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Details of Award

NERC Reference : NE/T014563/1

Controls upon dissolved organic matter export from glaciers

Grant Award

Principal Investigator:
Professor jl wadham, University of Bristol, Geographical Sciences
Science Area:
None
Overall Classification:
Unknown
ENRIs:
None
Science Topics:
Aquatic ecology
Glaciology
Earth & environmental
Dissolved organic matter
Ecosystem impacts
Climate & Climate Change
Biogeochemical cycles
Ecosystem Scale Processes
Dissolved organic matter
Land - Ocean Interactions
Abstract:
NERC : Rory Burford : NE/R011524/1 Simple description of research: We are investigating the source of dissolved organic matter (or DOM) - a class of nutrients known to fertilise aquatic ecosystems - in two glacial rivers in Canada (one in the Rockies and one in the Arctic). DOM is a very diverse group of different molecules, and some of these molecules are better food for bacteria (heterotrophs) than others. In our experiments, we will look at the molecular composition of DOM in water samples and we will measure how much of this DOM is able to be consumed by bacteria (its bioavailability). By comparing different water samples, we should be able to work out which groups of molecules (that tend to appear together) are most important to downstream ecosystems. We will also measure certain isotopes (rare forms of chemical elements) in our samples. When chemicals undergo certain transformations (e.g. inside of cells), chemicals containing these rare isotopes may be more or less likely to be transformed than chemicals containing common isotopes. This means, for instance, that if we start with a group of chemicals where 1% are rare isotopes, and half of them are transformed into new chemicals, then the proportion of rare isotopes in these new chemicals may be more or less than the original 1%. We can therefore use isotopic ratios to understand which processes a particular group of molecules has been through in order to reach that form. In this case, we can use isotopes of carbon and nitrogen to understand where the bioavailable dissolved organic matter is coming from. We will then use a form of radiocarbon dating to measure the age of carbon dioxide that is respired (given out) when bacteria consume DOM in our samples. This will tell us how old the bioavailable DOM molecules were before they were consumed by bacteria. This information is again useful to know when trying to work out the source of bioavailable DOM. For instance, if the DOM comes from tiny particles in the air released by burning fossil fuels (coal, oil and gas), then we would expect it to be very old (because fossil fuels are formed from prehistoric plants). In addition, there is a biological component to our plans. We will analyse a particular kind of genetic material (16S ribosomal RNA) in our natural samples and our incubation experiments. This rRNA is present in all living cells and is very conserved (i.e. it's very similar in closely related species) because of its importance. By analysing all of the rRNA in a natural sample, we can get an idea of the entire community of aquatic microbes. If some samples contain DOM that favours one group of cells over another, then we should be able to see this in the 16S rRNA composition of the water. This allows us to link water chemistry - the quantity and quality of DOM - with tangible biological impacts. Lastly, we will compare the results with those from different regions (e.g. the Himalaya and the Andes) to see whether or not the same key groups of molecules are found across the world; if not, this indicates that the main source of bioavailable DOM varies between different regions.
Period of Award:
1 Apr 2020 - 30 Sep 2021
Value:
£8,102
Authorised funds only
NERC Reference:
NE/T014563/1
Grant Stage:
Completed
Scheme:
NC&C NR1
Grant Status:
Closed

This grant award has a total value of £8,102  

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FDAB - Financial Details (Award breakdown by headings)

Exception - Other Costs
£8,102

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