Browsing by Author "Biggs, Jeremy"
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Item Open Access Morphological and physico-chemical properties of British aquatic habitats potentially exposed to pesticides.(Elsevier, 2006-04) Brown, Colin D.; Turner, Nigel; Hollis, John; Bellamy, Patricia H.; Biggs, Jeremy; Williams, Penny; Arnold, Dave; Pepper, Tim; Maund, SteveApproaches to describe the exposure of non-target aquatic organisms to agricultural pesticides can be limited by insufficient knowledge of the environmental conditions where the compounds are used. This study analysed information from national and regional datasets gathered in the UK describing the morphological and physico-chemical properties of rivers, streams, ponds and ditches. An aggregation approach was adopted, whereby the landscape was divided into 12 hydrogeological classes for agricultural areas and a 13th class that comprised non-agricultural land. The data describe major differences in the abundance, dimensions and chemistry of waterbodies in the different landscapes. There is almost an order of magnitude difference in the total input of pesticide per unit area between the different landscapes. Ditches are shown to be most proximate to arable land, streams and rivers intermediate and ponds the least proximate. Results of the study have implications for the development of standard scenarios for use in protective screening steps within the risk assessment. Data can be used to produce more realistic estimates of the exposure of aquatic systems to pesticides and to examine how that exposure varies across the landscape.Item Open Access Pond ecology and conservation: research priorities and knowledge gaps(Wiley, 2021-12-09) Hill, Matthew J.; Greaves, Helen M.; Sayer, Carl D.; Hassall, Christopher; Milin, Melanie; Milner, Victoria S.; Marazzi, Luca; Hall, Ruth; Harper, Lynsey R.; Thornhill, Ian; Walton, Richard; Biggs, Jeremy; Ewald, Naomi; Law, Alan; Willby, Nigel; White, James C.; Briers, Robert A.; Mathers, Kate L.; Jeffries, Michael J.; Wood, Paul J.Ponds are among the most biodiverse and ecologically important freshwater habitats globally and may provide a significant opportunity to mitigate anthropogenic pressures and reverse the decline of aquatic biodiversity. Ponds also provide important contributions to society through the provision of ecosystem services. Despite the ecological and societal importance of ponds, freshwater research, policy, and conservation have historically focused on larger water bodies, with significant gaps remaining in our understanding and conservation of pond ecosystems. In May 2019, pond researchers and practitioners participated in a workshop to tackle several pond ecology, conservation, and management issues. Nine research themes and 30 research questions were identified during and following the workshop to address knowledge gaps around: (1) pond habitat definition; (2) global and long-term data availability; (3) anthropogenic stressors; (4) aquatic–terrestrial interactions; (5) succession and disturbance; (6) freshwater connectivity; (7) pond monitoring and technological advances; (8) socio-economic factors; and (9) conservation, management, and policy. Key areas for the future inclusion of ponds in environmental and conservation policy were also discussed. Addressing gaps in our fundamental understanding of pond ecosystems will facilitate more effective research-led conservation and management of pondscapes, their inclusion in environmental policy, support the sustainability of ecosystem services, and help address many of the global threats driving the decline in freshwater biodiversity.Item Open Access Small Water Bodies in Great Britain and Ireland: Ecosystem function, human-generated degradation, and options for restorative action(Elsevier, 2018-07-26) Riley, William D.; Potter, Edward C. E.; Biggs, Jeremy; Collins, Adrian L.; Jarvie, Helen P.; Jones, J. Iwan; Kelly-Quinn, Mary; Ormerod, Steve J.; Sear, David A.; Wilby, Robert L.; Broadmeadow, Samantha; Brown, Colin D.; Chanin, Paul; Copp, Gordon H.; Cowx, Ian G.; Grogan, Adam; Hornby, Duncan D.; Huggett, Duncan; Kelly, Martyn G.; Naura, Marc; Newman, Jonathan R.; Siriwardena, Gavin M.Small, 1st and 2nd-order, headwater streams and ponds play essential roles in providing natural flood control, trapping sediments and contaminants, retaining nutrients, and maintaining biological diversity, which extend into downstream reaches, lakes and estuaries. However, the large geographic extent and high connectivity of these small water bodies with the surrounding terrestrial ecosystem makes them particularly vulnerable to growing land-use pressures and environmental change. The greatest pressure on the physical processes in these waters has been their extension and modification for agricultural and forestry drainage, resulting in highly modified discharge and temperature regimes that have implications for flood and drought control further downstream. The extensive length of the small stream network exposes rivers to a wide range of inputs, including nutrients, pesticides, heavy metals, sediment and emerging contaminants. Small water bodies have also been affected by invasions of non-native species, which along with the physical and chemical pressures, have affected most groups of organisms with consequent implications for the wider biodiversity within the catchment. Reducing the impacts and restoring the natural ecosystem function of these water bodies requires a three-tiered approach based on: restoration of channel hydromorphological dynamics; restoration and management of the riparian zone; and management of activities in the wider catchment that have both point-source and diffuse impacts. Such activities are expensive and so emphasis must be placed on integrated programmes that provide multiple benefits. Practical options need to be promoted through legislative regulation, financial incentives, markets for resource services and voluntary codes and actions.