George P. Malanson scite author profile

The pervasive influence of island biogeography theory on forest fragmentation research has often led to a misleading conceptualization of landscapes as areas of forest/habitat and 'non-forest/non-habitat' and an overriding focus on processes within forest remnants at the expense of research in the human-modified matrix. The matrix, however, may be neither uniformly unsuitable as habitat nor serve as a fully-absorbing barrier to the dispersal of forest taxa. In this paper, we present a conceptual model that addresses how forest habitat loss and fragmentation affect biodiversity through reduction of the resource base, subdivision of populations, alterations of species interactions and disturbance regimes, modifications of microclimate and increases in the presence of invasive species and human pressures on remnants. While we acknowledge the importance of changes associated with the forest remnants themselves (e.g. decreased forest area and increased isolation of forest patches), we stress that the extent, intensity and permanence of alterations to the matrix will have an overriding influence on area and isolation effects and emphasize the potential roles of the matrix as not only a barrier but also as habitat, source and conduit. Our intention is to argue for shifting the examination of forest fragmentation effects away from a patch-based perspective focused on factors such as patch area and distance metrics to a landscape mosaic perspective that recognizes the importance of gradients in habitat conditions.

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Riparian Landscapes

Malanson

1993

518

252

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Riparian Landscapes examines the ecological systems of streamside and floodplain areas from the perspective of landscape ecology. The specific spatial pattern of riparian vegetation is seen as a result of, and a control on, the ecological, geomorphological, and hydrological processes that operate along rivers. Riparian structures are controlled by the spatial dynamics of channels, flooding and soil moisture. These dynamics are part of integrated cascades of water, sediment, nutrients and carbon, to which animal and plant species respond in ways that illuminate community structure and competition. The role of the riparian zone in controlling species distribution and abundance is discussed. Intelligent management of these valuable ecological resources is highlighted. The potential for linking hydrological, geomorphological and ecological simulation models is also explored.

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The geomorphic influences of beaver dams and failures of beaver dams

2005

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Alpine Treeline of Western North America: Linking Organism-To-Landscape Dynamics

Malanson

Butler

Fagre³

et al. 2007

Physical Geography

137

124

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Sedimentation rates and patterns in beaver ponds in a mountain environment

1995

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Topographic Shelter and Conifer Establishment and Mortality in an Alpine Environment, Glacier National Park, Montana

2005

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An overview of scale, pattern, process relationships in geomorphology: a remote sensing and GIS perspective

1998

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Influences of Geomorphology and Geology on Alpine Treeline in the American West—More Important than Climatic Influences?

Butler

Malanson

Walsh³

et al. 2007

Physical Geography

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