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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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Hill-Fort Sites and Tumuli in the Shkodra Plain Region of Northern Albania: A Geospatial PerspectiveLambert, Dora Jane 09 December 2016 (has links)
The objective of this research was to determine the environmental and social factors that led to the shift of settlement patterning from agro-pastoral in the late Neolithic to hillort sites at the turn of the Early Bronze Age and why burial mounds (tumuli) were erected further than anticipated from corresponding hillort sites in the Shkodra Plain region in Northern Albania. Geospatial techniques were used to examine 168 tumuli and seven hillort sites. These were mapped to examine visibility, viewshed, slope, and potential prehistoric networks. Based on the landscape visibility GIS results, it was found that hillort sites and tumuli were part of an social landscape that thrived on trade. It was determinable that the shift of the social landscape was related to Northern trade routes and probable changes in paleo-lake levels. This new evidence provides insight to Albanian prehistoric culture and has implications to related studies in the Balkans.
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The ecology of dispersal in lions (Panthera leo)Elliot, Nicholas Bryant January 2014 (has links)
As ecosystems become increasingly fragmented, there has been a proliferation of research into fields such as resource use, movement ecology and habitat connectivity. To understand how species may adapt to threats associated with habitat fragmentation it is necessary to study these processes in dispersing individuals. However, this is seldom done. Dispersal is one of the most important life-history traits involved in species persistence and evolution, but the consequences of dispersal are determined primarily by those that survive to reproduce. Although dispersal is most effectively studied as a three-stage process (departure, transience and settlement), empirical studies rarely do so and an investigation into the entire process has probably never been carried out on any one species. Here I investigate the survival, resource use, movement ecology and connectivity of African lions (Panthera leo) in all three dispersal phases in addition to adulthood. I make use of a longterm dataset incorporating radio-telemetry and observational data from lions in Hwange National Park, Zimbabwe. Dispersal is inherently risky and my results show that male lions that disperse while young suffer high mortality, young dispersal being brought about by high off-take of territorial males. Dispersing males may be aware of risks associated with territorial adults as they position themselves far from them and utilise habitats and resources differently. However, dispersers, compared to adult males and females, are far less averse of risky, anthropogenic landscapes, suggesting they are the demographic most prone to human-lion conflict. The ontogenetic movement behaviour of lions reflects a transition from directional movement during transience, suggestive of sequential search strategies, to random or periodic use of a fixed territory after settlement. In terms of habitat connectivity, I show that radically different conclusions emerge depending on which demographic is used to parameterise connectivity models. Understanding the shifting mechanisms that species adopt throughout ontogeny is critical to their conservation in an increasingly fragmented world.
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Villages and valleys: connectivity and land use in Northern Messenia during Middle and Late Helladic periods. / Byar och dalgångar : Interaktion och markanvändning i norra Messenien under den mellan- och senhelladiska perioden.Tsoumari, Vasiliki January 2019 (has links)
The use of past archaeological survey data for examination of landscape dynamics became very popular during the last decades of the 20th century, when Geographical Information Systems analysis were introduced in archaeology. In the present thesis, past survey data from Northern Messenia’s Middle and Late Helladic periods are combined to the topography and the environment of the region. These data are examined under the GIS prism, which attempts to update our knowledge on this geographical area. The main scope of this thesis is to examine potential settlement patterns and land use, connectivity between sites and sites’ hierarchies. In the first query, the Kernel Density analysis has been used for estimating settlements’ patterns, and to consequently estimate preference of specific topographical features for land use, such as slope. Based on the patterns formed as a result of the analysis conducted in the first query, connectivity and hierarchy between sites is being tested with the use of cost connectivity and visibility tools. The outcome of this analysis shows that the inhabitants of the past were significantly interacting with the landscape, since they preferred to nest around the protective slopes of the Soulima and the Kyparissian valleys. The area around their settlements reveals that these inhabitants opted to cultivate in flat or marginal land, while visibility from the sites seems to be an important factor for monitoring the region. However, it has been proved that a good number of collaborating sites were required to supervise the entire territory, which disproves any hierarchical ranking between them. On the other hand, connectivity depicts potential movement over Northern Messenia’s terrain and indicates that a few sites in the heart of the study area were to be considered as panoptic meeting grounds of the eastern and the western side. In conclusion, the overall analysis reveals a potential spatial bond between sites rather than a relationship based on rivalry.
