유역 지표수-지하수 수질 관리를 위한 반응성 운송 모형 연구

References

1. Bao C, Li L, Shi Y, Duffy C. 2017 Understanding watershed hydrogeochemistry: 1. Development of RT-Flux-PIHM. Water Resour Res 53, 2328-2345. (doi:10.1002/2016WR018934).
2. Beisman JJ, Maxwell RM, Navarre-Sitchler AK, Steefel CI, Molins S. 2015 ParCrunchFlow: an efficient, parallel reactive transport simulation tool for physically and chemically heterogeneous saturated subsurface environments. Comput Geosci 19, 403-422. (doi:10.1007/s10596-015-9475-x).
3. Li L. 2019 Watershed Reactive Transport. Rev Mineral Geochem 85, 381-418. (doi:10.2138/rmg.2018.85.13).
4. Li L, Bao C, Sullivan PL, Brantley S, Shi Y, Duffy C. 2017 Understanding watershed hydrogeochemistry: 2. Synchronized hydrological and geochemical processes drive stream chemostatic behavior. Water Resour Res 53, 2346-2367. (doi:10.1002/2016WR018935).
5. Li L et al. 2017 Expanding the role of reactive transport models in critical zone processes. Earth Sci Rev 165, 280-301. (doi:10.1016/j.earscirev.2016.09.001).
6. Molins S, Svyatsky D, Xu Z, Coon ET, Moulton JD. 2022 A Multicomponent Reactive Transport Model for Integrated Surface-Subsurface Hydrology Problems. Water Resour Res 58. (doi:10.1029/2022WR032074).
7. Steefel, C., Depaolo, D., Lichtner, P., 2005. Reactive transport modeling: An essential tool and a new research approach for the Earth sciences. Earth Planet Sci Lett 240, 539-558. https://doi.org/10.1016/j.epsl.2005.09.017
8. Zhi W, Li L. 2020 The Shallow and Deep Hypothesis: Subsurface Vertical Chemical Contrasts Shape Nitrate Export Patterns from Different Land Uses. Environ Sci Technol 54, 11915-11928. (doi:10.1021/acs.est.0c01340).
9. Zhi W., Shi, Y., Wen, H., Saberi, L., Ng, G.H.C., Sadayappan, K., Kerins, D., Stewart, B., Li, L., 2022. BioRT-Flux-PIHM v1.0: A biogeochemical reactive transport model at the watershed scale. Geosci Model Dev 15, 315-333. https://doi.org/10.5194/gmd-15-315-2022