Lim, D. Lee, and J. Kim. 2010. Inter-annual and inter-plot variations of wood biomass production as related to biotic
and abiotic characteristics at a deciduous forest in complex terrain, Korea. Ecological Research 25:757–769. doi:10.1007/s11284-010-0705-3.
[Link]
3. Hwang, T., S. Kang, J. Kim, Y. Kim, D. Lee, and L. Band. 2008. Evaluating drought effect on MODIS Gross Primary Production (GPP) with an
eco-hydrological model in the mountainous forest, East Asia. Global Change Biology 14:1–20. doi:10.1111/j.1365-2486.2008.01556.x. [Link]
2. Kim, Y., S. Kang, and J. Kim. 2007. Enhancing the reliability of MODIS Gross Primary Productivity (GPP) by improving input data. Korean
Journal of Agricultural and Forest Meteorology 9:132–139. [Link]
1. Kang, S., Y. Kim, and Y.-J. Kim. 2005. Errors of MODIS product of Gross Primary Production by using Data Assimilation Office Meteorological
Data. Korean Journal of Agricultural and Forest Meteorology 7:171–183 (in Korean with English abstract). [Link]