Soluble organic components of winery wastewater and implications for reuse
- Authors: Mosse, Kim , Verheyen, Vincent , Cruickshank, Alicia , Patti, Antonio , Cavagnaro, Timothy
- Date: 2013
- Type: Text , Journal article
- Relation: Agricultural Water Management Vol. 120, no. (2013), p. 5-10
- Full Text: false
- Reviewed:
- Description: Sustainable reuse of winery wastewaters (WWW) via land application is of interest given the increasing industrialization of wine production. However, before WWW reuse can become widespread, its chemical composition and consequently its potential long-term impact need to be investigated. In this study, soluble materials in influent and effluent waters from different WWW treatment plants were analyzed at the molecular level using Solid Phase Micro Extraction Gas Chromatography/Mass Spectrometry (SPME GC–MS). The analytical focus was on key compound classes with potential for environmental harm, the majority of which were reduced by all treatments considered here. The effluents retained considerable quantities of recalcitrant phenolic compounds, which is of concern due to their potential phytotoxicity and proven resistance to aerobic degradation. This research highlights the importance of understanding the nature of organic material in WWW to ensure sustainable reuse.
Characterization of trace organic compounds in recycled water used for irrigation on turf and comparison with rain
- Authors: Heaven, M. , Verheyen, Vincent , Cruickshank, Alicia , Wild, Karl , Watkins, Mark , Nash, David
- Date: 2012
- Type: Text , Journal article
- Relation: Agricultural Water Management Vol. 103, no. (2012), p. 176-181
- Full Text: false
- Reviewed:
- Description: Wastewaters are increasingly being reused in public spaces to supplant the use of potable water. In this study we investigated possible trace organic contaminants in wastewater from a dairy factory applied to a recreation reserve. Samples were taken of recycled dairy factory wastewater used to irrigate the reserve and from the subsurface drainage system after irrigation and after rainfall. Using gas chromatography–mass spectrometry, it was found that irrigation drainage mostly contained different compounds to those in rainfall drainage. This drainage water was found to contain residues of three agrochemicals (dicamba, 0.4 ± 0.07
A New assessment framework for transience in hydrogeological systems
- Authors: Currell, Matthew , Gleeson, Tom , Dahlhaus, Peter
- Date: 2016
- Type: Text , Journal article
- Relation: Groundwater Vol. 54, no. 1 (2016), p. 4-14
- Full Text: false
- Reviewed:
- Description: The importance of transience in the management of hydrogeologic systems is often uncertain. We propose a clear framework for determining the likely importance of transient behavior in groundwater systems in a management context. The framework incorporates information about aquifer hydraulics, hydrological drivers, and time scale of management. It is widely recognized that aquifers respond on different timescales to hydrological change and that hydrological drivers themselves, such as climate, are not stationary in time. We propose that in order to assess whether transient behavior is likely to be of practical importance, three factors need to be examined simultaneously: (1) aquifer response time, which can be expressed in terms of the response to a step hydrological change (τstep) or periodic change (τcycle); (2) temporal variation of the dominant hydrological drivers, such as dominant climatic systems in a region; (3) the management timescale and spatial scale of interest. Graphical tools have been developed to examine these factors in conjunction, and assess how important transient behavior is likely to be in response to particular hydrological drivers, and thus which drivers are most likely to induce transience in a specified management timeframe. The method is demonstrated using two case studies; a local system that responds rapidly and is managed on yearly to decadal timeframes and a regional system that exhibits highly delayed responses and was until recently being assessed as a high level nuclear waste repository site. Any practical groundwater resource problem can easily be examined using the proposed framework.
- Description: The importance of transience in the management of hydrogeologic systems is often uncertain. We propose a clear framework for determining the likely importance of transient behavior in groundwater systems in a management context. The framework incorporates information about aquifer hydraulics, hydrological drivers, and time scale of management. It is widely recognized that aquifers respond on different timescales to hydrological change and that hydrological drivers themselves, such as climate, are not stationary in time. We propose that in order to assess whether transient behavior is likely to be of practical importance, three factors need to be examined simultaneously: (1) aquifer response time, which can be expressed in terms of the response to a step hydrological change (