16 research outputs found
Landscape Composition Has Limited Impact on Local Genetic Structure in Mountain Clover, Trifolium montanum L
Semi-dry grasslands in the European Alps have been increasingly fragmented over the last 150 years. Few studies have investigated the implications of landscape configuration for genetic structure and gene flow among remnant habitat patches. Conservation management of semi-dry grassland plants rarely accounts for possible effects of major landscape elements, such as forest patches, as barriers to gene flow and dispersal via seed and pollen, despite their potential importance for biodiversity conservation. Using 1416 individuals from 61 sampling sites across 2 valleys in South-Eastern Switzerland and Amplified fragment length polymorphism (AFLP) fingerprints, we applied a spatial strip and a circle approach to determine the impact of different landscape elements on genetic differentiation in the semi-dry grassland herb Trifolium montanum (mountain clover). Overall genetic differentiation among sampling sites was low (overall F ST = 0.044). Forest area had no effect on gene flow at the landscape scale, but area of semi-dry grassland, the potential habitat of T. montanum, road area, and altitude influenced genetic differentiation among sampling sites. The observed pattern of genetic differentiation suggests that a future increase in forest area, due to land use abandonment, at least in the short term, are unlikely to directly impact patterns of genetic variation in T. montanu
Annexes 1-5: Urban Sprawl in Europe. Joint EEA-FOEN report. No 11/2016.
See main report "Urban Sprawl in Europe. Joint EEA-FOEN report"
Urban Sprawl in Europe. Joint EEA-FOEN report. No 11/2016.
Executive summary
Urban sprawl is associated with a number of ecological, economic and social effects. Some of these relate to people's desires, for example, to live in single-family homes with gardens. However, urban sprawl has detrimental and long-lasting effects. For example, urban sprawl contributes significantly to the loss of fertile farmland, to soil sealing and to the loss of ecological soil functions. The increase in built-up areas reduces the size of wildlife habitats and increases landscape fragmentation and the spread of invasive species. Urban sprawl leads to higher greenhouse gas emissions, higher infrastructure costs for transport, water and electrical power, the loss of open landscapes, and the degradation of various ecosystem services. Despite various efforts to address this problem, urban sprawl has increased rapidly in Europe in recent decades. Thus, urban sprawl presents a major challenge with regard to sustainable land use, as the International Year of Soils 2015 highlighted.
Sprawl is a result not only of population growth but also of lifestyles that take up more space. Accordingly, urban sprawl has increased even in regions with a declining human population. Many more urban development and transport infrastructure projects are planned for the future, in particular in the European Union (EU) Member States which joined after 2004. Consequently, further increases in urban sprawl in the future will be significant. Therefore, consistent data on the degree of urban sprawl are needed, particularly data that are suitable for the comparison of regions across Europe. This report investigates the degree of urban sprawl in 32 countries in Europe by considering two points in time (2006 and 2009) at three levels. The three levels include the country level, the NUTS-2 region level (based on the Nomenclature of Territorial Units for Statistics (NUTS)) and the 1-km2 cell level (based on the Land and Ecosystem Accounting (LEAC) grid). The comparison of two points in time allowed an assessment of temporal changes in urban sprawl.
This report applies the method of 'weighted urban proliferation' (WUP), which quantifies the degree of urban sprawl for any given landscape through a combination of three components: (1) the size of the built-up areas; (2) the spatial configuration (dispersion) of the built-up areas in the landscape; and (3) the uptake of built-up area per inhabitant or job. The report provides, for the first time, an assessment of urban sprawl in all EU and European Free Trade Association (EFTA) countries using the WUP method. The urban sprawl values obtained cover a large range, from low values for large parts of Scandinavia ( 4 UPU/m2) and very high values for large parts of western and central Europe (> 6 UPU/m2). The two largest clusters of high-sprawl values in Europe are located in (1) north-eastern France, Belgium, the Netherlands and part of western Germany; and (2) in the United Kingdom between London and the Midlands. The analysis of sprawl at the 1-km2-grid level shows that sprawl is most pronounced in wide rings around city centres, along large transport corridors, and along many coastlines (particularly in the Mediterranean countries). The lowest levels of sprawl are mainly associated with mountain ranges or remote areas. The level of sprawl, as measured by WUP, increased in all European countries between 2006 and 2009. The overall WUP value for Europe (all 32 countries combined) increased from 1.56 urban permeation units (UPU)/m2 in 2006 to 1.64 UPU/m2 in 2009, that is by 5 % in 3 years or by 1.7 % per year. In most countries, the increase was higher than 1 % per year, and in many countries WUP increased by more than 2 % per year. This was also the case for most NUTS-2 regions. Future studies using additional time-points will allow more detailed temporal comparisons. Base data for 2012 will be available in 2016 and these could be analysed in a follow-up project.
