Browsing by Subject "adaptation"

Research has identified the importance of understanding the connection between heat wave risk perception of elderly and their adaptation actions. In addition, developing more tailormade risk communication to elderly has been emphasized. The aim of this study is to understand how elderly citizens in the district of Töölö, Helsinki perceive the risk and adapt to increasing heat waves in a central part of the city and what the role of early warning systems (EWS) could be by collecting information through interviews on heat wave adaptation and risk communication. The qualitative data (N=6) consisted of transcribed interview data collected during February- March 2023. The data was analyzed through a thematic analysis and through using both a deductive and an inductive process, main themes and subthemes were identified within the data. The theory used in the deductive process was the Protection Motivation Theory in order to test if the theory could be used in this context. The results show that the personal risk perception and general risk perception varies for elderly and adaptive actions are in general taken to protect oneself from heat waves. However, Töölö as a high exposure area does not clearly increase the amount of adaptation actions but can rather offer benefits through its geographical position by the sea. The elderly’s interest in improving heat wave risk communication through an early warning system in Finland is noticeable. However, the final role of the system still remains open, and skepticism was expressed about the real need of a system in Finland. The results highlight that the elderly’s personal risk perception is rather independent of their adaptation actions, and they still adapt to heat waves, even when they perceive the threat as low. The results also highlighted that the elderly use multiple information sources to follow updates on heat waves, but the ideal risk communication media needs to be determined to develop an early warning system according to the needs of vulnerable risk groups such as elderly.

Climate change have widespread increasing negative health impacts on urban residents. The impacts vary in different temporal and spatial dimensions and include health impacts such as increases in heat related illnesses, respiratory issues, and vector-borne diseases. Vulnerability and exposure to those impacts depend on different interacting factors from city level systems to individual characteristics. Papers that study how cities’ moderating factors impact on different climate change induced health impacts are an important part for setting adaptation policies. Little is known how city systems and system factors (social and physical environment and policy and planning) moderate climate change induced health impacts in cities and their role in different vulnerability and exposure outcomes. With an analytical framework that utilizes systems approach and follows conceptual framework that considers city systems as moderating factors to different vulnerability and exposure outcomes, this thesis answers the questions: How are the city systems and system factors, and climate risk elements (vulnerability, exposure) related? And what are the different types of interactions that lead to vulnerability and exposure outcomes? The main data of this qualitative case study is collected with 18 expert pair-interviews. The experts are selected from four residential areas that represent different municipalities in Helsinki and Turku. The interviews are transcribed and coded with Atlas.ti. The findings of this study emphasize that moderating factors have an impact on different vulnerability and exposure outcomes. The results also show that adaptation measures that would consider cities moderating factors, would have a significant impact on reduced exposure and vulnerability to begin with. Identification of different city system, climate risk and health impact pathway synergies doesn’t promote better adaptation policies as such. Better understanding of efficient adaptation policies require further studies of the consequences resulting from the policy decisions in physical and social environment in the long run.

The three-spined stickleback (Gasterosteus aculeatus) is a model organism for studies of parallel evolution in the wild; marine stickleback populations have repeatedly colonized and successfully adapted to different brackish and freshwater habitats. During Pleistocene glaciations, three-spined stickleback populations inhabiting high-latitude areas of Europe were eradicated, whereas populations residing in (or moving to) the south persisted in refugia. After the retreat of the ice sheets covering northern Europe, the high-latitude areas became recolonized by migration from south, and hence, today’s northern European populations are relatively young. Population genetic studies of European three-spined sticklebacks have usually been conducted at high-latitude areas where freshwater populations are typically less than 10.000 years old. Few studies have focused on southern populations, where more of the ancestral diversity is likely to reside. These studies have utilized a limited number of microsatellite markers and mtDNA sequence fragments, whereas studies of southern populations focusing on genome-wide diversity, in particular from the edge of the southern distribution limit in the Iberian Peninsula, are still missing. Here, I wanted to cover this gap in knowledge by carrying out an empirical and statistical study with RAD-seq data from southern and northern European populations of three-spined stickleback. The main aims of this study were two-fold. First, to investigate whether the southern European freshwater populations of the three-spined stickleback – which currently lack or have limited connection to ancestral marine populations carrying most of the standing genetic variation (SGV) – have lost genetic diversity due to population bottlenecks and inbreeding as compared to their northern European counterparts. Second, to compare the degree of genetic parallelism in southern vs. northern European populations in genomic regions which have been shown to be consistently associated with freshwater colonization in earlier studies. Under the assumption that the lack of continued access to SGV in the ancestral marine population reduces the likelihood of parallel evolution, I hypothesized that the degree of genetic parallelism in genomic regions subject to positive selection in freshwater environments is lower in the southern than in northern European populations. However, if a reduction in genetic diversity and/or cessation of gene flow between southern European freshwater and marine populations occurred following freshwater adaptation, the opposite pattern could be expected. I paid particular attention to chromosomal inversions associated with marine-freshwater adaptations identified in previous studies. The results confirmed my expectation of reduced genetic diversity in southern as compared to northern European stickleback populations. On the other hand, and contrary to what I expected, analysis of clusters of global parallelism involved in freshwater adaptation revealed that southern European populations exhibit a higher degree of genetic parallelism in response to freshwater colonisation than those from northern Europe. This suggests that the loss of genetic diversity in southern populations has occurred after they had adapted to freshwater environments, explaining the high degree of genetic parallelism in spite of the current low levels of genetic diversity. In addition, it could be that selection pressures in south are more homogenous than in north, which would also explain the higher degree of genetic parallelism observed in southern Europe. The findings presented here, challenge the current paradigm that parallel evolution is unlikely in populations with low genetic diversity and that have experienced recent bottlenecks.

