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The Macroinvertebrate Community in a Nature-like Fishway with Habitat Compensation PropertiesGustafsson, Stina January 2012 (has links)
Nature-like fishways are often constructed to restore connectivity in streams exploited for hydropower. They also have the potential to compensate for important habitats that have been degraded or lost. The aim of this thesis was to improve knowledge of the concept of nature-like fishway design, with special focus on their habitat compensation potential. This was done by comparing a nature-like fishway with four different habitat types, termed the biocanal, to six nearby natural reference creeks. In paper I the macroinvertebrate colonization of the biocanal was studied and the community composition was compared to that of the natural reference creeks. Furthermore, the potential for the biocanal to contain a diverse macroinvertebrate fauna was investigated. The results showed that the species composition of the benthic fauna in the biocanal was approaching that of the reference creeks and that the different habitat types in the biocanal contributed to the increased family diversity. In paper II the functional organization of the biocanal was studied using the functional feeding group approach. The results showed that after two years, the functional organization in the biocanal resembles that of the natural reference creeks.
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Öringens (Salmo trutta) vandring i Billsta naturlika fiskväg, Jämtlands län, år 2018-2020 : Uppströms- och nedströmsvandring av öring i lekfisk- och smoltstorlek / Brown trout (Salmo trutta) migration in Billsta nature-like fishway, Jämtland county, Sweden, 2018-2020 : Upstream and downstream migration of trout of spawing- and smolt-sizeRundström Segersten, Ida January 2022 (has links)
Opening migratory pathways is crucial for the brown trout´s ability to recolonize spawning- and rearing areas, in order to complete its lifecycle. Damming rivers for hydropower production has created obstacles for migration, and nature-like fishways are one measure used to recreate connectivity. The purpose of this bachelor´s thesis was to find out how the nature-like fishway, constructed in 2016, at Billsta power plant, central Sweden, was used by migratory brown trout for upstream and downstream passage, and to observe if the migration pattern changed over time, between 2018-2020. The collected data comes from an automatic fish-counter that has been located upstream of the nature-like fishway. To analyze the data, recorded trout were categorized into two length classes, spawning-size and smolt-size, according to criteria from the Swedish Agency for Marine and Water Management (HaV). Since individual fish could not be identified, a method for daily “net migration” was been developed to estimate the direction of migration. The results showed that net migration of spawning-size trout was greater upstream than downstream. Net upstream migration of spawning size trout tended to increase over time, but not the net downstream migration. There was no difference between net upstream and net downstream migration smolt-size trout, but the net downstream migration smolt-size trout increased over time. The study showed that there was substantial use of Billsta nature-like fishway for brown trout of both spawning- and smolt-sizes, for both upstream and downstream migration. The migration pattern was partly as expected but, upstream migration of smolt-size trout suggests that there is a considerable population of stationary trout passing the fish-counter. The study highlights the importance of monitoring the results of the restoration and implementing improvement measures where necessary. Billstaån has regained open migration pathways, but more time is needed to evaluate its effect and find out if the ecosystem works so that Storsjöns unique, large sized, migratory brown trout stocks once again have the conditions to complete their lifecycle in Billstaån. / Fria vandringsvägar är avgörande för öringens förmåga att återkolonisera lek- och uppväxthabitat, vid fungerande lek- och smoltvandring kan öringen fullborda sin livscykel. Vattenkraftsproduktion har skapat vandringshinder och naturlika fiskvägar är en åtgärd för att återskapa konnektivitet. Syftet med den här kandidatuppsatsen var att ta reda på hur den nedersta naturlika fiskvägen, skapad 2016 vid Billsta kraftverk i mellersta Sverige, nyttjades av vandrande öringar för uppströms och nedströms passage och observera om vandringsmönstret förändrades över tid, mellan 2018–2020. Rådatan kommer från en automatisk fiskräknare som funnits placerad uppströms den naturlika fiskvägen. För att analysera datan delades öringen in efter två längdstorlekar, lek- och smoltstorlek, enligt kriterier från Havs- och vattenmyndigheten. Eftersom individuell fisk inte gick att identifiera har en metod för daglig ”nettovandring” utarbetats för att uppskatta vandringens riktning. Resultatet visade att fler öringar i lekfiskstorlek nettouppvandrade än nettonedvandrade. Nettouppvandring av lekfiskstorlek tenderade att öka över tid men inte nettonedvandringen. Det var ingen skillnad mellan nettoupp- och nettonedvandrande öring i smoltstorlek, men nettonedvandringen av öring i smoltstorlek ökade över tid. Studien visade att Billsta naturlika fiskväg nyttjades väl av öring i både lekfisk- och smoltstorlek för både uppströms- och nedströmsvandring. Vandringsmönstret var delvis som förväntat, men när det gäller smoltstorlekens vandring var det snarare bäcköringens vandring än smoltens vandringsmönster som analyserades. Studien belyser vikten av att övervaka resultatet av restaureringen och implementera förbättringsåtgärder där så behövs. Billstaåån har återfått fria vandringsvägar men mer tid behövs för att utvädera dess effekt och ta reda på om ekosystemet fungerar så att Storsjöns unika, storvuxna, lekvandrande öringstam återigen fått förutsättningar att fullborda sin livscykel i Billstaån.
