Public concern about pesticide use is very high, although it varies with social, ethical and political factors. In periurban regions, farmers live close to people with other occupations. Thus farming activities such as pesticide spraying may cause tensions. Pesticide use may also cause changes in pest abundances outside the treated field, on plants in neighbouring gardens. The first part of this thesis compared perceptions of pesticide use by farmers and their neighbours in two periurban regions in Sweden. Neighbours reported using pesticides, but perceived pesticide use to be more negative than farmers did. Neighbours also perceived themselves as pesticide non-users to a higher extent than farmers, although both categories used pesticides in their home setting to a similar extent. Perceptions of pesticide use differed between farmers and neighbours but also between groups of farmers, depending on farm size, whether pesticides were used or not, number of crops grown and pesticide safety knowledge. In two field studies, abundances of pests were compared in garden crops adjacent to insecticide-treated and untreated agricultural fields. The garden crops were not subjected to wind drift during insecticide spraying. Despite this, pest abundance and their damage on vegetables and ornamental flowers in nearby gardens decreased with insecticide use in the agricultural fields. The magnitude of this decrease depended on type of insect pests targeted, garden plants tested and timing of pesticide applications. In general, perceptions and attitudes concerning pesticide use differed between groups of people in the periurban society studied, e.g. with social factors such as gender, age and education. The fact that pesticide use in agricultural fields may actually benefit neighbouring garden crops is a novel finding. The findings presented here can be of use for policy makers to avoid conflicts regarding pesticide use in periurban environments, since it is important to address variations in the views of different groups of people in society and to communicate both the negative and positive effects of pesticide use.
Design science research was used for the generation, use and evaluation of a model for knowledge sharing in the user community through open educational resources (OER). The focus of interest was on the development process of a model for knowledge sharing that emphasizes the characteristics and the needs of the user community; the empowerment and democratic issues of openness; the collaboration between institutions and dialog with society; and the consideration of quality and sustainability issues. Initially, the community needs were analyzed through surveys and workshops, and the findings used, through negotiations, to formulate the development process. An open-training platform served as an infrastructure and included a repository with OER, a wiki and a discussion forum. The purpose of this article is an attempt to provide universities with a plan and template for integrated knowledge sharing that responds to societal needs. Usability and usefulness has not been evaluated. (C) 2013 Elsevier Ltd. All rights reserved.
This document summarises the outcome of a regional training workshop, "Interactive and dynamic approaches on forest and land use planning in Southern Africa". It was organised in December 2001 by the government of Botswana in cooperation with organisations in Zimbabwe and South Africa and with Swedish financial and technical support. The workshop aimed at exposing the participants to new cross sector approaches on strategic forest and land use planning, including the Area Production Model (APM) and concept, and to provide a platform for possible future development work in this field. It concerned such issues as the role of planning in relation to policies and local development, information and data needs in planning, the use of scenario modelling in land use planning, how to narrow the gap between "planning from above" and "planning from below", and the roles and interaction of different stakeholders in the planning process. The workshop had been proposed by the participating countries following an international training programme on policy and strategy development in Sweden. The 18 participants from three countries included central and local government staff concerned with forest and land use planning at the national and sub-national level, researchers and NGOs. The workshop consisted of two weeks of lectures, seminars and field based case studies and a concluding seminar, in which the participants presented their experiences and conclusions about the APM concept to a broader group of decision makers. Some of the main conclusions drawn by the participants were that the APM was a useful tool for promoting dynamic and multi-sector planning. At the same time the Model has a number of technical shortcomings that needs to be addressed. Those shortcomings were identified and discussed throughout the workshop. The need to keep the model simple and transparent was acknowledged. It was proposed that "homes" should be identified for the model in each country. Those homes should build up and maintain capacity to develop and adapt the model to the local conditions and priorities. INTRODUCTION. The workshop "Interactive and dynamic approaches on forest and land-use planning in Southern Africa" was arranged in Botswana in December 2001. It aimed at exposing