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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Patterns in Fish Community Structure in a Regulated River

Davis, Richard 28 April 2010 (has links)
I examined the abundance, composition, and distribution of fish communities in the lower Roanoke River, a hydropeaking system in North Carolina. Fishes were sampled at before and after peaking events over three years; 2007 to 2009. I evaluated trends in species richness, diversity, and assemblage composition. There were no significant differences in either richness or diversity suggesting consistent trends in richness and diversity throughout the study. I used non-metric multidimensional scaling (NMDS) to create a community composition model. Fish composition was noticeably greater post-peaking and changed minimally across time and event. There were no statistically significant differences in species composition among pre or post peaking samples, sites, or years (ANOSIM p < 0.05). I concluded that the small amount of fish community variation observed supports the possibility that the present assemblage has adapted to a regulated flow regime, however a direct relationship between peaking and community composition cannot be established. Additionally, fishes were sampled at three longitudinal sites during summer months of 2007 to 2009. I examined fish community composition to assess longitudinal gradients away from the source of peaking. Differences among fish species within each longitudinal site were examined by use of trophic and habitat/reproductive guilds. Statistically significant differences were detected between both trophic and reproductive guilds among sites and therefore aided in creating a pattern of longitudinal separation in community structure. The fish community of the Roanoke River between Roanoke Rapids and Hamilton does not appear to show signs of variation that may be attributed exclusively to hydropeaking. Changes in hydrology, river morphometry and topography, and habitat structure may account for the longitudinal variation observed in the community structure analyses. The Roanoke River has been regulated for over 50 years. It is possible that the existing fish community has adapted to fluctuating flows created by seasonal hydropeaking. I concluded that in order to develop an appropriate community model and evaluate the full extent of changes in fish community characteristics over time long-term monitoring is needed in the Roanoke River.
2

Migration and quality of landlocked Atlantic salmon smolt : Implications for conservation and management

Norrgård, Johnny R January 2014 (has links)
Atlantic salmon Salmo salar has a complex life cycle, including long migrations and habitat shifts for both juveniles and adults. As such, salmon populations are vulnerable to habitat degradation and fragmentation along their migratory routes. This makes management and conservation a complex task requiring knowledge of salmon ecology at different temporal and spatial scales. In this thesis I highlight the use of a holistic life-history based approach in the conservation and management of wild and hatchery-reared salmon in regulated rivers and lakes. Small populations of wild-reproducing landlocked salmon and trout Salmo trutta exist in the regulated River Klarälven, Sweden. Since the 1930s, transportation of adult spawners upstream of eight dams has given the fish access to spawning grounds. The number of returning wild spawners became critically low in the 1960s, but stocking of hatchery smolts resulted in an increase in spawners that continues today. My data show that wild smolt may suffer high mortality due to multiple dam passages. To ensure viable populations of wild populations, future management should include both up- and downstream solutions that ensure connectivity in the system. The recreational and commercial salmonid fishery are maintained by compensatory stockings, yielding annual catches of about 75 tons, and a river return rate of hatchery fish of about 1%. As a large portion of the stocked smolts does not survive downstream migration to the lake, there has been discussion about the quality of the stocked smolt and about stocking strategies. Based on my studies, producing hatchery smolts more closely resembling wild-born conspecifics should result in reduced loss rates. I suggest changes in the hatchery and stocking procedures to increase the survival of stocked smolts. The results of my research should be applicable to other regulated systems, particularly those with mixed stocks of wild and hatchery salmonid populations. / Atlantic salmon Salmo salar has a complex life cycle, including long migrations and habitat shifts for both juveniles and adults. As such, salmon populations are vulnerable to habitat degradation and fragmentation along their migratory routes, which make management and conservation a complex task requiring knowledge of salmon ecology at different temporal and spatial scales. In this thesis, I highlight the use of a holistic approach in the conservation and management of wild and hatchery-reared salmon in regulated rivers and lakes. Small populations of wild-reproducing landlocked salmon and trout Salmo trutta exist in the regulated River Klarälven, Sweden. Since 1930, transportation of adult spawners upstream of eight dams has been done to give the fish access to the spawning grounds. My data indicate that a large proportion of the wild smolts are lost due to multiple dam passages, and future management should include both up- and downstream solutions, ensuring connectivity in the system. The fishery in Klarälven and Lake Vänern is maintained by compensatory stockings, yielding catches of about 75 metric tons and a river return rate of stocked fish of about 1%. I suggest changes in the hatchery and stocking procedures to increase the survival of stocked smolts.
3

