Effects of forest fragmentation on brown spider monkeys (Ateles hybridus) and red howler monkeys (Alouatta seniculus)

Rimbach, Rebecca

04 September 2013

No description available.

570

Waldfragmentierung

Stress

Primaten

Glucocorticoide

Forest fragmentation

Hunting

Logging

Glucocorticoids

Stress

Enzyme-immunoassay

Biologie (PPN619462639)

Forest Fragmentation in Space and Time - New perspectives from remote sensing and forest modelling

Dantas de Paula, Mateus

17 July 2017

Empirical studies on severely fragmented regions suggest that decades after fragmentation, forest edges located near human-modified areas exhibit the structure of early successional states, with lower biomass per area and higher mortality compared to non-edge areas. These habitat changes (edge effects) can also have a considerable impact on ecosystem processes such as carbon and water balance, which in turn have a major impact on human activities. Also, the disruption of ecological interactions caused by the loss of animals (defaunation) has the potential of impacting human influenced fragmented landscapes much deeper than only through the microclimate-induced increased tree mortality caused by edge effects. Since large animals are most vulnerable in these landscapes, large tree seeds which are dispersed by them become more vulnerable to pre-dispersal seed predation, reducing tree recruitment in latter stages. Also, the loss large animals which predate on smaller animals can cause relaxation of top-down controls of this small seed-eating animal group, further impacting tree recruitment. Even though detailed and long term studies were developed on the topic of edge effects at local scale, understanding edge effect characteristics in fragmented forests on larger scales and finding indicators for its impact is crucial for predicting habitat loss and developing management options. Using field data from a long-term fragmented landscape in the Brazilian Northeastern Atlantic Forest, and the Forest Model FORMIND, we were able to visualize the time scale in which edge effects influence tropical forests by performing 500-year simulations. We observed changes in community composition, aboveground biomass, total evapotranspiration and total runoff, and evaluate the consequences of defaunation on biomass retention of a Brazilian Northeastern Atlantic Forest tree community by varying pre- and post-dispersal seed predation pressures in fragmented and intact scenarios. Finally, we evaluate the spatial and temporal dimensions of edge effects in large areas using remote sensing by using tree cover as an indicator of habitat quality and in relation to edge distance. FORMIND simulations show forest biomass degradation lasting around 100 years. If edge effects cease, recovery of biomass lasts around 150 years. Carbon loss is especially intense during the first five years after fragmentation, resulting in a decline of over 5 Mg C ha−1 y−1. Finally, edges of large fragments face an evapotranspiration loss of 43% and total runoff gains of 57% in relation to core areas of large fragments. The effects of large seed loss are only notable after 80% seed reduction or 10 times higher predation rates, but can cause the extirpation of this species group and up to 29% less biomass retention for the area. Our remote sensing results show that for all 11 LANDSAT scenes pixel neighborhood variation of tree cover is much higher in the vicinity of forest edges in relation to forest interior. Our studies suggest that fragmented landscapes can be of significantly lower value in terms of ecosystem services, and that defaunation has the potential to reduce biomass retention and species richness through dispersal collapse. Satellite based estimations of tree cover at edges suggest a maximum distance for edge effects and can indicate the location of unaffected core areas. However, tree cover patterns in relation to fragment edge distance vary according to the analyzed region, and maximum edge distance may differ according to local conditions.

Forest Fragmentation

Ecological Modelling

Remote Sensing

Waldfragmentierung

Ökologisch Modellierung

Fernerkundung

ddc:000

Landschaftszerschneidung und Waldfragmentierung - neue Indikatoren des IÖR-Monitors

Walz, Ulrich, Krüger, Tobias, Schumacher, Ulrich

13 October 2014

Der Beitrag stellt neue Indikatoren zur Analyse und zum Monitoring der Zerschneidung von Freiräumen sowie zur Fragmentierung von Wald- und Forstflächen vor, die bestehende bundesweite Indikatorensysteme ergänzen sollen. Die Ergebnisse werden beispielhaft auf der Ebene von Gemeinden, Kreisen und Raumordnungsregionen präsentiert. Sie zeigen u. a., dass es deutschlandweit nur noch ca. 140 zusammenhängende Wälder mit einer Größe von mehr als 50 km² gibt.

Indikatoren

Waldfragmentierung

Monitoring

Indicator

Landscape Fragmentation

Analysis

ddc:710

ddc:550

ddc:910

rvk:RC 20223

rvk:RC 20906

Deutschland

Monitoring

Freifläche

Freiraum

Landschaftszerschneidung

Analyse

Landschaftszerschneidung und Waldfragmentierung - neue Indikatoren des IÖR-Monitors

Walz, Ulrich, Krüger, Tobias, Schumacher, Ulrich

January 2011

Der Beitrag stellt neue Indikatoren zur Analyse und zum Monitoring der Zerschneidung von Freiräumen sowie zur Fragmentierung von Wald- und Forstflächen vor, die bestehende bundesweite Indikatorensysteme ergänzen sollen. Die Ergebnisse werden beispielhaft auf der Ebene von Gemeinden, Kreisen und Raumordnungsregionen präsentiert. Sie zeigen u. a., dass es deutschlandweit nur noch ca. 140 zusammenhängende Wälder mit einer Größe von mehr als 50 km² gibt.

info:eu-repo/classification/ddc/710

ddc:710

info:eu-repo/classification/ddc/550

ddc:550

info:eu-repo/classification/ddc/910

ddc:910

Indikatoren, Waldfragmentierung