the participants to new cross sector approaches on strategic forest and land use planning, including the Area Production Model (APM), and to provide a platform for possible future development work in this field. The workshop was the concluding step of a process that had been running for several years. It provides important lessons on approaches to cross-sectoral land use planning in Southern Africa. The process started in 1998, when there were several participants from Botswana, South Africa and Zimbabwe in an annual international course "Development of National Forest Policies and Strategies", organised by the Swedish National Board of Forestry and funded by Sida. Those participants strongly suggested that the Area Production Model, (APM), which had been demonstrated during the course, might be highly relevant in Southern Africa. As a response, the Country Capacity Building (CCB) project (a Sida funded project aiming at forest policy issues), set up a training programme in discussions with the three countries. As a first step, key personnel from the forest authorities in Botswana, South Africa and Zimbabwe, underwent a post graduate course at the Swedish University of Agricultural Sciences (SLU) in Umea, Sweden. The course took place in March 2000 and was focused on the ideas and applications of the APM. In a second step, a workshop designated for a wider audience, including governmental as well as non governmental organisations, was planned for mid 2000. The workshop was originally intended to be a two-phase arrangement. The first phase to be arranged in Zimbabwe, focusing on model theory with only limited field work, and a second phase, were the participants would split up and work a realistic case in a designated study area in each of the three countries involved. Unfortunately, the political situation in Zimbabwe during spring 2000 made it necessary to postpone the workshop. About a year later, in spring 2001, it was agreed among the interested countries to move it to another country in the Region, after the Ministry of Agriculture, Botswana, had generously accepted to host the workshop. The two-phase design of the workshop was by now reduced to a single event, with the joint study-area around Serowe in the eastern part of Botswana. The APM is a simulation model developed by Professor Nils-Erik Nilsson in co-operation with FAO. The Model, including an application concept, has been further developed by the Swedish University of Agricultural Sciences (SLU), Department of Forest Resource Management and Geomatics. The Swedish team of resource persons in the Botswana workshop have all been instrumental in the previous development work of the Model. The APM has been field tested on numerous occasions in South and Southeast Asia. This workshop, however, is the first occasion the model is used in Southern Africa. In spite of the simplicity and flexibility that characterises the model, the new setting was considered a major challenge when planning the workshop. The workshop results have given new and partly unexpected results in terms of both usefulness and applicability of the model. The Country Capacity Building project focuses on forest policy development. In modem terminology, nfp (national forest programmes) is a highly relevant term. Key strategies include support to demand driven processes, investment in human knowledge and, not least, a belief that personal commitment is as important for success as political commitments. On behalf of the organisers, I would like to thank the Ministry of Agriculture, Botswana, and the key persons from Botswana, South Africa and Zimbabwe. Without their commitment and enthusiasm, the positive outcome of the workshop would not have been possible.
The global growth in energy demand continues, but the way of meeting rising energy needs is not sustainable. The use of biomass energy is a widely accepted strategy towards sustainable development that sees the fastest rate with the most of increase in power generation followed by strong rises in the consumption of biofuels for transport. Agriculture, forestry and wood energy sector are the leading sources of biomass for bioenergy. However, to be acceptable, biomass feedstock must be produced sustainably. Bioenergy from sustainably managed systems could provide a renewable and carbon neutral source of energy. Bioenergy systems can be relatively complex, intersectoral and site- and scale-specific. The environmental benefits of biomass-for-energy production systems can vary strongly, depending on site properties, climate, management system and input intensities. Bioenergy supply is closely linked to issues of water and land use. It is important to understand the effects of introducing it as well as it is necessary to promote integrated and synergic policies and approaches in the sectors of forestry, agriculture, energy, industry and environment. Biofuels offer attractive solutions to reducing GHG emissions, addressing energy security concerns and have also other socio-economic advantages. Currently produced biofuels are classified as first-generation. Some first-generation biofuels, such as for example ethanol from corn possibly have a limited role in the future transport fuel mix, other ones such as ethanol from sugarcane or biodiesel made from oils extracted from rerennial crops, as well as non-food and industrial crops requiring minimal input and maintenance and offering several