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Details of Award

NERC Reference : NE/E004539/1

The influence of major FLOOD disturbance on River EcoSystem Evolution Trajectories in recently deglaciated terrain (FLOODRESET)

Grant Award

Principal Investigator:
Professor A Milner, University of Birmingham, Sch of Geography, Earth & Env Sciences
Science Area:
Freshwater
Overall Classification:
Freshwater
ENRIs:
Global Change
Biodiversity
Science Topics:
Hydrological Processes
Community Ecology
Regional & Extreme Weather
Climate & Climate Change
Abstract:
One of the major factors influencing river ecosystems is disturbance, particularly that related to flooding. Floods maintain ecosystem diversity and redistribute energy, nutrients, sediment and biota in rivers. The biota of rivers (e.g. invertebrates and fish) may survive floods either by withstanding the disturbance (resistance) or recovering rapidly (resilience). Although disturbance to river ecosystems due to severe flooding have been relatively well studied, many studies have a restricted pre-disturbance series of data against which to evaluate flood effects and rarely in terms of their successional development. This in part reflects minimal continuous, year-on-year monitoring of stream communities against which to measure any disturbance effects. Between November 21 and 26 of 2005, a strong winter storm with high winds and record rainfall caused widespread flooding, landslides, and wind damage in southeast Alaska. The cities of Juneau, Haines, and Sitka made local disaster declarations and requested state and public assistance for response and recovery. Continuous heavy rainfall (over 650mm in less than 72 hours) occurred over a region called Glacier Bay in southeast Alaska, leading to large scale flooding and extreme disturbance to many rivers. The size of this event is evident when compared against an average annual rainfall of 920mm. In Glacier Bay, we hold long-term continuous data sets (up to 29 years for some streams) detailing stream community evolution following glacial retreat. This data set has provided unique insights into primary succession (change over time) of stream invertebrates and fish. For one stream (Wolf Point Creek; WPC) a highly detailed trajectory of community change has been assembled since 1977, showing how the stream has evolved from one dominated by a few species of Chironomidae to one more recently (2005) containing a diverse community of invertebrates (insects/non-insects) and juvenile salmonids. However, during a brief visit to Glacier Bay at the beginning of June 2006 we observed that many of the streams (including WPC) had been severely affected by floods with major changes in channel morphology evident. This disturbance is likely to have had a major effect on the biological communities of these streams. Four major avenues of research will be followed: (1) the effect of the flooding on the stream habitat and morphology across streams of different ages, (2) an investigation of the effect of the flooding on the primary successional framework (invertebrates, fish) in Wolf Point Creek, (3) an investigation into the effects of the flooding on streams of different ages to provide information on how streams at different stages of successional development respond to flooding, and; (4) a stream side channel experiment to examine if resistant/resilient invertebrates modify the subsequent successional trajectory of stream biota. This study will assess the effects of these major flood disturbances on the primary succession trajectories of stream invertebrates and fish and identify persistent taxa. It is critical that we investigate as soon as possible the effect of the flood on the biotic communities because recolonisation and succession will potentially occur throughout this summer as communities recover. We aim to assess the recovery trajectory over the next 13 months to determine if full recovery occurs. It is probable that some invertebrate species have been lost from streams due to the flood, and these may take a long time to return due to the presence of dispersal barriers such as mountains and large icefields. The results will be in interpreted in terms of community persistence (constancy of presence/absence) and compositional stability (constancy of relative abundance of taxa) traits of the taxa that confer resistance and resilience and of habitat complexity providing the potential for more refugia.
Period of Award:
1 Aug 2006 - 31 Oct 2008
Value:
£90,978 Lead Split Award
Authorised funds only
NERC Reference:
NE/E004539/1
Grant Stage:
Completed
Scheme:
Standard Grant (FEC)
Grant Status:
Closed
Programme:
Urgency

This grant award has a total value of £90,978  

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FDAB - Financial Details (Award breakdown by headings)

DI - Other CostsIndirect - Indirect CostsDA - InvestigatorsDI - StaffDA - Estate CostsDI - T&S
£4,661£36,090£10,062£23,047£11,995£5,123

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