Extending a Large-Scale Model to Better Represent Water Resources without Increasing the Model’s Complexity
Horan, R.; Rickards, N.J.; Kaelin, A.; Baron, H.E.; Thomas, T.; Keller, V.D.J.; Mishra, P.K.; Nema, M.K.; Muddu, S.; Garg, K.K.; Pathak, R.; Houghton-Carr, H.A.; Dixon, H.; Jain, S.K.; Rees, G. Extending a Large-Scale Model to Better Represent Water Resources without Increasing the Model’s Complexity. Water 2021, 13, 3067. https://doi.org/10.3390/w13213067
Horan R, Rickards NJ, Kaelin A, Baron HE, Thomas T, Keller VDJ, Mishra PK, Nema MK, Muddu S, Garg KK, Pathak R, Houghton-Carr HA, Dixon H, Jain SK, Rees G. Extending a Large-Scale Model to Better Represent Water Resources without Increasing the Model’s Complexity. Water. 2021; 13(21):3067. https://doi.org/10.3390/w13213067
Chicago/Turabian StyleHoran, Robyn, Nathan J. Rickards, Alexandra Kaelin, Helen E. Baron, Thomas Thomas, Virginie D. J. Keller, Prabhas K. Mishra, Manish K. Nema, Sekhar Muddu, Kaushal K. Garg, Rishi Pathak, Helen A. Houghton-Carr, Harry Dixon, Sharad K. Jain, and Gwyn Rees. 2021. "Extending a Large-Scale Model to Better Represent Water Resources without Increasing the Model’s Complexity" Water 13, no. 21: 3067. https://doi.org/10.3390/w13213067