benefits over conventional annual crops for ethanol production are promising. Sugarcane ethanol has greenhouse gas (GHG) emissions avoidance potential; can be produced sustainably; can be cost effective without governments support mechanisms, provide useful and valuable co-products; and, if carefully managed with due regard given to sustainable land use, can support the drive for sustainable development in many developing countries. Sugarcane ethanol - currently the most effective biofuel at displacing GHG emissions - is already mitigating GHGs in Brazil. Jatropha curcas L., a multipurpose, drought resistant, perennial plant has gained lot of importance for the production of biodiesel. However, it is important to point out that nearly all of studies have overstated the impacts of first-generation biofuels on global agricultural and land markets due to the fact that they have ignored the role of biofuel by-products. However, feed by-products of first-generation biofuels, such as dried distillers grains with soluble and oilseed meals are used in the livestock industry as protein and energy sources mitigates the price impacts of biofuel production as well as reduce the demand for cropland and moderate the indirect land use consequences. The production of second generation biofuels is expected to start within a few years. Many of the problems associated with first-generation biofuels can be solved by the production of second generation biofuels manufactured from abundant ligno-cellulosic materials such as cereal straw, sugar cane bagasse, forest residues, wastes and dedicated feedstocks (purpose-grown vegetative grasses, short rotation forests and other energy crops). These feedstocks are not food competitive, do not require additional agricultural land and can be grown on marginal and wasteland. Depending on the feedstock choice and the cultivation technique, second-generation biofuel production has the potential to provide benefits such as consuming waste residues and making use of abandoned land. As much as 97-98% of GHG emissions could be avoided by substituting a fossil fuel with wood fuel. Forest fertilization is an attractive option for increasing energy security and reducing net GHG emission. In addition to carbon dioxide the emissions of methane and nitrous oxides may be important factors in GHG balance of biofuels. Forest management rules, best practices for nitrogen fertilizer use and development of second generation technologies use reduce these emissions. Soils have an important role in the global budget of greenhouse gases. However, the effects of biomass production on soil properties are entirely site and practice-specific and little is known about long-term impact. Soil biological systems are resilient and they do not show any lasting impacts due to intensive site management activities. Land management practices can change dramatically the characteristic and gas exchange of an ecosystem. GHG benefits from biomass feedstock use are in some cases significantly lower if the effects of direct¹ or indirect (ILUC²) land use change are taken into account. LUC and ILUC can impact the GHG emission by affecting carbon balance in soil and thus ecosystem. To understand carbon fluxes in an ecosystem large ecosystem units and time scale are critical. Mitigation measures of the impact of land use change on greenhouse gas emissions include the use of residues as feedstock, cultivation of feedstock on abandoned arable land and use of feedstock by-products as substitutes for primary crops as animal feed. Cropping management is the other key factor in estimating GHG emissions associated with LUC and there is significant opportunity to reduce the potential carbon debt and GHG emissions through improved crop and soil management practices, including crop choice, intensity of inputs, harvesting strategy, and tilling practices. Also a system with whole trees harvesting with nutrient compensation is closely to being greenhouse-gas-neutral. Biochar applied to the soil offers a direct method for sequestrating C and generating bioenergy. However, the most recent studies showing that emissions resulting from ILUC are significant have not been systematically compared and summarized and current practices for estimating the effects of ILUC suffer from large uncertainties. Therefore, it seems to be delicate to include the ILUC effects in the GHG emission balance at a country level. The land availability is an important factor in determining bioenergy sustainability. However, even though food and biofuel/biomass can compete for land, this is not inevitably the case. The pattern of completion competition will e.g. depend on whether food security policies are in place. Moreover, the great potential for uncomplicated biomass production lies in using residues and organic waste, introduction of second generation biofuels which are more efficient in use of land and bioresources as well as restoration of degraded and wasted areas. Agroforestry has high potential for simultaneously satisfying many important objectives at ecosystems, economic and social levels. For example, as a very flexible, but low-input system, alley cropping can supply biomass resources in a sustainable way and at the same time provide ecological benefits in Central Europe. A farming system that integrates woody crops with conventional agricultural crops/pasture can more fully utilize the basic resources of