Undertaking Research


Galloway Fisheries Trust carries out a wide range of research throughout the year.

Surveys

GFT staff are fully trained to undertake a range of specialised surveys. Surveys are undertaken for a wide number of purposes. The health and abundance of wild fish stocks need to be monitored regularly. Water quality, in particular acidification and siltation, may need quantified in areas at risk. Instream and riparian habitats can be mapped highlighting spawning beds, nursery areas and degraded habitats. GFT has been involved in Site Condition Monitoring for sparling and salmon.

GFT undertakes a range of focussed electrofishing surveys for different fish species including juvenile salmonids, lamprey larvae and eels. Netting surveys, using gill nets, fyke nets and seine nets, may be used to provide important data.  Commercial nets did play an important role in providing samples but most are now closed. A range of habitat survey techniques are used depending on the survey's purpose. Disease and parasite testing is important to monitor the health of fish stocks. Growth rates and condition factors are also examined to ensure healthy fish populations are present. 

GFT also undertake various other specialised surverys including water quality monitoring, peat depths and drone surveys.

These surveys are undertaken to advise District Salmon Fishery Boards, inform fishery owners, direct and monitor restoration programmes, input to Environmental Impact Assessments, Site Condition Monitoring, research programmes and under contract.

Rare Fish

The waters of Dumfries and Galloway contain an abundance of fish species, more than any other part of Scotland. This includes a number of native fish species which are now considered rare. Most of these fish species are protected or listed under various local and international legislation. All are listed as UK Biodiversity Action Plan species.

GFT regularly undertakes extensive monitoring surveys of these rare fish. Where practical, enhancement work is undertaken aimed at stabilising and increasing these ‘at risk’ species.

Sparling (commonly known as smelt), are found in the River Cree. This is one of only three populations in Scotland, and the only remaining one on the west coast. GFT has undertaken Site Condition Monitoring (for SNH), research on swimming speeds, radio tracking project, written a species action plan, provided genetic samples and undertook a reintroduction programme to a neighbouring river.

Allis shad and Twaite shad are extremely rare fish. GFT has worked with the Fish Conservation Centre and local netsmen in the past to collect fish samples which are then analysed. Of particular interest is that the spawning condition of the fish suggest that they spawn in or near the Cree, and possibly the Urr, annually around July.

Lamprey species (brook, river and sea) are known to use most of the Galloway rivers. GFT has undertaken specialised juvenile lamprey surveys, collected data on spawning sea lampreys and capture samples of spawning river lampreys.

There are concerns regarding falling stocks of European Eels in the waters around Europe. GFT was heavily involved in the writing of the Solway Eel Management Plan and are now undertaking a number of recommendations made by the plan to understand and protect eel stocks. 

Acidification

Galloway is prone to surface water acidification from atmospheric deposition due to possessing poorly buffered underlying base-poor geology and soils, which are unable to neutralise acidic inputs. Forested areas exacerbate the process of acidification as coniferous trees are particularly efficient at scavenging pollutants and when peatlands are heavily drained for tree planting then acidifying pollutants are released into surrounding drains and water courses. Typically, acidification occurs as an episodic event, closely linked to water flow. Prolonged acidic episodes are usually only present in headwater areas, although even here, pH levels will fluctuate depending on rainfall and water flows.

The actual effects of surface water acidification on fish varies with each species. Salmon populations are particularly sensitive and research shows that if pH falls below 5.5, long term damage will occur. Juvenile life stages (principally eggs and alevins) are particularly sensitive. When the pH of a watercourse is low, toxic forms of aluminium may also be released, which may also lead to mortality of older fish.

It is believed that approximately 70% of Scotland’s acidification is in Galloway. The worst acidified areas include the headwaters of the Luce, Water of Tarf, River Bladnoch, High Cree, Big Water of Fleet / Little Water of Fleet and Black Water of Dee. The Solway Tweed River Basin Management Plan 2009 stated that a total length of 242 km of running water was impacted by acidification in Galloway. The majority of these areas are heavily drained peatland which are afforested with coniferous forestry plantations. In these watercourses GFT electrofishing results usually show severely impacted fish populations or the total extinction of fish. Salmon are very rarely found here even though historical information suggests that most of these upland waters were important spring salmon nursery areas.

Much of the work of GFT is associated with monitoring and undertaking research associated with acidification. In spring time a water sample testing programme is also undertaken across the acidified areas. GFT egg box experiments examine impacts on salmonid egg survival. All this information is used to input and direct the restructuring of conifer forests in sensitive areas. Whilst a considerable amount has been achieved there is still a great deal to do. The Forest and Water Guidelines are the main control mechanism regarding conifer planting (both new and restructuring). In the Guidelines the Critical Load Analysis (CLA) is used to identify areas at risk of acidification and is meant to control replanting to ensure water quality recovers in the future. GFT and various other groups do not have faith in the present system though and are working to ensure CLA is refined to be more sensitive and to use biological data to ensure we get a full recovery of all acidified waters in Galloway. No new planting is allowed on peats which are over 50cm deep (the definition of deep peat) but replanting of conifers, where they were planted previously, still continues for now on many areas of deep peats in Dumfries and Galloway. 

Genetic Sampling

Genetics is becoming more popular as a tool for fisheries management and GFT has been involved in various genetics projects. 

Genetic sampling is an exciting modern method of fisheries management that will provide us with invaluable information on fish in the local rivers, putting us at the forefront of salmon and trout management.  A recent development in genetic research is the use of eDNA to identify which fish species are present within rivers or lochs.  

Downloads


Report on the distribution of INNS in the River Dee Catchment
As part of a Galloway Glens funded biosecurity project, GFT has produced a report detailing the current distribution of Invasive Non- Native Species within the Kirkcudbrightshire Dee catchment. The next stage of this project is producing a Biosecurity Management Plan looking forward.

Open


The Rise and Fall of Galloway and Carrick Trout
Andy Ferguson, Caroline Bradley, Robin Ade, Colin Roberts, Jackie Graham, and Paulo Prodöhl look at the impact of acidification on trout and discuss some results from their current study.

Open



Gallery


Latest News


Improving fish passage and river flow below Tongland Dam

SEPA have been undertaking a review of the current CAR license which the Galloway Hydro Scheme operates under.

Kirkcowan Fishing Competition

On Saturday 26th August we held our annual Kirkcowan Fishing Competition. 35 adults and 12 juniors entered the competition this year, providing a fund of £211 that is put back into the event via prizes and a buffet.

Its insect week!

Riparian zones bridge the gap between land and river, creating an important habitat for insects while also providing shade and protection against erosion. We do a lot of habitat work mainly to help aquatic species like fish, but we are keen to monitor and understand the wider biodiversity benefits.

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