Data are estimated stormwater values based on curve numbers (CN) values are based on hydrologic soil groups (A, B, C, and D) and four land cover types in the study area, such as, grassland, forest land, impervious area, and other open space. We apply SMPSS-TRAC to a watershed located in Hamilton County, Ohio, USA and develop five scenarios representing increasing use of GI. We test the scenarios under a 5-year rainfall intensity and set a cap of runoff for each scenario at a level that is equal to the runoff from an undeveloped status (1.03-inch runoff depth for the watershed). With the proposed SMPSS-TRAC, the watershed authority could encourage all parcel owners to install suitable GI or purchase credits from the market. This dataset is associated with the following publication: Fu, X., M. Hopton, X. Wang, H. Goddard, and H. Liu. A runoff trading system to meet watershed-level stormwater reduction goals with parcel-level green infrastructure installation. SCIENCE OF THE TOTAL ENVIRONMENT. Elsevier BV, AMSTERDAM, NETHERLANDS, 689: 1149-1159, (2019).

Output from three different scenarios generated using stormwater management planning support software to reduce occurrence of combined sewer overflow events through the use of green infrastructure. This dataset is associated with the following publication: Fu, X., H. Goddard, X. Wang, and M. Hopton. Development of a scenario-based stormwater management planning support system for reducing combined sewer overflows (CSOs). JOURNAL OF ENVIRONMENTAL MANAGEMENT. Elsevier Science Ltd, New York, NY, USA, 236: 571-580, (2019).

Output from three different scenarios generated using stormwater management planning support software to reduce occurrence of combined sewer overflow events through the use of green infrastructure. This dataset is associated with the following publication: Fu, X., H. Goddard, X. Wang, and M. Hopton. Development of a scenario-based stormwater management planning support system for reducing combined sewer overflows (CSOs). JOURNAL OF ENVIRONMENTAL MANAGEMENT. Elsevier Science Ltd, New York, NY, USA, 236: 571-580, (2019).

Flow and rainfall data collected at the Shayler Crossing (SHC) stream monitoring station at 10 minute intervals over a two month period in 2009. This dataset is associated with the following publication: Lee, J., C. Nietch, and S. Panguluri. Drainage Area Characterization for Evaluating Green Infrastructure using the Storm Water Management Model. HYDROLOGY AND EARTH SYSTEM SCIENCES. EGS, 22: 2615-2635, (2018).

The datasets provided contain modelled daily streamflow, and storage volume data for several NSW river systems. These data were generated by simulating baseline river system models used to inform the development of Regional Water Strategies. The models were simulated for three different climate scenarios: instrumental climate (about 130 years), paleo-stochastic climate (about 10,000 years), and paleo-stochastic climate with climate projection based on NARCliM 1.0 (about 10,000 years). Each modelled output is published as a ZIP file which contains two pdf files (.pdf) and three time series data (.csv). For more information on the NSW regional water strategies program, please refer to the following website. https://www.dpie.nsw.gov.au/water/our-work/plans-and-strategies/regional-water-strategies The naming structure of the individual zip files is "Watercourse at Gauge name, followed by Gauge number". 1) Oxley River at Eungella Gauge 201001_NARCliM.zip 2) Rous River at Boat Harbour No1 Gauge 201002_NARCliM.zip 3) Tweed River at Braeside Gauge 201003_NARCliM.zip 4) Rous River at Boat Harbour No3 Gauge 201005_NARCliM.zip 5) Oxley River at Tyalgum Gauge 201006_NARCliM.zip 6) Hopping Dick Creek at Limpinwood Gauge 201007_NARCliM.zip 7) Rous River at Chillingham Gauge 201008_NARCliM.zip 8) Rolands Creek at Uki Gauge 201009_NARCliM.zip 9) Byrrill Creek at Glen Warning Gauge 201010_NARCliM.zip 10) Doon Doon Creek at Lower Doon Doon Gauge 201011_NARCliM.zip 11) Cobaki Creek at Cobaki Gauge 201012_NARCliM.zip 12) Doon Doon Creek downstream Clarrie Hall Dam Gauge 201013_NARCliM.zip 13) Tweed River downstream Palmers Road Crossing Gauge 201015_NARCliM.zip 14) Tweed River at Uki Gauge 201900_NARCliM.zip Note: If you would like to ask a question, make any suggestions, or tell us how you are using this dataset, please visit the NSW Water Hub which has an online forum you can join.