water, carbon dioxide, nutrients, and sunlight, thereby producing greater total biomass yield. Overall, whether food prices will rise in parallel to an increase in biofuel demand will depend, more on trade barriers, subsidies, policies and limitations of marketing infrastructure than on lack of physical capacity. There are plant species that provide not only biofuel resources but also has the potential to sequestrate carbon to soil. For example, reed canary grass (RCG, Phalaris arundinacea L.) indicates the potential as a carbon sink. Harvest residues are increasingly utilized to produce energy. Sweden developed a series of recommendations and good-practice guidelines (GPG) for whole tree harvesting practices. Water has a multifarious relationship to energy. Biofuel production will have a relatively minor impact on the global water use. It is critically important to use low-quality water sources and to select the crops and countries that (under current production circumstances) produce bioenergy feedstock in the water-efficient way. However, local and regional impacts of biofuel production could be substantial. Knowledge of watershed characteristics, local hydrology and natural peak flow patterns coupled with site planning, location choice and species choice, are all factors that will determine whether or not this relationship is sustainable. For example, bioethanol's water requirements can range from 5 to 2138 L per liter of ethanol depending on regional irrigation practices. Moreover, sugarcane in Brazil evaporates 2,200 liters for every liter of ethanol, but this demand is met by abundant rainfall. Biomass production can have both positive and negative effects on species diversity. However, woodfuel production systems as well as agroforestry have the potential to increase biodiversity. A regional energy planning could have an important role to play in order to achieve energy-efficient and cost-efficient energy systems. Closing the loop through the optimization of all resources is essential to minimize conflicts in resource requirements as a result of increased biomass feedstock production. A systems approach where the agricultural, forestry, energy, and environmental sectors are considered as components of a single system, and environmental liabilities are used as recoverable resources for biomass feedstock production has the potential to significantly improve the economic, social, and environmental sustainability of biofuels. The LCA (life cycle analysis) approach takes into account all the input and output flows occurring in biomass production systems. The source of biomass has a big impact on LCA outcomes and there is a broad agreement in the scientific community that LCA is one of the best methodologies for the GHG balance calculation of biomass systems. Overall, maximizing benefits of bioenergy while minimizing negative impacts is most likely to occur in the presence of adequate knowledge and frameworks, such as for example certification systems, policy and guidelines. Criteria for achieving sustainability and best land use practices when producing biomass for energy must be established and adopted. ___________ ¹ Direct land-use change occurs when feedstock for biofuels purposes (e.g. soybean for biodiesel) displace a prior land-use (e.g. forest), thereby generating possible changes in the carbon stock of that land. ² Indirect land-use change (ILUC) occurs when pressure on agriculture due to the displacement of previous activity or use of the biomass induces land-use changes on other lands.
Today's society is often characterized as a knowledge society, in contrast to the earlier industrial society. Historians however know that all societies are and have been knowledge societies. Without the ability to create, transfer, and use knowledge, between individuals and groups, power areas would neither have been built nor maintained. This edited volume reflects how historical actors, both those in power as well as laymen and officials, have produced and utilised information and knowledge from the Middle Ages until today. It acommodates research into census, urbanisation, history of kings and queens, exercise of public authority, social and political movements, disciplining and formation of opinion. In Kunskapens tider. Historiska perspektiv på kunskapssamhället ("The knowledge society. A historical perspective") nine researchers from the Department of History at Stockholm University contribute with examples of the need for and use of knowledge, in different historical situations and periods. - Dagens samhälle karaktäriseras ofta som kunskapssamhället, till skillnad från det tidigare industrisamhället. Historiker vet dock att alla samhällen är och har varit kunskapssamhällen: Utan möjligheter att skapa, överföra och använda kunskap, såväl individer som grupper emellan, hade maktområden varken kunnat byggas eller vidmakthållas. Antologin speglar hur historiska aktörer, såväl makthavare som lekmän och tjänstemän, har producerat och utnyttjat information och kunskap från medeltiden till idag. Här ryms forskning om folkräkning, urbanisering, kungars historieskrivning, myndighetsutövning, sociala och politiska rörelser, disciplinering och opinionsbildning. I Kunskapens tider bidrar nio medarbetare från Historiska institutionen vid Stockholms universitet med exempel på hur behovet och användandet av kunskap sett ut i olika historiska situationer och tidsperioder.
