Historic droughts inventory of references from agricultural media 1975-2012

The agricultural drought inventory for the UK is a subset of data from the UK Drought Inventory. It contains qualitative drought data related to UK agriculture based on an extensive review of two weekly farming magazines in the UK: Farmers Weekly and Farmers Guardian for the period 1975-2012. For creating this dataset, we focused on the major drought events in that period (1975-76, 1988-92, 1995-97, 2003-06 and 2010-12). The agricultural inventory contains a total of 2,209 references. The inventory follows a standard format (based on the European Drought Impact Report Inventory, EDII), common to the other sectoral collection of references, that allows their combination for drought analysis and characterisation. Thus, it stores information on the start and end dates of the event and their location (local and regional based on NUTS regions) to characterise the temporal and spatial extents of the cited event. The events/entries are categorised as drivers, impacts, responses and includes a sample of text from the source. Historic Droughts was a four year (2014-2018), £1.5m project funded by the UK Research Councils, aiming to develop a cross-disciplinary understanding of past drought episodes that have affected the United Kingdom (UK), with a view to developing improved tools for managing droughts in future. Drought and water scarcity (DWS) events are significant threats to livelihoods and wellbeing in many countries, including the United Kingdom (UK). Parts of the UK are already water-stressed and are facing a wide range of pressures, including an expanding population and intensifying exploitation of increasingly limited water resources. In addition, many regions may become significantly drier in future due to environmental changes, all of which implies major challenges to water resource management. However, DWS events are not simply natural hazards. There are also a range of socio-economic and regulatory factors that may influence the course of droughts, such as water consumption practices and abstraction licensing regimes. Consequently, if DWS events are to be better managed, there is a need for a more detailed understanding of the links between hydrometeorological and social systems during droughts. With this research gap in mind, the Historic Droughts project aimed to develop an interdisciplinary understanding of drought from a range of different perspectives. Based on an analysis of information from a wide range of sectors (hydrometeorological, environmental, agricultural, regulatory, social and cultural), the project characterised and quantified the history of drought and water scarcity events since the late 19th century. The Historic Droughts project involved eight institutions across the UK: the British Geological Survey the Centre for Ecology & Hydrology, Cranfield University, the University of Exeter, HR Wallingford, Lancaster University, the Met Office, and the University of Oxford.</p

Historic droughts inventory of references from agricultural media 2018

The agricultural drought inventory for the UK is a subset of data from the UK Drought Inventory. This dataset contains qualitative drought data related to UK agriculture based on an extensive review of two weekly farming magazines in the UK: Farmers Weekly and Farmers Guardian for the 2018 summer drought. This inventory is a complement of the existing Historic droughts inventory of references from agricultural media 1975-2012 (Rey et al., 2019), also available in ReShare (see Related Resources). This dataset contains a total of 1,098 references. The inventory follows a standard format (based on the European Drought Impact Report Inventory, EDII), common to the other sectoral collection of references, that allows their combination for drought analysis and characterisation. Thus, it stores information on the start and end dates of the event and their location (local and regional based on NUTS regions) to characterise the temporal and spatial extents of the cited event. The events/entries are categorised as drivers, impacts, responses and includes a sample of text from the source. Entries for years different from 2018 are related to content about a previous drought (e.g., 1976) that is mentioned in 2018.Historic Droughts was a four year (2014-2018), £1.5m project funded by the UK Research Councils, aiming to develop a cross-disciplinary understanding of past drought episodes that have affected the United Kingdom (UK), with a view to developing improved tools for managing droughts in future. Drought and water scarcity (DWS) events are significant threats to livelihoods and wellbeing in many countries, including the UK. Parts of the UK are already water-stressed and are facing a wide range of pressures, including an expanding population and intensifying exploitation of increasingly limited water resources. In addition, many regions may become significantly drier in future due to environmental changes, all of which implies major challenges to water resource management. However, DWS events are not simply natural hazards. There are also a range of socio-economic and regulatory factors that may influence the course of droughts, such as water consumption practices and abstraction licensing regimes. Consequently, if DWS events are to be better managed, there is a need for a more detailed understanding of the links between hydrometeorological and social systems during droughts. With this research gap in mind, the Historic Droughts project aimed to develop an interdisciplinary understanding of drought from a range of different perspectives. Based on an analysis of information from a wide range of sectors (hydrometeorological, environmental, agricultural, regulatory, social and cultural), the project characterised and quantified the history of drought and water scarcity events since the late 19th century. The Historic Droughts project involved eight institutions across the UK: the British Geological Survey the Centre for Ecology & Hydrology, Cranfield University, the University of Exeter, HR Wallingford, Lancaster University, the Met Office, and the University of Oxford.</p