The data being collected is to be used for several purposes: - Hydraulic/hydrologic modeling input - Work Order Management System integration - Map book production - Mobile redlining/correction submission tools

The datasets provided contain modelled daily streamflow, and storage volume data for several NSW river systems. These data were generated by simulating baseline river system models used to inform the development of Regional Water Strategies. The models were simulated for three different climate scenarios: instrumental climate (about 130 years), paleo-stochastic climate (about 10,000 years), and paleo-stochastic climate with climate projection based on NARCliM 1.0 (about 10,000 years). Each modelled output is published as a ZIP file which contains two pdf files (.pdf) and three time series data (.csv). For more information on the NSW regional water strategies program, please refer to the following website. https://www.dpie.nsw.gov.au/water/our-work/plans-and-strategies/regional-water-strategies The naming structure of the individual zip files is "Watercourse at Gauge name, followed by Gauge number". 1) Bellinger River at Thora Gauge 205002_NARCliM.zip 2) Bellinger River at Boggy Creek Gauge 205005_NARCliM.zip 3) Woolgoolga Creek at Woolgoolga Gauge 205007_NARCliM.zip 4) Corindi Creek at Upper Corindi Gauge 205012_NARCliM.zip 5) Kalang River at Kooroowi_Scotchman No3_Gauge 205013_NARCliM.zip 6) Bellinger River at Fosters Gauge 205016_NARCliM.zip Note: If you would like to ask a question, make any suggestions, or tell us how you are using this dataset, please visit the NSW Water Hub which has an online forum you can join.

The datasets provided contain modelled daily streamflow, and storage volume data for several NSW river systems. These data were generated by simulating baseline river system models used to inform the development of Regional Water Strategies. The models were simulated for three different climate scenarios: instrumental climate (about 130 years), paleo-stochastic climate (about 10,000 years), and paleo-stochastic climate with climate projection based on NARCliM 1.0 (about 10,000 years). Each modelled output is published as a ZIP file which contains two pdf files (.pdf) and three time series data (.csv). Note: To access and download datasets for specific regions, such as the Lachlan river system, please navigate to the respective child assets beneath this parent asset. For more information on the NSW regional water strategies program, please refer to the following website. https://www.dpie.nsw.gov.au/water/our-work/plans-and-strategies/regional-water-strategies Note: If you would like to ask a question, make any suggestions, or tell us how you are using this dataset, please visit the NSW Water Hub which has an online forum you can join.

The data being collected is to be used for several purposes: - Hydraulic/hydrologic modeling input - Work Order Management System integration - Map book production - Mobile redlining/correction submission tools

The datasets provided contain modelled daily streamflow, and storage volume data for several NSW river systems. These data were generated by simulating baseline river system models used to inform the development of Regional Water Strategies. The models were simulated for three different climate scenarios: instrumental climate (about 130 years), paleo-stochastic climate (about 10,000 years), and paleo-stochastic climate with climate projection based on NARCliM 1.0 (about 10,000 years). Each modelled output is published as a ZIP file which contains two pdf files (.pdf) and three time series data (.csv). For more information on the NSW regional water strategies program, please refer to the following website. https://www.dpie.nsw.gov.au/water/our-work/plans-and-strategies/regional-water-strategies The naming structure of the individual zip files is "Watercourse at Gauge name, followed by Gauge number". 1) Nymboida River at Nymboida Gauge 204001_NARCliM.zip 2) Clarence River at Tabulam Gauge 204002_NARCliM.zip 3) Clarence River at The Gorge Gauge 204003_NARCliM.zip 4) Mann River at Jackadgery Gauge 204004_NARCliM.zip 5) Nymboida River at Buccarumbi Gauge 204005_NARCliM.zip 6) Clarence River at Lilydale_Newbold Crossing_Gauge 204007_NARCliM.zip 7) Mann River at Mitchell Gauge 204014_NARCliM.zip 8) Boyd River at Broadmeadows Gauge 204015_NARCliM.zip 9) Orara River at Karangi Gauge 204025_NARCliM.zip 10) Henry River at Newton Boyd Gauge 204034_NARCliM.zip 11) Orara River at Bawden Bridge Gauge 204041_NARCliM.zip 12) Peacock Creek at Bonalbo Gauge 204043_NARCliM.zip 13) Gorge Creek at Bonalbo Gauge 204044_NARCliM.zip 14) Coombadjha Creek at Coombadjha Gauge 204048_NARCliM.zip 15) Duck Creek at Capeen Gauge 204049_NARCliM.zip 16) Clarence River at Paddys Flat Gauge 204051_NARCliM.zip 17) Washpool Creek at Lionsville Gauge 204054_NARCliM.zip 18) Dandahra Creek at Gibraltar Range Gauge 204056_NARCliM.zip 19) Bucca Creek at Central Bucca Gauge 204060_NARCliM.zip 20) Orara River at Orange Grove Gauge 204068_NARCliM.zip 21) Nymboida River downstream Nymboida Weir Gauge 204069_NARCliM.zip 22) Clarence River at Grafton Gauge 204400_NARCliM.zip 23) Clarence Rv at Mylneford Gauge 204460_NARCliM.zip 24) Clarence River at Baryulgil Gauge 204900_NARCliM.zip 25) Orara River at Glenreagh Gauge 204906_NARCliM.zip Note: If you would like to ask a question, make any suggestions, or tell us how you are using this dataset, please visit the NSW Water Hub which has an online forum you can join.