The aim of this thesis is to examine EU agro-environmental policy (AEP) from the perspective of how intentions transform into practical action, with special emphasis on various instruments of control. The AEP is especially discussed in relation to the basic issues of efficiency and democracy. This corresponds to the definition of a 'planning perspective' used here, which mainly focuses on 'effect planning', including both organisational and action related questions. The hypothesis is that problems related to goal fulfilment are more an effect of insufficient knowledge of action, rather than an effect of insufficient knowledge of (environmental) facts. When planning in agricultural landscapes, one must consider the interests of individual land owners and farmers. This planning thereby becomes 'dialogue oriented'. Advantages and disadvantages of the current agro-political system are discussed with reference to two general models of the 'agro-political dialogue' and the results from a case study in Sweden. Various planning theories are discussed from the point of view of how they contribute to an even better understanding of the situation. One conclusion is that within the AEP of today, there is neither a concise planning oriented discussion on the character of current agro-environmental problems, nor on the most relevant and effective means by which to handle these. Existing economical instruments of control and general forms of environmental measures need to be supplemented with more effective legislation directed towards environmental problems that cannot be solved on a voluntary basis and on a local implementation level. Furthermore, there is a great need of alternative organisational solutions for sharing the responsibility for environmental problems that can only be handled effectively on the local and regional implementation levels. Another conclusion is that the autonomy of the Swedish farmers has gradually decreased since the great land allocation reforms. This gives cause for concern from the point of view of democracy. The dialogue perspective reveals that farmers must become more influential within the agro-environmental policy process, but also that we have to consider the fact that many farmers do not want to participate in the agro-environmental programmes. Concepts like paternalism and professionalism are helpful in trying to grasp the situation and answering the question of why this process has been left to develop so far without being noticed or challenged. The lead theme of this thesis can thus be seen as a contribution to resolving the central issue which remains; how to combine the demands for more agro-environmental efficiency without further infringement on farmers' autonomy?
During the late 16th century, and even more so in the 17th century, when Sweden was a great power, the extent of Swedish town-planning activity was unparalleled in Europe. Most of the older towns in Sweden and Finland can be said to take their character from this period. The thesis covers all Swedish town-planning in the areas under Swedish rule 1521–1721, and areas of Swedish interest outside this, including today's Estonia and parts of Russia, Latvia, Poland, Germany, and USA. 175 sites are studied and in total 338 projects and just above 600 town plans. Part I consists of thematic studies, part II a synthesis, and part III studies of the individual towns. The study aims at the broader picture of Swedish town-planning of this period, based on a re-assessment of existing knowledge of individual towns, but adding new material and asking new questions. It seeks to assist the conservation and the future planning and design of the urban environment. Major questions raised concern different kinds of planning measures, the design of plans and how they were devised, functional demands and aesthetic considerations, the impact of great fires and the significant figures of the time. The town-planning illustrates the political and economical development of the kingdom and played a fundamental role in the radical change of society that took place in this era. Intensive town-planning activity starts in the mid-1500s but the major rise begins in the early 17th century and reaches its peak in the 1640s and '50s. Three main categories of town-planning measures can be distinguished: new construction, which includes relocation of older towns and new foundations (100 all told), town plan changes in existing towns, including redevelopment, extension and separate suburbs (about 170), and measures relating to fortifications (some 65 fortifications only and another 90 included in combined measures). The right-angular gridiron plans dominate completely. They can be divided into three main groups: 'simple, regular', 'pragmatic', and 'elaborate'.