Driving forces and predictive models of urban sprawl
The level of urban sprawl is largely a function of socio-economic and demographic drivers, and the geophysical context. Current levels of urban sprawl need to be interpreted within the context of regional socio-economic and geophysical conditions. Therefore, the second part of this study investigated the potential factors that may contribute to an increase or decrease in the degree of urban sprawl, and determined their relative importance. The report applied a set of statistical models to determine which of these factors drive the process of urban sprawl in Europe. We analysed the statistical relationships between urban sprawl and a range of explanatory variables (14 variables at the country level and 12 at the NUTS-2 level). We also applied these relationships to predict the expected sprawl values for all regions in our study area and compared actual values with predicted values.
Most of our hypotheses about the likely driving forces of urban sprawl were confirmed by the statistical analyses. The relevant variables identified as affecting urban sprawl are population density, road density, railway density, household size, governmental effectiveness, the number of cars per 1 000 inhabitants and two environmental factors (i.e. net primary production and relief energy). This result was consistent for both of the years (2006 and 2009) considered in the analysis. The results indicate that economic development has, largely, not been decoupled from increases in urban sprawl. A high amount of variation in the level of urban sprawl, as measured by WUP, was explained by the predictor variables: 72–80 % at the country level and 80–81 % at the NUTS-2 level. The variation explained for the three components of WUP ranged between 67 % and 94 % at the NUTS-2 level. Efforts to control urban sprawl should take these driving forces into account.
Relevance for monitoring and policymaking
The results provided by this study are intended to contribute to more sustainable political decision- making and planning throughout Europe. In the last 15 years (2000–2015), several projects and programmes at the European level have proposed a suite of concepts and measures to address urban sprawl and promote more sustainable land use. The most recent (2014), and perhaps most important, of these is the Seventh Environment Action Programme (7EAP), which calls for indicators of resource efficiency to be established in order to guide public and private decision-makers. Although the urgent challenge presented by urban sprawl has been recognised, there is still no monitoring in place for European urban sprawl. This report aims to help close this gap.
The results confirm the conclusion of earlier reports (e.g. EEA, 2006a; EEA, 2006b) namely that there is an increasingly urgent need for action. Large discrepancies between the predicted and observed levels of urban sprawl provide a basis for identifying areas for prioritising management action. Our data also provide a basis for scenarios regarding the future development of urban sprawl in Europe. There is an increasing need and interest in including indicators of urban sprawl in systems for monitoring sustainable development, the state of the environment, biodiversity and landscape quality. The results presented in this report are intended for this purpose and can be updated on a regular basis in order to detect trends in urban sprawl. This report also demonstrates the usefulness of the WUP method as a tool for urban and regional planning and for performance review based on benchmarks, targets and limits.
This study provides a comparable measurement of urban sprawl for most of the European continent using a consistent data set across Europe. The results will support managers and policymakers with the allocation of resources for the better protection of agricultural soils and landscape quality, and more sustainable political decision-making related to land use. The report also identifies the most immediate priorities and future research needs
Zersiedelung in Europa: Ländervergleich und treibende Kräfte. (Urban sprawl in Europe: Comparison of countries and driving forces.)
