PIE LTER Publications

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Book Chapter
Vallino J.J., Algar C.K., N. Gonzales F, Huber J.A..  2014.  Use of receding horizon optimal control to solve MaxEP-based biogeochemistry problems. Beyond the Second Law: Entropy Production and Non-Equilibrium Systems. :337-359.
Journal Article
Tsakalakis I., Follows J., Dutkiewicz S., Follett C.L, Vallino J.J..  2021.  Diel light cycles affect phytoplankton competition in the global ocean. BioRxiv. 2021.05.19.444874
Vallino J.J..  2011.  Differences and implications in biogeochemistry from maximizing entropy production locally versus globally. Earth System Dynamics. 2:69-85.
Vallino J.J..  2010.  Ecosystem biogeochemistry considered as a distributed metabolic network ordered by maximum entropy production.. Philosophical Transactions of The Royal Society B. 365:1417-1427.
Stewart L.C., Algar C.K., Fortunato C.S., Larson B.I., Vallino J.J., Huber J.A., Butterfield D.A., Holden J.F..  2019.  Fluid geochemistry, local hydrology, and metabolic activity define methanogen community size and composition in deep-sea hydrothermal vents. ISME.
Vallino J.J..  2003.  Modeling microbial consortiums as distributed metabolic networks. Biological Bulletin. 204:174-179.
Algar C.K., Vallino J.J..  2014.  Predicting microbial nitrate reduction pathways in coastal sediments. Aquatic Microbial Ecology. 71:223-238.
Vallino J.J., Algar C.K..  2016.  Thermodynamics of Marine Biogeochemical Cycles: Lotka Revisited. Annual Review of Marine Science. 8:333-356.
Vallino J.J., Huber J.A..  2018.  Using Maximum Entropy Production to Describe Microbial Biogeochemistry Over Time and Space in a Meromictic Pond. Frontiers in Environmental Science.