The grandiose, but failed, attempts to produce silk in Sweden in the past have been largely ignored by historians. This thesis describes the history of sericulture in Sweden, including three periods of practical trials in 1735-1765, 1830-1898 and 1913-1918. For a long time, the secrets of sericulture were closely guarded in China but by the beginning of the 16th century, knowledge of silk cultivation techniques had reached a number of European countries. The pursuit of domestic silk production was often a costly undertaking instigated by royalty. Since conditions in Sweden and Denmark were partly similar, there was some degree of influence and cooperation between these neighbouring countries. The chapters dealing with attempts at silk production during the 18th century and the history of sericulture in northern Europe are primarily based on printed sources and literature. Several of the 18th century silk farmers documented their experiments, allowing us to follow their efforts and ideas on the feasibility of silk farming in Sweden. The descriptions of the two latter sets of Swedish silk production trials presented in the thesis are primarily based on archive materials, mainly consisting of minutes and annual reports. The history of sericulture in Sweden began in the mid-1730s, when Mårten Triewald conducted experiments and exhaustively described and published these. Carl Linnaeus was a significant influence in Swedish sericulture during this early period. Naturalists were hired as plantation managers and were tasked with supplying the silk industry in Sweden with home-produced raw material. The work was prompted by the desire to find an alternative for the huge Swedish imports of raw silk from China and Southern Europe. However, silk farming never became particularly common, despite the financial incentives available for producing silk and planting mulberry trees during the 1750s in the belief that some 'extravagance' was beneficial for society as a whole. When the 'Hats' position of power ended, so did the financial support for manufacturing luxury goods. Founded in 1830, the Swedish Association for Domestic Sericulture was active for nearly 70 years thanks to foreign influences and the notion that silk farming could be a popular livelihood. Members of the Swedish Royal Family served as patrons and several well-known scientists participated in the projects. The Association furnished mulberry plants and seeds, together with silkworm eggs, most of which were distributed to plantations controlled by the Association or county agricultural societies. However, the Association's annual reports show that many private individuals also planted mulberry trees and some pursued silk farming. Sericulture growing trials were carried out at a number of sites across Sweden, on the initiative of Jacob Berzelius, among others. These trials were mainly funded by Government grants, but numerous wealthy individuals also made contributions to the sericulture venture. Some income was generated by the silk products produced, which were almost solely bought by the Swedish Royal Family. The Swedish Sericulture Association was founded in southern Sweden in 1913 but this third brief foray into sericulture produced few results. All three periods of sericulture trials were initiated by enthusiasts with a firm belief that some silkworm host plants would survive the Nordic climate. There were a number of claims that the white mulberry tree had become acclimatised, but an equal number of cold winters and springs proved the opposite. Ultimately, Swedish sericulture was never economically feasible, since the natural conditions were unfavourable and the output from Swedish silk production was modest, and the cost high, in relation to imported silk. The almost 200-year history of sericulture in Sweden provides an important glimpse into the obsessions and culture of the age, but there were far too many obstacles for the dream of Swedish silk ever to become a reality.
