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1.
R.P.H. Snep P.F.M. Opdam J.M. Baveco W. Timmermans V. Kuypers 《Biological conservation》2006,127(3):345-355
We explore the extent to which inner-city fauna can be enhanced by source areas in peri-urban zones as a response to a decreasing quality and size of green habitats within cities. The objectives were to get a better understanding of the interaction between animal populations of urban and peri-urban areas, and the role of urban green structures within this relationship, and to find out the extent to which peri-urban areas can contribute to urban animal populations. We illustrate the idea of peri-urban support by using a simulation model for individual animal movement, applied in a particular case-study with butterflies as model species. Results show differences in accessibility of inner-city areas between model butterfly species that differ in mobility. The impact of peri-urban individuals on populations of inner-city habitats differed among several peri-urban source-scenarios: the enlargement of the inner-city butterfly population by peri-urban individuals was determined as 7-36% for ‘moderate dispersers’ and 19-56% for ‘good dispersers’. Results also show that well-connected habitat patches within existing urban green structures were more likely to be visited by peri-urban individuals than isolated habitat patches. We conclude that peri-urban nature areas, if large enough, can have a potentially positive influence on the presence of fauna in inner-city neighborhoods. In addition, results suggest that connectivity between inner-city and peri-urban habitat patches enhances contribution of peri-urban migrants to inner-city populations. By providing a range of different habitats, from inner-city up to peri-urban area, moderately mobile habitat specialists could better compete against the small set of successful habitat generalists that are increasing in urban environments all over the world. 相似文献
2.
Metapopulation theory and habitat fragmentation: a review of holarctic breeding bird studies 总被引:15,自引:0,他引:15
Paul Opdam 《Landscape Ecology》1991,5(2):93-106
Metapopulations are conceived as spatially structured populations consisting of distinct units (subpopulations), separated by space or barriers, and connected by dispersal movements. Metapopulations characteristically demonstrate a turnover of local populations going extinct and becoming re-established, resulting in a distribution pattern that shifts over time. Metapopulation theory is used to analyse the effects of habitat fragmentation on birds in the temperate zone, integrating various explanations for the paucity of species in isolated ecotopes.There is some evidence that turnover of local populations occurs in fragmented systems. A few studies based on time series demonstrate the local extinction rate to be related to the size of the habitat fragment, whereas the recolonization rate depends on the degree of isolation. Most evidence comes from short-term pattern studies in which the probability of occurrence was found to depend on the size of habitat fragments, on their relative position in the landscape and on the density of corridors lowering the landscape resistance. These data are consistent with predictions from metapopulation theory. However, almost all investigations consider wood fragmentation in agricultural landscapes, and there is a great need for studies in naturally fragmented landscapes as well as for studies focussing on other, less predictable, habitat types. 相似文献
3.
The challenge of incorporating the concept of ecosystem services in landscape planning has been widely acknowledged, yet values of ecosystem services are not well considered in current landscape planning and environmental governance. This is particularly the case when local stakeholders are strongly involved in decision making about adapting the landscape to future demands and challenges. Engagement of stakeholders introduces a variety of interests and motives that result in diverging value interpretations. Moreover, participative planning approaches are based on learning processes, implying that the perceptions of value evolve during the planning process. Current valuation approaches are not able to support such process. Therefore we argue that there is a need for a novel view on the mechanism of integrating valuation in the different stages of community-based landscape planning, as well as for tools based on this mechanism. By revisiting the original conception of ecosystem services and redefining the value of an ecosystem service as its comparative importance to human wellbeing, we develop a conceptual framework for incorporating ecosystem service valuation that captures the full spectrum of value and value changes. We acknowledge that in the social interactions during the planning process values are redefined, negotiated and reframed in the context of the local landscape. Therefore, we propose a valuation mechanism that evolves through the phases of the cyclic planning process. We illustrate the use of this mechanism by proposing a tool that supports stakeholder groups in building a value-based vision on landscape adaptation that contributes to all wellbeing dimensions. 相似文献
4.