Babrungo upės baseino reguliuotų upių vykstančių natūralizacijos procesų bei pakrančių apsaugos juostų tyrimai ir vertinimas / Research and evaluation of undergoing naturalization processes and riparian protection strips of rivers regulated in Babrungas river basin

Drungilas, Gediminas 17 June 2014 (has links)
Šiame darbe aptariama šiaurės vakarų Lietuvoje, Plungės rajono savivaldybėje, esančio Babrungo upės baseino reguliuotose upėse vykstantys natūralizacijos procesai. Reguliuotose Babrungo ir Dirnupio upės pakrantės šlaituose ir apsaugos juostose aptikta 871 vienetai sumedėjusios augalijos. Tyrimais nustatyta, kad augalija dažniausiai ir tankiausiai auga šlaito viduriniojoje dalyje. Dirnupio upės tyrinėtame 1,8 km ruože sumedėjusios augalijos plotis kairiajame šlaite Lap = 2,11 ± 0,14 m, dešiniajame šlaite Lap = 1,71 ± 0,23 m. Babrungo upės tyrinėtame 2,2 km ruože apskaičiuotas kairiajame šlaite Lap = 1,86 ± 0,44 m, o dešiniajame šlaite Lap = 1,47 ± 0,27 m. Atlikus dispersinę analizę galima teigti, kad apaugusių sumedėjusia augalija šlaitų pločių vidurkiai, esant 95 % patikimumui, esminiai nesiskiria. Babrungo ir Dirnupio upės ruožų pakrančių apsaugos juostų pločiai miškuose ir pievose atitinka, o ariamoje žemėje neatitinka aplinkosauginių reikalavimų. Ariamose žemėse visi matuoti upės pakrantės apsaugos juostos pločiai buvo ≤5,0 m. / This article is about naturalization processes that take place in the regulated rivers of Babrungas river-basin in the northwestern Lithuania, Plungė district municipality. There are 871 units of woody vegetation in the riverside slopes and protective zones of the regulated Babrungas and Dirnupis rivers. Researchers have shown that usually the vegetation is the densest in the middle part of the slope. The width of woody vegetation on the left slope of 1.8 km strip of the Dirnupis river Lap = 2.11 ± 0.14 m, on the right slope Lap = 1.71 ± 0.23 m. On the left slope of 2.2 km strip of the Babrungas river Lap = 1.86 ± 0.44 m, and on the right slope Lap = 1.47 ± 0.27 m. The dispersive analysis allows to claim that given 95% of reliability, width averages of woody vegetation on the slopes do not differ. The widths of protective coast zones of Babrungas and Dirnupis rivers are the same in the woods and meadows, but in arable land they do not meet the environmental requirements. All widths of protective coast zones of arable land were ≥ 5.0 m.
4

Go with the flow - can environmental flows save us? : A study of the flow patterns in Bredforsen and possibilities for the future

Brynjarsdotter, Hilda January 2022 (has links)
Freshwater systems have, during human history, endured large-scale impacts. According to the water framework directive, measures must be developed to create a better environment for species in, and connected to, freshwater systems. Hydropower plants has caused loss of natural disturbance (e.g., floodings). Using already collected data from vegetation inventory in the riparian zone, probable distribution curves were created to find flooding requirements of different plant species, and linear regression analyses were run to see if hours of flooding and elevation above sea level had an effect on species richness and vegetation cover in the riparian zone. A model of Bredforsen 3 was conducted by using modelled values obtained from Vattenfall AB, with the aim to answer the following questions: How is riparian vegetation in mixed alluvial forests in reaches affected by static minimum flow levels structured according to flow dynamics? What would the zonation of riparian vegetation look like in an unregulated situation? How can minimum flow in Bredforsen be designed to better match the flooding regime similar to a natural riparian vegetation? Species richness showed to be dependent on elevation. Furthermore, significant results for species richness and vegetation cover both showed to be dependent on hours of flooding in the riparian zone for two of the three inventoried areas. In the alluvial forest, Picea abies, was not affected by hours of flooding. This might be caused by a low number of replicates available in Bredforsen of P. abies. In contrast, Quercus robur did show a significance towards hours of flooding and a vague negative trend for trees with high inundation distributed on lower elevations, though, it seems more parameters are affecting its distribution. The probable species distribution curves revealed the riparian zone in Bredforsen lack the clear vegetative zones visible along unregulated rivers. However, the model created for Bredforsen 3, following the assumptions of Ström et al. (2012) showed that today two vegetative zones, are apparent in Bredforsen 3 (amphibian zone and upland vegetation). With the modelled flow, a third zone (riparian forest) could appear. Because Bredforsen is a Natura 2000 reserve, the minimum flow needs alteration to mimic a relatively natural flow, which could lead to all vegetative zones to develop (amphibian zone, graminoids, willow shrubs, riparian forest, and upland vegetation). This could be achieved by using the spill water from Söderfors and time the release of spill to natural flow events. The model made from Bredforsen 3 indicates that this could cause positive changes in the riparian zone where a more natural distribution of vegetative zones is in place, meaning that species distribution returns to previous distribution patterns and would help disturbance dependent species.
5