Local natural resources (LNRs) are essential for the socioeconomy of rural societies. The United Nations (UN) Agenda 21 and "Our Common Future" state that local spatial planning is central for the prospect of balancing ecological, social and economic sustainable development (SuD). Stakeholder participation in spatial planning enhances acceptance and improves preconditions for successful planning outcomes. Consequently, it is important to increase knowledge about LNRs and the use of them and to integrate such knowledge in local spatial participatory planning with a landscape perspective. These opening statements apply to Swedish boreal municipalities and describe the intentions of Swedish municipal comprehensive planning (MCP). The purpose of this work was to examine and analyze the preconditions for integrating MCP with a landscape perspective in rural municipalities. The thesis is based on case studies in Swedish, rural, municipal contexts reported in five papers. In Papers I & II, local businesses in Vilhelmina Municipality were surveyed to describe the societal importance of LNRs. The results showed that LNRs are vital to 78 % of the businesses, of which half are based on forest farming, and there are strong bonds between entrepreneurs, their businesses, the municipality and LNRs. Papers III & IV present and discuss the characteristics of MCP in theory and practice. An e-mail survey was sent to municipal officials in all Swedish mountain municipalities. MCP-stakeholders in municipalities in Bergslagen, in central Sweden, were interviewed. Respondents in both case studies stated a belief that MCP can offer prospects in planning for SuD. However, resources and stakeholder participation in planning are generally scarce, especially in rural municipalities. Paper V illustrates how new knowledge on forest land use (to support MCP) can be gained by combining spatial and temporal data on forest condition, owners and land use values in a geographic information system (GIS). This thesis provides scientific and practical contributions to aid in efforts aiming for SuD. It is done by framing MCP theoretically and contextually and by suggesting that MCP should be extended to include forest land use and by stressing the rural context in local spatial participatory planning. Opportunities in MCP have to be embraced, but local governments need enhanced knowledge about local land use, specifically forest land use. Moreover, stakeholder participation needs to be developed, requiring more resources. In the case of a Swedish rural municipality, it is crucial that efforts are made to develop MCP as a tool, not just in theory but also in practice.
At the international policy level, there is a clear link between access to information about forests and the work towards sustainable land use. However, involving forests in planning for sustainable development (SuD) at the Swedish local level, by means of municipal comprehensive planning (MCP), is complicated by sector structure and legislation. Currently, there is a gap or hole in the MCP process when it comes to use and access to knowledge about forest conditions and forest land use. This hole limits the possibilities to formulate well-informed municipal visions and goals for sustainable forest land use as well as for overall SuD. Here we introduce an approach for compilation and presentation of geographic information to increase the preconditions for integrating forest information into Swedish MCP. We produce information about forest ownership patterns and forest conditions in terms of age and significant ecological and social values in forests for a case study municipality. We conclude that it is possible to effectively compile geographic and forest-related information to fill the hole in the municipal land use map. Through our approach, MCP could be strengthened as a tool for overall land use planning and hence as a base in SuD planning.
Source separation of urine for recycling has been applied in small-scale and decentralized wastewater systems in Sweden for the past 25 years and for blackwater for pollution control even longer. The Swedish experience with source separating nutrient recycling systems is relatively well documented; however, few reports have specifically studied the potential for expansion of this practice. The aim of this study is to fill this knowledge gap by assessing the status of source-separating technologies in Sweden based on transition theory. This study uses a multi-level perspective to determine how ready the Swedish wastewater sector is for transitioning to alternative systems. Given the stability of the existing sewage wastewater regime, it seems unlikely that changes within the regime will lead to a quick and large-scale transition to source separation. Instead, the initiative must come from the niche itself, exploiting institutional cracks in the regime and opportunities from shifting trends in the landscape. If source separation is to be mainstreamed in Sweden, it will need to break into markets within the wastewater jurisdictions. In order to do so, further knowledge needs to be developed that will overcome glitches with immature technologies, uncertain legal conditions/status, investigate potential risks, and clearly define complementary system advantages. This may require the use of new perspectives that focus on holistic sustainable use of resources, including other nutrients than phosphorous, and taking into account global issues such as planetary boundaries and effects from climate change, such as water scarcity. This knowledge can then be used to establish guidelines, norms, and standards, as well as clarify the legislative structures that can support such a transition. There is also a strong need to improve knowledge dissemination regarding best-practices for implementing source-separation technologies and supporting organizational structures. Similarly, support for entrepreneurial activities within the niche needs to increase, not least through strengthening social networks and communication platforms.
