Issue Date | Title | Author(s) |
2018-09-15 | Linking fish tolerance to water quality criteria for the assessment of environmental flows: A practical method for streamflow regulation and pollution control | Zhao, C; Yang, S; Liu, J; Liu, C; Hao, F; Wang, Z; Zhang, H; Song, J; Mitrovic, SM; Lim, RP |
2020-05 | Projecting potential evapotranspiration change and quantifying its uncertainty under future climate scenarios: A case study in southeastern Australia | Shi, L; Feng, P; Wang, B; Li Liu, D; Cleverly, J; Fang, Q; Yu, Q |
2022-09-01 | Assessing future runoff changes with different potential evapotranspiration inputs based on multi-model ensemble of CMIP5 projections | Shi, L; Feng, P; Wang, B; Liu, DL; Zhang, H; Liu, J; Yu, Q |
2019-12-15 | Urban beaches are environmental hotspots for antibiotic resistance following rainfall | Carney, RL; Labbate, M; Siboni, N; Tagg, KA; Mitrovic, SM; Seymour, JR |
2021-07-15 | Wastewater effluents cause microbial community shifts and change trophic status. | Ruprecht, JE; Birrer, SC; Dafforn, KA; Mitrovic, SM; Crane, SL; Johnston, EL; Wemheuer, F; Navarro, A; Harrison, AJ; Turner, IL; Glamore, WC |
2021-01-01 | The role of landscape morphology on soil moisture variability in semi-arid ecosystems | Srivastava, A; Saco, PM; Rodriguez, JF; Kumari, N; Chun, KP; Yetemen, O |
2017-08-01 | Evaluation of variable-Infiltration capacity model and MODIS-Terra satellite-derived grid-scale evapotranspiration estimates in a river basin with tropical monsoon-type climatology | Srivastava, A; Sahoo, B; Raghuwanshi, NS; Singh, R |
2022-06-30 | Molecular microbiological approaches reduce ambiguity about the sources of faecal pollution and identify microbial hazards within an urbanised coastal environment. | Williams, NLR; Siboni, N; Potts, J; Campey, M; Johnson, C; Rao, S; Bramucci, A; Scanes, P; Seymour, JR |
2020-09-01 | Hydrological Response to Agricultural Land Use Heterogeneity Using Variable Infiltration Capacity Model | Srivastava, A; Kumari, N; Maza, M |
2022-06-30 | Assessing the validity and sensitivity of microbial processes within a hydrodynamic model. | Ruprecht, JE; King, IP; Mitrovic, SM; Dafforn, KA; Miller, BM; Deiber, M; Westhorpe, DP; Hitchcock, JN; Harrison, AJ; Glamore, WC |