Paul Opdam Joan Iverson Nassauer Zhifang Wang Christian Albert Gary Bentrup Jean-Christophe Castella Clive McAlpine Jianguo Liu Stephen Sheppard Simon Swaffield 《Landscape Ecology》2013,28(8):1439-1445
For landscape ecology to produce knowledge relevant to society, it must include considerations of human culture and behavior, extending beyond the natural sciences to synthesize with many other disciplines. Furthermore, it needs to be able to support landscape change processes which increasingly take the shape of deliberative and collaborative decision making by local stakeholder groups. Landscape ecology as described by Wu (Landscape Ecol 28:1–11, 2013) therefore needs three additional topics of investigation: (1) the local landscape as a boundary object that builds communication among disciplines and between science and local communities, (2) iterative and collaborative methods for generating transdisciplinary approaches to sustainable change, and (3) the effect of scientific knowledge and tools on local landscape policy and landscape change. Collectively, these topics could empower landscape ecology to be a science for action at the local scale. 相似文献
5.
Evaluating the role of ecosystem services in participatory land use planning: proposing a balanced score card 总被引:1,自引:0,他引:1
The application of the ecosystem services (ES) concept in land use planning has great potential to enhance the awareness of planning actors on their interactions. At the same time it can contribute to improve the linkage between the role of land use patterns and the understanding of land system functioning and its contribution to human well-being. The concept should be developed in a way that can be applicable in socio-ecological systems where nature and society are capable of enhancing their roles mutually. The objective of this paper is to suggest a standardized scheme and generalizable criteria to assess how successful the application of the ES concept contributed to facilitate participatory planning. We consider three potential advantages and three critical aspects for how to improve the applicability and relevance of the ES concept in planning. Hereon based, we present a balanced score card tool for which we broke down to advantages and risks into concrete questions. We illustrate the application of this approach with two case studies, representatives of two major governance schemes in relation to land use planning. We demonstrate that the balanced score card approach helps to reveal potential imbalances regarding the consideration of different ES groups. It supports testing the potential of the ES concept to enhance or not interactions of local and regional actors. We conclude that the framework should be reconsidered after a set of case studies to be developed into a monitoring tool for supporting planning practices. 相似文献
6.
Paul Opdam 《Landscape Ecology》2007,22(10):1445-1446
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Landscape cohesion: an index for the conservation potential of landscapes for biodiversity 总被引:14,自引:6,他引:14
In urbanising landscapes, planning for sustainable biodiversity occurs in a context of multifunctional land use. Important
conditions for species persistence are habitat quality, the amount and configuration of habitat and the permeability of the
landscape matrix. For planning purposes, these determinants should be integrated into simple indicators for spatial conditions
of persistence probability. We propose a framework of three related indices. The cohesion index is based on the ecology of
metapopulations in a habitat network. We discuss how an indicator for species persistence in such a network could be developed.
To translate this network index into an area index, we propose the concept of spatial cohesion. Habitat cohesion and spatial
cohesion are defined and measured for single species or, at best, for species profiles. Since species differ in their perception
of the same landscape, different species will rate different values of these indices for the same landscape. Because landscapes
are rarely planned for single species, we further propose the index of landscape cohesion, which integrates the spatial cohesion
indices of different species. Indices based on these concepts can be built into GIS tools for landscape assessment. We illustrate
different applications of these indices, and emphasise the distinction between ecological and political decisions in developing
and applying such tools.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
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10.
Marleen M. P. Cobben Jana Verboom Paul F. M. Opdam Rolf F. Hoekstra René Jochem Marinus J. M. Smulders 《Landscape Ecology》2012,27(2):227-237
In response to climate change a species may move, adapt, or go extinct. For the adaptability of a population its genetic diversity
is essential, but climate change-induced range shifts can cause a loss of genetic diversity. We investigated how landscape
structure affects the level and distribution of genetic diversity in metapopulations subject to climate change-induced range
shifts. For this we used the spatially explicit, individual-based model METAPHOR which simulates metapopulation demography
and genetics under different temperature increase scenarios. The results indicated that increasing total habitat area may
enhance the maintenance of the genetic diversity in metapopulations while they are shifting their range under climate change.
However, the results also showed that a high level of total habitat area did not prevent the populations in the newly colonised
habitat area of being depleted of much of the original genetic diversity. We therefore conclude that enhancing landscape connectivity
may lead to a delayed loss of genetic diversity in metapopulations under climate change, but that additional measures would
be necessary to ensure its long-term conservation. Importantly, our simulations also show that a landscape which could be
regarded as well-structured under stable climatic conditions, may be inferior for the conservation of genetic diversity during
a range shift. This is important information for landscape management when developing strategies for the in situ conservation
of genetic variation in natural populations under climate change. 相似文献