Showing results for: [ Agricultural Hydrology (Drainage, Flooding, Irrigation, Quality, etc.) ]
This collection contains the run and irrigation data for a 2 year study at the Australian Cotton Research Institute that investigate N run-off as a response to fertiliser placement. The dataset also c... moreontains nitrate, ammonium, urea, total nitrogen and dissolved organic nitrogen concentrations and EC and pH of the water.less
CRDC-DAFF FtRG2 Quantifying indir - N budgeting in irrigated cotton using N15 labelled urea - Published 11 Feb 2020
Long-term modelling scenarios under historical (1970-2017) and future climate (2018-2050) using UNSATCHEM module in HYDRUS-1D to assess the longevity of irrigation, using a range of available water re... moresources, in four main soil groups.
File extensions: .in = input file, .out = output file, .dat and .h1d are system files that can't be opened.less
Sustainable Expansion of Recycled Water-Irrigated Agriculture/Horticulture in North Adelaide Plains - HYDRUS modelling - Published 30 Oct 2019
This collection contains three types of data files:
1) Canopy temperature files in csv format
2) Weather data corresponding to canopy temperature sensor location csv format
3) Agronomic data correspon... moreding to canopy temperature sensor location in csv formatless
Legacy data - Canopy Temperature - Published 22 Oct 2018
WAVES software, ancillary programs, default data files
Legacy data - Modelling - Published 27 Jul 2016
A numerical model to simulate salt transport in the unsaturated zone of two selected sites of the Lockyer Valley, namely, Forest Hill and Tent Hill. Those two sites were selected as they had signific... moreant amounts of salt stored in their unsaturated zone, which extends to about 20 m. HYDRUS-1D of Šimůnek and colleagues (2008) was used to model water flow, solute transport, and root water uptake in those sites.
A total of twelve simulations were run, six for each site. Two irrigation options were considered, the first using the currently available water at each of the sites, and the second using PRW. For each of those options (1 and 2), two vegetation types were considered: shallow-rooted (series W) and deep-rooted (series D). An additional scenario was considered for the shallow-rooted vegetation where intensive irrigation was adopted; this option represented a worst-case scenario for salt mobilisation and transport. Simulation time was varied depending on the irrigation scenario, which was 100 years and 28 years for moderate and intensive irrigation scenarios, respectively.less
1006.2 SEQ Lockyer Valley - Groundwater modelling - Published 22 Mar 2013