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Determining the best location for a nature-like fishway in Gavle River, SwedenBuck, Sine January 2013 (has links)
The construction of dams and hydro-power stations are some of the most common anthropogenic changes of watercourses and rivers. While being important to humans and society by providing electricity, these obstructions of watercourses can have severe consequences for the aquatic ecosystems. One consequence is that dams often hinder the important movement of migrating fish species between habitats. This can lead to decline and even extinction of important fish populations. To prevent these negative effects, a number of different fish passage systems, including nature-like fishways, have been developed. Nature-like fishways mimic natural streams in order to function as a natural corridor for a wide range of species. Planning and construction of a nature-like fishway is a complex task that often involves many different interests. In the present study a combination of multi-criteria decision analysis and least-cost path analysis is used for determining the best location for a nature-like fishway past Strömdalen dam in Gavleån, Sweden. An anisotropic least-cost path algorithm is applied on a friction-layer and a digital elevation model, and the least-cost path for a nature-like fishway is determined. The results show that the method is useful in areas of varying topography and steep slopes. However, because low slope is a very important factor when constructing a nature-like fishway, slope becomes the dominating factor in this analysis at the expense of e.g. distance to roads. Combining the methods with results from biological studies of fish behavior and detailed hydrological modelling would provide a very strong tool for the planning of nature-like fishways.
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Re-establishment of connectivity for fish populations in regulated riversCalles, Olle January 2005 (has links)
<p>The hydropower industry has altered connectivity in many rivers during the last century. Many fish species depend on both an intact longitudinal connectivity to be able to migrate between spawning, feeding and winter habitats, and vertical connectivity for development and survival of incubating embryos and larvae in the gravel. The objective of this thesis was to examine problems and remedial measures associated with disrupted longitudinal and vertical connectivity in regulated rivers. The issue of longitudinal connectivity was studied in the River Emån by evaluating the efficiency of two nature-like fishways for anadromous brown trout. Telemetry studies showed that the combined efficiency for the two fishways in 2001-2004 was 60.5%. The passage efficiencies of both fishways were high for trout (89-100%), but also for other species such as chub, perch, tench, burbot and roach (74%). The attraction efficiencies were largely dependent on power plant operation, and generally high for the fishway situated next to the tail-race and low for the fishway situated inside the former channel. More than half of the trout spawners were also observed using the fishways for downstream passage. The densities of brown trout yearlings upstream of the fishways were higher after the fishways were built than during pre-fishway years. Smolts produced upstream of the fishways were observed migrating downstream in 2003-2005. The percentage of smolts that passed both power plants in was 51%, with losses being attributed to predation (15%), turbine-induced mortality (16%) and other reasons (18%). Turbine-induced mortality was higher (40%) at the power plant with four small Francis runners, than at the power plant with one large Kaplan runner (12%). The issue of vertical connectivity was studied in three rivers in Värmland, one unregulated, and two regulated, one of which had no minimum flow requirements. In the unregulated river, temporal patterns in hyporheic water chemistry correlated to variation in surface water chemistry and discharge as expected. In the regulated rivers, the hyporheic water chemistry showed little correlation to discharge or surface water chemistry. The intra-gravel water chemistry conditions for brown trout eggs were more favourable in the unregulated river, characterised by high oxygen levels, than in the two regulated rivers. The regulated river with no minimum flow requirements had critically low oxygen levels at the end of the incubation period.</p>
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Re-establishment of connectivity for fish populations in regulated riversCalles, Olle January 2005 (has links)
The hydropower industry has altered connectivity in many rivers during the last century. Many fish species depend on both an intact longitudinal connectivity to be able to migrate between spawning, feeding and winter habitats, and vertical connectivity for development and survival of incubating embryos and larvae in the gravel. The objective of this thesis was to examine problems and remedial measures associated with disrupted longitudinal and vertical connectivity in regulated rivers. The issue of longitudinal connectivity was studied in the River Emån by evaluating the efficiency of two nature-like fishways for anadromous brown trout. Telemetry studies showed that the combined efficiency for the two fishways in 2001-2004 was 60.5%. The passage efficiencies of both fishways were high for trout (89-100%), but also for other species such as chub, perch, tench, burbot and roach (74%). The attraction efficiencies were largely dependent on power plant operation, and generally high for the fishway situated next to the tail-race and low for the fishway situated inside the former channel. More than half of the trout spawners were also observed using the fishways for downstream passage. The densities of brown trout yearlings upstream of the fishways were higher after the fishways were built than during pre-fishway years. Smolts produced upstream of the fishways were observed migrating downstream in 2003-2005. The percentage of smolts that passed both power plants in was 51%, with losses being attributed to predation (15%), turbine-induced mortality (16%) and other reasons (18%). Turbine-induced mortality was higher (40%) at the power plant with four small Francis runners, than at the power plant with one large Kaplan runner (12%). The issue of vertical connectivity was studied in three rivers in Värmland, one unregulated, and two regulated, one of which had no minimum flow requirements. In the unregulated river, temporal patterns in hyporheic water chemistry correlated to variation in surface water chemistry and discharge as expected. In the regulated rivers, the hyporheic water chemistry showed little correlation to discharge or surface water chemistry. The intra-gravel water chemistry conditions for brown trout eggs were more favourable in the unregulated river, characterised by high oxygen levels, than in the two regulated rivers. The regulated river with no minimum flow requirements had critically low oxygen levels at the end of the incubation period.
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