Publications

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2024

[1] Jin, R., Holder, C. and Gnanadesikan, A. Using random forests to compare the sensitivity of observed particulate inorganic and particulate organic carbon to environmental conditions. submitted to Geophysical Research Letters

2023

[5] Jin, R., Gnanadesikan, A., Pradal, M.A.and St-Laurent, P. How does colored dissolved organic matter (CDOM) influence the distribution and intensity of hypoxia in coastal oceans?. in rev for Journal of Geophysical Research: Oceans

[4] Preheim, S.P., Morris, S., Zhang, Y., Holder, C., Arora-Williams, K. K., Gensbigler, P., Hinton, A., Jin, R., Pradal, M.A. and Gnanadesikan, A. Spatiotemporal shifts in the distribution of genes in Chesapeake Bay: Part II-Relationship between genes and associated modeled rates. in rev for Limnology and Oceanography

[3] Preheim, S.P., Morris, S., Zhang, Y., Holder, C., Arora-Williams, K. K., Gensbigler, P., Hinton, A., Jin, R., Pradal, M.A. and Gnanadesikan, A. Spatiotemporal shifts in the distribution of genes in Chesapeake Bay: Part I-Major trends, gene-gene relationships, and environmental correlates. in rev for Limnology and Oceanography

[2] Jin, R., Pradal, M.A., Hantsoo, K., Gnanadesikan, A., St-Laurent, P. and Bjerrum, C.J. Constructing a Model Including the Cryptic Sulfur Cycle in Chesapeake Bay Requires Judicious Choices for Key Processes and Parameters. MethodsX

[1] Jin, R., Pradal, M.A., Hantsoo, K., Gnanadesikan, A., St-Laurent, P. and Bjerrum, C.J. Comparing two ocean biogeochemical models of Chesapeake Bay with and without the sulfur cycle instead highlights the importance of particle sinking, burial, organic matter, nitrification and light attenuation. Ocean Modelling

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