This report presents the outcome of the joint work of PhD students and senior researchers working with DNA-based biodiversity assessment approaches with the goal to facilitate others the access to definitions and explanations about novel DNA-based methods. The work was performed during a PhD course (SLU PNS0169) at the Swedish University of Agricultural Sciences (SLU) in Uppsala, Sweden. The course was co-organized by the EU COST research network DNAqua-Net and the SLU Research Schools Focus on Soils and Water (FoSW) and Ecology - basics and applications. DNAqua-Net (COST Action CA15219, 2016-2020) is a network connecting researchers, water managers, politicians and other stakeholders with the aim to develop new genetic tools for bioassessment of aquatic ecosystems in Europe and beyond. The PhD course offered a comprehensive overview of the paradigm shift from traditional morphology-based species identification to novel identification approaches based on molecular markers. We covered the use of molecular tools in both basic research and applied use with a focus on aquatic ecosystem assessment, from species collection to the use of diversity in environmental legislation. The focus of the course was on DNA (meta)barcoding and aquatic organisms. The knowledge gained was shared with the general public by creating Wikipedia pages and through this collaborative Open Access publication, co-authored by all course participants.
Bergslagen in south-central Sweden is an informal region with a long history of intensive land use. The legacies of than 2000 years of integrated use of ore, forests and water major national and international economic importance now involve several challenges for the maintenance of landscapes. This includes sustainability of rural and urban communities, of green infrastructures for natural capital and human well-being as well as of forests, river basins and mining. In response to this cross-sectoral integration necessary at multiple levels of public, private and civil as well as academia and schools. Landscapes need thus to be viewed as integrated socio-ecological systems. Collaboration and continuous learning among actors and stakeholders are needed for sustainable use and management of landscapes' goods, services and values. To support this requires (1) data, monitoring and assessment of different aspects of sustainability, (2) continuous knowledge production about material and immaterial landscape values relevant for the management of ecological, economic, social and cultural dimensions, (3) information and communication using both traditional media, as well as (4) through art and culture. the vision to contribute to satisfying these requirements Sustainable Bergslagen initiative emerged gradually since 2004 as a multi-level partnership for sustainable landscapes (www.bergslagen.org). By joining the International Model Forest Network (IMFN), and the network for Long Term Socio-Economic and Ecological Research (LTSER), actors and stakeholders can learn from other regions' sustainable development processes, and make Bergslagen more visible internationally.
This article discusses the present negative evaluation of stereotypes. Do people who use stereotypes believe that a characteristic attributed to a group is categorical; that all members of group A have this trait? Empirical research & ordinary observations indicate that judgments are not so crudely made, but that people categorize in terms of probabilities. Therefore the rule "one should not generalize" seems unjustified. Further, such a view often endorses a strategy of correcting old stereotypes with the promotion of new stereotypes. The main problem is often not the negative view of others, but the idolized or victimized picture of the own group. The way to improve group relations according to the presented analysis is to become more tolerant to skeptical views of the own group. Knowledge about the universal human propensity for in-group preferences & honest statistics about actual differences will be helpful in this process. Adapted from the source document.
Sweden strives for adaptive wildlife management. With the introduction of new technologies and methodologies, adaptive management must be resilient and efficient in implementing and trying these, to truly stay adaptive. One of the most widely used technologies within Swedish wildlife management is camera traps, as they are a relatively cheap and unintrusive means of monitoring wildlife. In this report, I focus on the practical and theoretical development and implementation of camera traps. By conducting qualitative, key informant interviews with Swedish wildlife managers, I provide insight into managers' thoughts on and experiences with implementation of camera traps specifically and new technologies and methodologies more generally, and into their views on the challenges that Swedish wildlife management may face today, and in the future. The analysis revealed concerns in communication of information, knowledge, experiences, and technology uses between involved stakeholders, as well as issues in the coordination of methodological and technological development and implementation. Efficient communication and coordination are vital in maintaining a functional approach to adaptive wildlife management with fundamental knowledge amongst all stakeholders. The adaptive management framework and practical implementation needs careful work to obtain these functions. The analysis also revealed frustration amongst wildlife managers concerning the legislation around the use of new technologies. As adaptive management is reliant on a trial-and-error approach, legislation must be adapted to allow for new tools and methods to be tried in order to meet current and future management demands.