Dejefors kraftverks inverkan på den lekvandrande laxens möjlighet till nedströmsvandring i Klarälven / Downstream salmon kelt migration past Dejefors hydropower plant in the river Klarälven

Hansson Järnving, Rebecca January 2021 (has links)
Under hösten leker en inhemsk population av Atlantisk lax (Salmo salar) i Klarälven, Sverige, för att därefter vandra nedströms tillbaka till sjön Vänern. Vid älvens andra kraftverk sett från Vänerns mynning, Dejefors kraftverk, finns det planer på att ersätta ett av kraftverken mot ett nytt och det finns därför ett behov av att ta reda på hur laxens nedströmsvandring påverkas av det kraftverket som finns där i dag. Då alla kraftverk i Klarälven saknar fiskpassagelösningar är det extra viktigt att följa upp laxarnas passageöverlevnad under vandringen. Avsikten med denna studie var därför att ta reda på hur laxen rörde sig runt kraftverket, hur väl de klarade av att passera kraftverket beroende av vilken passageväg de tog och vilka faktorer som påverkade passageframgången. Under september 2020 fångades 40 laxindivider in när de var på väg uppströms inför leken. De mättes och märktes med telemetrisändare för att sedan transporteras uppströms och släppas ut nedanför kraftverket i Munkfors, varifrån deras nedströmsvandring förbi Dejefors kraftverk följdes och analyserades med hjälp av akustisk telemetri. Resultatet visade att det inte fanns någon signifikant skillnad mellan kön för när laxarna påbörjade sin nedströmsvandring. Kraftverket visade sig dock fördröja laxarnas nedströmsvandring då det tog längre tid för dem att passera kraftverket än vad det tagit dem att simma ner dit i den fritt strömmande delen av älven. Av de 31 laxar som anlände till Deje så passerade 27 av dem kraftverket, varav 13 individer överlevde (48 %). Överlevnaden var högre för individer som passerade via spillutskoven (10 av 12) än turbinerna (3 av 15). Det fanns en signifikant skillnad i mortalitet vid kraftverkspassage beroende på laxens längd och passageväg; långa individer hade en högre mortalitet (73 %) än kortare (25 %) och passagevägen hade en signifikant effekt på mortaliteten. Resultatet visar tydligt på ett behov av åtgärder för att förbättra överlevnaden hos lax vid passage av Dejefors kraftverk. Lösningar för att få fisken att helt undvika turbinerna och istället välja en annan passageväg vore troligen den bästa och effektivaste lösningen för att öka laxens överlevnad under nedströmsvandringen. / During autumn, the endemic Atlantic salmon (Salmo salar) migrate upstream to spawn in the river Klarälven, Sweden, after which they migrate downstream back to Lake Vänern. There are plans to remove one of the power houses in Deje, and replace it with a new power house, and before that happens it is important to study the downstream passage conditions at the site. As all power plants in Klarälven lack fish passage solutions, it is important to follow up the salmon passage survival during the migration. The purpose of this study was therefore to study how downstream migrating salmon negotiate the power plant, the route-specific passage survival and what factors that could affect their passage success. In September 2020, 40 upstream migrating salmon individuals were caught, measured and tagged after which they were transported and released below the power plant in Munkfors. Their downstream migration past Dejefors power plant was studied and analyzed using acoustic telemetry. The results showed that there was no significant difference between sexes in regards of downstream migration timing. However, the power plant turned out to delay downstream migrating salmon as it took longer time for them to pass the power plant than it took them to swim down the free-flowing part of the river. Of the 31 salmon that arrived in Deje, 27 passed the power plant, of which 13 individuals survived (48%). The survival rate was higher for individuals passing via spillways (10 of 12) than turbines (3 of 15). There was a significant difference in mortality rate at power plant passage depending on the length and passage route of the salmon. Large individuals suffered a higher mortality (11 of 15) than short (3 of 12) and a larger proportion of the salmon died when passing through the turbines than through spill gates. Based on the results, there was a clear need for improved survival rates for salmon passing the Dejefors power plant. The design of the turbines could be changed for increased survival, but at the same time other solutions that will make it possible for fish to avoid the turbines and instead choose another passageway would probably be a better and more efficient solution to increase the survival of the salmon during their downstream migration.
6