In winter plants are exposed to harsh winter conditions with low temperatures being one of the major challenging factors. Traditionally winter has been considered a period unfavourable for plant growth and activity, but newer findings reveal higher levels of activity than previously assumed possible. Adaptations to different winter conditions are observed between species but also within species between populations which can be expressed in differing phenology between populations. Dormancy is a widespread phenomenon in the plant kingdom with major importance in plant evolution. Dormancy is considered to be present in seeds and buds of a wide spectre of plant groups, but asexual reproductive units like bulbils have been thought to lack the ability to undergo the phenomenon of dormancy. Findings suggest that a dormancy-like phenomenon can also be present in bulbils. Allium oleraceum is a bulb forming geophyte with a widespread distribution in Europe that grows on many differing habitats. The predominate form of reproduction in the species is the vegetative formation of bulbils. The wide distribution has led to adaptation to different environmental conditions, furthermore the species displays six levels of polyploidi partially differing in traits like ecology. The differences between cytotypes are regional and there are large intracytotytpic variations. In Finland tetra- and pentaploid populations have been reported, differing in their distribution patterns. The Finnish cytotypes exhibit differences in morphology but there is also evidence for ecological differences between the cytotypes. In addition, there is an atypical tetraploid population which differ significantly morphologically from other tetraploid populations. The objective of this master’s project was to examine the growth of bulbils from three different origins of Allium oleraceum. Another objective of the experiment was to give information on differences between the cytotypes in Finland, tetra- and pentaploids, but also the atypical tetraploid cytotype. Furthermore, I investigated whether the bulbils exhibit a dormancy-like phenomenon, with a special focal point on dormancy according to Vegis’ theory (1964). Earlier findings have shown considerable capability of growth during winter in Allium oleraceum, which is also examined in this project. The experiment included collected bulbils from two localities. Tetra- and pentaploid bulbils were collected from a mixed population of both cytotypes in Tvärminne, Hangö, and tetraploid bulbils were also collected from the atypical tetraploid population on Sveaborg, Helsingfors. Growth experiments were done outside and in growth chambers with controlled temperature and light conditions. The bulbils were planted outside in early autumn. Of each origin one group was kept outside during the entire winter, one group was put in growth chambers in December and one group was put in growth chambers in February to examine the effect of differing winter length on growth. During the experiment, the timing of growth onset in bulbs and leaf growth was followed up. The origins included in this project exhibited considerable differences. The pentaploid cytotype from Tvärminne had bulbils of greater size than the tetraploid cytotypes, between which there was only an indication of a difference. For the bulbils from the atypical tetraploid population growth onset took place early in the autumn and the vast majority of the bulbils started growing in a short period of time. For the two origins from Tvärminne the growth onset took place later and a considerable number of bulbils started growing in the spring. The tetraploid cytotype from Tvärminne exhibited earlier growth onset and a higher share of bulbils started growing in the autumn than the pentaploid cytotype from Tvärminne. In the growth chambers the differences between the three origins were not as obvious but the two cytotypes from Tvärminne were affected by the timing of the experiment more than the atypical tetraploid cytotype from Sveaborg. The observed differences between the origins in the experiment are thought reflect the different distribution patterns of the cytotypes and could hence be adaptations to different conditions. The atypical tetraploid population could be of Central European origin which would mean that it could have adaptations to mild winters which would explain the big difference between this origin and the two other origins. Between the two experiments in the growth chambers significant differences were observed. The growth was considerably greater in February than in December for all origins, especially in the midmost temperatures. The observed differences between the two experiments signifies that bulbils of Allium oleraceum exhibits a dormancy-like phenomenon and according to Vegis’ theory. In contrary to earlier findings, only little growth was observed during winter. The lack of considerable growth could be explained by the thick snow cover which made the amount of light that reached the plants very low which then led to little growth. The results from this project suggest that there are differences between the three different origins of bulbils included. Further studies are needed to find out if the observer differences are adaptations to local conditions or if there are differences on a higher level between the Finnish cytotypes.