FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2783508225> ?p ?o ?g. }

• W2783508225 endingPage "226" @default.
• W2783508225 startingPage "213" @default.
• W2783508225 abstract "Significant need exists in the developing world to transition from occasional groundwater-quality surveys to routinely sampled groundwater-quality network monitoring programmes that provide better safeguard of resources. Such networks contribute to the sustainable management of water resources, are integral to Water Safety Plans, and underpin delivery of Sustainable Development Goal 6. A framework for groundwater-quality monitoring network design is developed that is pragmatic for developing-world needs and its application is demonstrated using data from the Chikwawa District – Shire Valley aquifer system in Malawi. The step-wise framework is based upon a hydrogeological–hydrochemical process-based system conceptual model. The Chikwawa model developed is built upon our interpreted 2012 and archive 2008–9 major-ion survey data; major-ion data often constitute the most easily available datasets in many areas of the developing world. A versatile, semi-quantitative, approach is adopted which sets bespoke-system ‘Monitoring Objectives’, which are weighted on a scale of 1–5 and then rated against bespoke criteria using a scale of 0–10. This permits development of aggregate ‘Monitoring Potential’ scores at candidate network-point localities. Ideally the process is facilitated by the use of a GIS, although its use is not essential. Monitoring objectives are flexible and typically relate to various perceived risks to groundwater quality; including increasing salinity, anthropogenic activity, etc. The framework, as demonstrated for Chikwawa, allows an incremental build of a prioritised network of points, including a relative estimate of their potential to address the individual monitoring objectives set. The framework methodology is easy to use and adaptable to developing, and developed, world monitoring needs alike. The proposed network for Chikwawa could help pilot transition to a higher resolution national groundwater quality network across Malawi than currently exists. However, attaining the spatial monitoring densities suggested remains challenging due to the investment required in current infrastructure-capacity alongside the need to develop mechanisms that allow network running costs to be met sustainably." @default.
• W2783508225 created "2018-01-26" @default.
• W2783508225 creator A5009883817 @default.
• W2783508225 creator A5012719237 @default.
• W2783508225 creator A5019535698 @default.
• W2783508225 creator A5025497347 @default.
• W2783508225 creator A5027427353 @default.
• W2783508225 creator A5062146734 @default.
• W2783508225 creator A5066328733 @default.
• W2783508225 creator A5072193424 @default.
• W2783508225 creator A5074365198 @default.
• W2783508225 creator A5081060388 @default.
• W2783508225 date "2018-03-01" @default.
• W2783508225 modified "2023-09-23" @default.
• W2783508225 title "A conceptual model based framework for pragmatic groundwater-quality monitoring network design in the developing world: Application to the Chikwawa District, Malawi" @default.
• W2783508225 cites W1506416087 @default.
• W2783508225 cites W1655071942 @default.
• W2783508225 cites W1856828986 @default.
• W2783508225 cites W1969496791 @default.
• W2783508225 cites W1987565060 @default.
• W2783508225 cites W1989051154 @default.
• W2783508225 cites W1998530359 @default.
• W2783508225 cites W2001177075 @default.
• W2783508225 cites W2015592326 @default.
• W2783508225 cites W2020051054 @default.
• W2783508225 cites W2026819685 @default.
• W2783508225 cites W2055891067 @default.
• W2783508225 cites W2057444114 @default.
• W2783508225 cites W2059334032 @default.
• W2783508225 cites W2070325125 @default.
• W2783508225 cites W2076877349 @default.
• W2783508225 cites W2085136149 @default.
• W2783508225 cites W2085991461 @default.
• W2783508225 cites W2088618411 @default.
• W2783508225 cites W2129388203 @default.
• W2783508225 cites W2151984094 @default.
• W2783508225 cites W2168421379 @default.
• W2783508225 cites W2186087309 @default.
• W2783508225 cites W2343032914 @default.
• W2783508225 cites W2413863314 @default.
• W2783508225 cites W2582901367 @default.
• W2783508225 cites W2759963029 @default.
• W2783508225 cites W2781968775 @default.
• W2783508225 doi "https://doi.org/10.1016/j.gsd.2018.01.005" @default.
• W2783508225 hasPublicationYear "2018" @default.
• W2783508225 type Work @default.
• W2783508225 sameAs 2783508225 @default.
• W2783508225 citedByCount "11" @default.
• W2783508225 countsByYear W27835082252018 @default.
• W2783508225 countsByYear W27835082252019 @default.
• W2783508225 countsByYear W27835082252020 @default.
• W2783508225 countsByYear W27835082252021 @default.
• W2783508225 countsByYear W27835082252022 @default.
• W2783508225 countsByYear W27835082252023 @default.
• W2783508225 crossrefType "journal-article" @default.
• W2783508225 hasAuthorship W2783508225A5009883817 @default.
• W2783508225 hasAuthorship W2783508225A5012719237 @default.
• W2783508225 hasAuthorship W2783508225A5019535698 @default.
• W2783508225 hasAuthorship W2783508225A5025497347 @default.
• W2783508225 hasAuthorship W2783508225A5027427353 @default.
• W2783508225 hasAuthorship W2783508225A5062146734 @default.
• W2783508225 hasAuthorship W2783508225A5066328733 @default.
• W2783508225 hasAuthorship W2783508225A5072193424 @default.
• W2783508225 hasAuthorship W2783508225A5074365198 @default.
• W2783508225 hasAuthorship W2783508225A5081060388 @default.
• W2783508225 hasBestOaLocation W27835082252 @default.
• W2783508225 hasConcept C107826830 @default.
• W2783508225 hasConcept C111472728 @default.
• W2783508225 hasConcept C111919701 @default.
• W2783508225 hasConcept C112698675 @default.
• W2783508225 hasConcept C127413603 @default.
• W2783508225 hasConcept C13606891 @default.
• W2783508225 hasConcept C138885662 @default.
• W2783508225 hasConcept C144133560 @default.
• W2783508225 hasConcept C187320778 @default.
• W2783508225 hasConcept C205649164 @default.
• W2783508225 hasConcept C2778755073 @default.
• W2783508225 hasConcept C2779530757 @default.
• W2783508225 hasConcept C39432304 @default.
• W2783508225 hasConcept C41008148 @default.
• W2783508225 hasConcept C44210515 @default.
• W2783508225 hasConcept C58640448 @default.
• W2783508225 hasConcept C76177295 @default.
• W2783508225 hasConcept C77088390 @default.
• W2783508225 hasConcept C98045186 @default.
• W2783508225 hasConceptScore W2783508225C107826830 @default.
• W2783508225 hasConceptScore W2783508225C111472728 @default.
• W2783508225 hasConceptScore W2783508225C111919701 @default.
• W2783508225 hasConceptScore W2783508225C112698675 @default.
• W2783508225 hasConceptScore W2783508225C127413603 @default.
• W2783508225 hasConceptScore W2783508225C13606891 @default.
• W2783508225 hasConceptScore W2783508225C138885662 @default.
• W2783508225 hasConceptScore W2783508225C144133560 @default.
• W2783508225 hasConceptScore W2783508225C187320778 @default.
• W2783508225 hasConceptScore W2783508225C205649164 @default.
• W2783508225 hasConceptScore W2783508225C2778755073 @default.
• W2783508225 hasConceptScore W2783508225C2779530757 @default.
• W2783508225 hasConceptScore W2783508225C39432304 @default.

• next