A Field Guide to British Rivers. George Heritage

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Название A Field Guide to British Rivers
Автор произведения George Heritage
Жанр География
Серия
Издательство География
Год выпуска 0
isbn 9781118488027



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promote vegetative succession (Amoros and Roux 1988; Junk et al. 1989). As a result, natural floodplains display complex dynamic spatial vegetation mosaics controlled by the morphology and the associated surface and subsurface hydrological regime (Thoms 2003). The features and vegetation present are often also a reflection of both present and past geomorphological activity associated with the fluvial system (Nanson and Croke, 1992) with features developing ecologically as connectivity with the main river alters over time.

      The preponderance of a near homogenous fluvial landscape, where natural processes are almost completely suppressed and continue to be suppressed through active management, offers little hope of any return to a more natural, dynamic, and diverse system unless current agricultural practices, not just on floodplains but also across the wider catchment, are fundamentally altered. Small‐scale restoration may partially restore some river and floodplain features and processes, but suppression elsewhere will mean that ecological gains remain highly localised and fundamentally unsustainable into the long term.

      Longitudinal and lateral fragmentation of large river systems, linked principally to human activities, has also contributed to severe and widespread floodplain degradation, and this is fundamentally threatening the integrity of running water ecosystems (Dynesius and Nilsson 1994; Schiemer 1999). This degradation is closely linked to a rapid decline in freshwater biodiversity, principally due to habitat alteration through altered land use and flow patterns, flood control, pollution and to invasive species. Tockner and Stanford (2002) provide the stark statistic that in Europe and North America, up to 90% of floodplains are already “cultivated” and therefore functionally extinct.

      This generally poor state of river system form and function was noted by Seager et al. (2012) who conducted a stratified random sample of 4849 River Habitat Survey sites across England and Wales in 1995–1996 and again in 2007–2008 to assess the general physical character of rivers and streams. From these data, they estimated that only 11% of river length had a “near‐natural” channel form, with a further 14% classed as predominantly unmodified. A single river study by Bentley et al. (2016) found a similar picture of hydromorphic diversity reduction along an engineered reach of the River Wharfe, suggesting that engineering‐driven changes to morphology, which are common on UK watercourses, result in severely degraded system form and function. Both studies paint an overly positive picture of fluvial system health as they fail to consider floodplain character and its almost ubiquitously degraded condition.

      Newbold (1998) estimated there were originally some 2 000 000 ha of lowland floodplain in the United Kingdom; this had been reduced by 86% to 274 000 ha by the turn of the century. This degradation was aided by post–World War II land drainage grants which saw 84 000 ha drained with no measurable increase in agricultural yield (Purseglove 1988). Further insight into wider modification to floodplain areas was reported by Heritage et al. (2016) in their analysis of floodplain connectivity and land use on eight SSSI rivers in England and Wales. They found that even these high‐value watercourses have been significantly impacted by current and former engineering and management of the river and valley bottom. Floodplains along all eight watercourses exhibited a loss of geomorphic functionality and natural habitat due to farming. Publication of the 2015 land cover mapping for England allowed Entwistle et al. (2019a) to further investigate floodplain habitat change in England, analysing floodplain habitat composition over time to chart recent historic degradation. Data from 1990 showed that intensive agriculture occupied around 38% of floodplain zones expanding to 53% by 2000 before the rate of expansion slowed slightly to cover 62% in 2007. Between 2007 and 2015, this statistic remained relatively static (64%) with some suggestion that arable areas were being transformed to pasture. Wetland areas in the form of fen, marsh, swamp, and bog are key indicators of natural floodplain functioning, and these have been devastated over recent historic time with data sets indicating that these fundamental floodplain units have been all but lost. Upland and lowland areas are both severely impacted with a near ubiquitous loss of natural floodplain functioning.

Bar graph shows the status classification of UK surface water bodies from 2009 to 2019.

      These statistics, although stark, should not come as a surprise. From a snap‐shot baseline sample of more than 5600 RHS reference sites across the United Kingdom and Isle of Man, Purseglove (1988) noted the following key points about the physical state of the 85 000 km of rivers and streams:

      1 Very few pristine lowland channels flowing through semi‐natural landscapes remain;

      2 Only 13.6% of lowland sites in England and Wales, 28% in Scotland, and 10.1% in Northern Ireland have an entirely unaltered channel;

      3 3.7% of lowland sites in England and Wales, 1.7% in Scotland, and 5% in Northern Ireland can be classified as having severely modified channels;

      4 Land drainage, flood defence, intensive agriculture, and urban development have significantly altered the channel shape and river landscape of many sites in the lowlands;

      5 Extensive reinforcement and re‐sectioning of riverbanks, and channel impoundment can cause a significant reduction in habitat diversity;

      6 Only 4.2% of sites below 50 m above sea level, with adjacent floodplain, have extensive wetlands, reflecting historical land drainage and current land‐use pressures affecting many river corridors.