Smoltification status of Atlantic salmon (Salmo salar) in relation to migratory success and migration speed in a regulated river / Smoltifikationsgrad på Atlantlax (Salmo salar) i relation till lyckad migration och migrationshastighet i en reglerad älv

Högvall, Johanna January 2020 (has links)
There is a concern that the ecosystems around the world are suffering from fragmentation. Ecosystems such as rivers have lost their connectivity to a large extent due to hydroelectric dams with no or insufficient passways for the natural flow of organisms, matter and energy. The Atlantic salmon, Salmo salar, is anadromous, migrating up rivers to spawn as adults and downstream to the sea as juveniles to feed. Before entering the sea, juveniles go through a parr-smolt transformation which alters their behavior, morphology, and physiology. Using radio telemetry, we assessed how the degree of smoltification, in combination with migrational timing and the juvenile’s size, affected their migration. Overall migratory success was found to differ significantly across the range of smoltification, with more fully smoltified juveniles having the highest probability (94%) of reaching the sea. No relationship was found between smoltification status and average migrational speed or delays when passing a dam. Migrational timing was also correlated to migrational success, with earlier juveniles being 50 % more likely to reach the sea than those leaving 2-3 weeks later. All of the tagged juveniles (28) that passed the dam were delayed by an average of 1,32 km/h relative to their median speed in the river, and 18 of the juveniles made it down to the sea. No effect of migrational timing was found with average migrational speed or with dam delays however. Unexpectedly, larger lengths were correlated with slower average migration speeds and greater delays when encountering a dam. This new knowledge about the degree of smoltification and its relation to migration success can help river management to direct their efforts in the right direction to strengthen salmon populations. / Ekosystem som älvar och åar har i stor utsträckning förlorat konnektiviteten till följd av vattenkraftverk med otillräckliga passager för det naturliga flödet av organismer, materia och energi. Atlantlax Salmo salar är en anadrom fisk vars livscykel kräver att den vandrar mellan olika habitat. Den vandrar upp i vattendrag som vuxna för att leka och ut till havet som unga för att äta. De unga laxarna går igenom en utvecklingsprocess (smoltifiering) innan de simmar ut i havet vilket förändrar deras beteende, morfologi och fysiologi. Med hjälp av radiotelemetri bedömde vi hur graden av smoltifiering i kombination med timing och storlek påverkade deras nedströmsvandring. Vi såg en avsevärd skillnad inom dem olika smoltifierings graderna och en lyckad nedströmsvandring, de fullständigt smoltifierade fiskarna var mest sannolika att klara nedströmsvandringen (94%). Inget samband hittades mellan smoltifieringsgrad och genomsnittliga vandringshastigheten genom ån eller förbi ett vattenkraftverk. En lyckad nedströmsvandring var relaterad till tid och vi fann att de som vandrade tidigt hade 50% större chans att nå ut till havet än de som lämnade 2–3 veckor senare. Alla radiomärkta fiskar (28) som passerade vattenkraftverket vart försenade med -1,32 km/h jämfört med deras genomsnittliga hastighet, av 48 märkta fiskar klarade sig 18 ut till havet. Oväntat nog var längre längd relaterat till större förseningar både i medianhastighet och vid passage av en damm. Den här kunskapen om sambandet mellan smoltifieringsgrad och lyckad nedströmsvandring kan förbättra insatser som görs i åar och älvar för att optimera för djur och natur.
7

Comparative Ecology of Benthic Communities in Natural and Regulated Areas of the Flathead and Kootenai Rivers, Montana

Perry, Sue A. 05 1900 (has links)
A comparative study was made of environmental variables and the density, biomass, diversity, and species composition of macroinvertebrates in areas downstream from a dam with a hypolimnetic release (Hungry Horse Dam on the Flathead River) and a dam with a selective withdrawal system (Libby Dam on the Kootenai River). A major objective of this study was to examine the response of macroinvertebrate communities to defined environmental gradients in temperature, flow, substrate, and food-related variables (periphyton, particulate organic carbon in the seston). In addition, the effects of experimental manipulations in discharge on macroinvertebrate drift and stranding were assessed, and the effects of temperature on the growth rates and emergence of five species of insects were measured.

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