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Validation de la fonctionnalité des continuités écologiques en milieu urbain : approches plurispécifiques et multi-sites / Validation of the green infrastructure functionnality in urban landscape : multi-species and multi-sites approachesBalbi, Manon 30 November 2017 (has links)
Le maintien de la connectivité à travers les paysages urbains, par nature très fragmentés, est un enjeu majeur de conservation de la biodiversité urbaine. On observe une prise en compte croissante de la connectivité dans les politiques d’aménagement du territoire, notamment avec l’établissement de la trame verte et bleue. De multiples outils cartographiques permettent de mettre en évidence les continuités écologiques (zones de forte connectivité), mais leur validation fonctionnelle fait souvent défaut. L’objectif de cette thèse est de valider les prédictions d’un modèle de chemin de moindre coût, sur plusieurs villes et avec différents modèles biologiques. Les espèces étudiées présentent différents modes et capacités de dispersion (vol, marche, reptation) et des exigences écologiques spécifiques (préférences pour les milieux herbacés ou boisés). Des protocoles de validation basés sur l’écologie du mouvement et la génétique du paysage sont appliqués, dans un souci de réplication (au sein de plusieurs villes) et de contrôle de la variabilité inter-individuelle. Nos résultats montrent des mouvements accrus au sein des continuités écologiques comparés à ceux observés en contextes paysagers prédits comme non connectés : les hérissons transloqués s’y déplacent sur des distances plus longues, plusieurs passereaux répondent à la repasse de chant sur de plus longues distances et les papillons de nuit montrent des taux de recapture beaucoup plus élevés. Par ailleurs, les analyses indirectes réalisées sur l’escargot petit-gris montrent une relation assez faible entre la différenciation génétique des populations et les modèles de connectivité. Ce travail fournit des arguments scientifiques pour soutenir la mise en place de continuités écologiques en milieu urbain. / Maintaining connectivity across urban landscape, intrinsically fragmented, is a major issue of urban biodiversity conservation. Connectivity is increasingly taken into account by policy and stakeholders, especially through the establishment of the blue-green infrastructure. Multiple mapping tools allow to detect ecological networks (highly connected areas), however their functionnal validation is often lacking. The objective of this study is to validate least cost path analysis predictions in several cities with different biological models. Studied species vary in terms of dispersal means and capacities (flight, walk, crawling) and habitat requirement (e.g. herbaceous or forested habitats). Several protocols based on movement ecology and landscape genetic are applied, focusing on replication (within and among cities) and control of inter-individual variability. Our results indicate that movement is increased in predicted ecological networks when compared with areas predicted as poorly connected: the translocated hedgehogs travelled longer distances, several passerine responded to song playback over longer distances, and moths showed increased recapture rates. Indirect analysis on the garden snail showed a weak relation between population genetic differentiation and connectivity models. This work provides scientific support for the establishment of ecological networks in urban landscapes.
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Origins of genetic variation and population structure of foxsnakes across spatial and temporal scalesROW, JEFFREY 11 January 2011 (has links)
Understanding the events and processes responsible for patterns of within species diversity, provides insight into major evolutionary themes like adaptation, species distributions, and ultimately speciation itself. Here, I combine ecological, genetic and spatial perspectives to evaluate the roles that both historical and contemporary factors have played in shaping the population structure and genetic variation of foxsnakes (Pantherophis gloydi).
First, I determine the likely impact of habitat loss on population distribution, through radio-telemetry (32 individuals) at two locations varying in habitat patch size. As predicted, individuals had similar habitat use patterns, but restricted movements to patches of suitable habitat at the more disturbed site. Also, occurrence records spread across a fragmented region were non-randomly distributed and located close to patches of usable habitat, suggesting habitat distribution limits population distribution.
Next, I combined habitat suitability modeling with population genetics (589 individuals, 12 microsatellite loci) to infer how foxsnakes disperse through a mosaic of natural and altered landscape features. Boundary regions between genetic clusters were comprised of low suitability habitat (e.g. agricultural fields). Island populations were grouped into a single genetic cluster suggesting open water presents less of a barrier than non-suitable terrestrial habitat. Isolation by distance models had a stronger correlation with genetic data when including resistance values derived from habitat suitability maps, suggesting habitat degradation limits dispersal for foxsnakes.
At larger temporal and spatial scales I quantified patterns of genetic diversity and population structure using mitochondrial (101 cytochrome b sequences) and microsatellite (816 individuals, 12 loci) DNA and used Approximate Bayesian computation to test competing models of demographic history. Supporting my predictions, I found models with populations which have undergone population size drops and splitting events continually had more support than models with small founding populations expanding to stable populations. Based on timing, the most likely cause was the cooling of temperatures and infilling of deciduous forest since the Hypisthermal. On a smaller scale, evidence suggested anthropogenic habitat loss has caused further decline and fragmentation. Mitochondrial DNA structure did not correspond to fragmented populations and the majority of foxsnakes had an identical haplotype, suggesting a past bottleneck or selective sweep. / Thesis (Ph.D, Biology) -- Queen's University, 2011-01-11 10:40:52.476
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