Spelling suggestions: "subject:"peace park"" "subject:"peace mark""
1 |
Balkans Peace Park Project UK NewsletterBalkans Peace Park Project, (B3P) 11 1900 (has links)
Yes
|
2 |
The Balkans Peace Park (B3P) Project Development and Peacebuilding from Ground UpHallik, Maarja January 2013 (has links)
Yes
|
3 |
A section of the ICUN European Green Belt: the cross-border peace park (Albania/Montenegro/Kosovo)Young, Antonia January 2008 (has links)
Yes / Nelson Mandela, speaking of peace parks said “I know of no political movement, no philosophy, no ideology, which does not agree with the concept of peace parks … in a world beset by conflict and division peace is one of the cornerstones of the future … in the entire world”
The IUCN publication, Transboundary Protected Areas for Peace and Co-operation[1], lists over 600 such regions and defines Parks for Peace as: “transboundary protected areas that are formally dedicated to the protection and maintenance of biological diversity, and of natural and associated cultural resources, and to the promotion of peace and co-operation”.
The single Prokletije mountain range is divided by three borders. It is one of the most beautiful and untouched areas of high natural habitat in Europe. One of the aims here is to preserve this most outstanding area of natural beauty and value, as well as making a contribution towards peace and stability in the region, promoting the growth of community between ethnic and religious groups. Interest in a peace park for this area has already been activated in Belgrade, Peć, Plav, Podgorica, Shkodra, Tirana, Plav and elsewhere, although, as Franz Stummann observed, “Politicians don’t see what’s happening on the borders” [2].
It has been said that "borders constitute the main cause of wars ... neighboring countries are the most prone to fight. The danger of violence creeps around borders" [3]. Despite considerable skepticism initially, a "peace park", covering a wide geographical area has been developing for the past decade in the area surrounding the meeting point in the high remote mountains of Kosovo/Albania/Montenegro. Each of these aspire to EU membership. There are already many people, NGOs, local and national authorities working on ongoing relevant projects within the area, as well as dialoguing, across the borders.
|
4 |
Complexity of food web interactions in a large mammal systemEisenberg, Cristina 22 February 2012 (has links)
Food webs consist of a combination of bottom-up (resource-driven) and top-down (predator-driven) effects. The strength of these effects depends on the context in which they occur. I investigated food web (trophic) relationships between wolf (Canis lupus) predation, elk (Cervus elaphus) herbivory, aspen (Populus tremuloides Michaux) recruitment, and fire. The study setting, in the central portion of the Crown of the Continent Ecosystem, spans the US/Canada border and encompasses Glacier National Park (GNP), Montana and Waterton Lakes National Park (WLNP), Alberta. I stratified my observations across three spatially distinct areas, the North Fork Valley, in the western portion of GNP; the Waterton Valley, in the eastern portion of WLNP; and the Saint Mary Valley, in the eastern portion of GNP. All valleys are elk winter range (low-lying grasslands with patches of aspen). The valleys have three different observed wolf population levels (Saint Mary: low; Waterton: moderate; North Fork: high), which represent three levels of long-term predation risk (the probability of an elk encountering a wolf). Ecological characteristics (e.g., climate, soils, elevation, plant associations) are comparable among valleys. Fire has occurred in 90% of the North Fork.
My objective was to examine the relative influence of bottom-up (fire) and top-down (predation risk) factors and the context-dependence of these relationships via data gathered during a three-year time span. I found complex elk responses to bottom-up and top-down factors that could influence habitat use by elk. Pellet transect data demonstrated that elk exhibited the same risk reduction behavior at all wolf population levels, even at very low levels. Predation risk variables that provided impediments to detecting or escaping wolves had a similar and negative influence on occurrence of elk (pellet piles), regardless of wolf population density. Fire had a negative effect on elk density and a positive effect on wolf density (per scat piles) in aspen communities where a high wolf population existed. Aspen cover, which may be riskier than open grassland, also had a negative effect on elk density, except at very high wolf levels without fire. The risk of wolf predation alone did not drive elk behavior.
Conversely, focal animal (elk vigilance behavior) data suggested a positive relationship between wolf population and elk vigilance. However, when I deconstructed vigilance, elk demonstrated complex, context-dependent adaptive behavior in response to the long-term risk of predation by wolves. Commonly identified drivers of elk vigilance (group size, impediments to wolf detection and escape) appeared to be important drivers at an intermediate level of long-term predation risk (e.g., Waterton). These drivers ceased to function in this manner when the long-term predation risk level increased (The North Fork). At high levels of long-term predation risk, vigilance was high, but not driven by these common factors. In some cases, the relationship between vigilance and risk factors was reversed (e.g., group size). And at a low level of long-term predation risk (Saint Mary), elk did not respond to these drivers of vigilance.
When I measured aspen demography (browse, recruitment), browse was lower in the North Fork, where there was a high wolf population, suggesting a top-down effect. However, I found low aspen recruitment in the absence of fire in all valleys, which indicates a bottom-up effect in that aspen is highly fire-dependent. Top-down predictors of aspen recruitment (e.g., plot position and stand size, which are related to predation risk) had no effect on browse levels regardless of wolf population level.
In sum, the risk of wolf predation alone did not drive the food web relationships I observed. Bottom-up and top-down forces worked together in valleys that contained well-established wolf populations, and to a lesser degree in a valley with a low wolf population. Commonly used measures of predation risk responses (e.g., vigilance) reversed their relationship as the wolf population increased. Low aspen recruitment in the absence of fire demonstrates the importance of bottom-up effects. Bottom-up and top-down effects may be important joint engineers of aspen communities. My findings invite deeper inquiry into the interaction between bottom-up and top-down effects in large mammal systems. / Graduation date: 2012
|
5 |
Peace through Tourism: A Case-Study of the Balkans Peace Park ProjectHara, Satoko January 2009 (has links)
Yes / Introduction: ...The first part of this research will be carried out on the basis of a theoretical review. Having defined peace parks in the context of the issues raised, the evolution of tourism needs to be specifically connected with sustainable development and peace issues. Thirdly, the potential and limitations of the development of tourism will be analysed in three aspects - economic, social-cultural and environmental, in the process of promoting peace.
The second part will be a case-study of the Balkans Peace Park Project. The impacts of the development of tourism on local people were observed for 9 weeks in Thethi National Park of Albania which is a part of the proposed Balkans Peace Park area. During the observation, a questionnaire survey (Appendix I) was conducted in order to assess local awareness of both the costs and benefits of tourism; approximately 30% of households responded. An interview with the international organization which implemented the tourism development project in the region was also organized. This research will analyse results of both these, as well as the results of observation and participation in the community.
1-3. Literature Review
|
Page generated in 0.0408 seconds