Steigende Zersiedelung steht im Widerspruch zu den Prinzipien und dem Geist von Nachhaltigkeit. Daten zur Zersiedelung werden benötigt, um die Wirksamkeit von Maßnahmen und Verordnungen zu überprüfen, welche die Zersiedelung begrenzen sollen. Die Autoren haben die Methode der „gewichteten Zersiedelung“ (Weighted Urban Proliferation, WUP) auf 32 Länder in Europa angewendet, um die Zersiedelung zu messen. Dazu wurden die europäischen HRL-Imperviousness-Daten von 2006 und 2009 verwendet. Die Ergebnisse zeigen, dass große Teile Europas von Zersiedelung betroffen sind. Der Gesamtwert von WUP für Europa beträgt 1,64 Durchsiedlungseinheiten/m2 (2009). Er ist zwischen 2006 und 2009 deutlich angestiegen, aber die Werte der einzel- nen Länder unterscheiden sich stark voneinander. Außerdem wurde der Zusammenhang mit zwölf potenziellen Treibern der Zersiedelung statistisch untersucht. Dieses Projekt ist die erste Analyse der Zersiedelung und ihrer zeitlichen Veränderung für einen gesamten Kontinent mit WUP. Der Beitrag stellt erste Ergebnisse vor und weist auf die Veröffentlichungen hin, die derzeit in Vorbereitung sind
Finishing the euchromatic sequence of the human genome
The sequence of the human genome encodes the genetic instructions for human physiology, as well as rich information about human evolution. In 2001, the International Human Genome Sequencing Consortium reported a draft sequence of the euchromatic portion of the human genome. Since then, the international collaboration has worked to convert this draft into a genome sequence with high accuracy and nearly complete coverage. Here, we report the result of this finishing process. The current genome sequence (Build 35) contains 2.85 billion nucleotides interrupted by only 341 gaps. It covers ∼99% of the euchromatic genome and is accurate to an error rate of ∼1 event per 100,000 bases. Many of the remaining euchromatic gaps are associated with segmental duplications and will require focused work with new methods. The near-complete sequence, the first for a vertebrate, greatly improves the precision of biological analyses of the human genome including studies of gene number, birth and death. Notably, the human enome seems to encode only 20,000-25,000 protein-coding genes. The genome sequence reported here should serve as a firm foundation for biomedical research in the decades ahead
AFLPdata_VL_78loci
AFLP genotypes of 695 plant individuals of Trifolium montanum, 30 sampling sites, 78 loci, sampled in Val Lumnezia (VL
Data from: Landscape composition has limited impact on local genetic structure in mountain clover, Trifolium montanum L.
Semi-dry grasslands in the European Alps have been increasingly fragmented over the last 150 years. Few studies have investigated the implications of landscape configuration for genetic structure and gene flow among remnant habitat patches. Conservation management of semi-dry grassland plants rarely accounts for possible effects of major landscape elements; such as forest patches, as barriers to gene flow and dispersal via seed and pollen, despite their potential importance for biodiversity conservation. Using 1,416 individuals from 61 sampling sites across two valleys in South-Eastern Switzerland and AFLP fingerprints we applied a spatial strip and a circle approach to determine the impact of different landscape elements on genetic differentiation in the semi-dry grassland herb Trifolium montanum (mountain clover). Overall genetic differentiation among sampling sites was low (overall FST = 0.044). Forest area had no effect on gene flow at the landscape scale but area of semi-dry grassland, the potential habitat of T. montanum, road area and altitude influenced genetic differentiation among sampling sites. The observed pattern of genetic differentiation suggests that a future increase in forest area, due to land use abandonment, at least in the short term, are unlikely to directly impact patterns of genetic variation in T. montanum
Landscape composition has limited impact on local genetic structure in mountain clover, Trifolium montanum L.
ISSN:0022-1503ISSN:1465-733
Body and movement in kindergarten classrooms
RESUMEN La concepción del cuerpo ha ido cambiando a lo largo de los años y con ella la visión de este en la escuela. Los niños desde que nacen son todo movimiento y, a través de este, van descubriéndose. Los posteriores avances en el desarrollo psicomotor les permitirá desplazarse y tener la oportunidad de explorar el mundo que les rodea. Las posibilidades de movimiento y exploración están ligadas al desarrollo cognitivo, por ello desde la escuela debemos fomentar que los niños realicen tareas ligadas a su cuerpo. Como educadores debemos buscar actividades que les aporten los conocimientos necesarios y que se produzcan de forma lúdica para que se conviertan en duraderos y la mejor manera es trabajando y explorando el cuerpo.ABSTRACT The conception of the body has been changing over the years and with it the vision of this school. Children from birth are all movement and, through this, they discovered. Further advances in psychomotor development will allow them to move and have the opportunity to explore the world around them. The possibilities of movement and exploration are linked to cognitive development, so from school, we should encourage children to perform tasks related to your body. As educators we must look for activities that give them the necessary knowledge and occurring in a playful way to become durable and the best way is working and exploring the body.Grado en Magisterio en Educación Infanti