Mapping snags and understory shrubs for a LiDAR-based assessment of wildlife habitat suitability

Martinuzzi, Sebastián; Vierling, Lee A.; Gould, William A.; Falkowski, Michael J.; Evans, Jeffrey S.; Hudak, Andrew T.; Vierling, Kerri T.

doi:10.1016/j.rse.2009.07.002

Cited by 265 publications

(218 citation statements)

References 69 publications

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“…In either case, the ecologist is provided with information such as forest growth (e.g., Yu et al, 2006); valuable structural information where the vertical distribution of the canopy, for example, can be the most important variable for the accurate prediction of bird species richness (Goetz et al, 2007); habitat assessment variables (Hill et al, 2004;Clawges et al, 2008;Martinuzzi et al, 2009) and biomass assessment for input into initiatives such as the UN-REDD programme (Tollefson, 2009). In addition to work using ALS both spaceborne lidar systems (e.g., ICESat/ GLAS) and terrestrial lidar systems (TLS) have demonstrated potential for provision of ecological information.…”

Section: Remote Sensing: Targeted Mappingmentioning

confidence: 99%

An overview of recent remote sensing and GIS based research in ecological informatics

Boyd

Foody

2011

Ecological Informatics

118

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This article provides an overview of some of the recent research in ecological informatics involving remote sensing and GIS. Attention focuses on a selected range of issues including topics such as the nature of remote sensing data sets, issues of accuracy and uncertainty, data visualization and sharing activities as well as developments in aspects of ecological modeling research. It is shown that considerable advances have been made over recent years and foundations for future research established. BackgroundGeotechnology has been couched as one of the three "mega-technologies" of the 21 st century, along with nanotechnology and biotechnology (Gewin, 2004). On the cusp of the second decade of the 21 st century it is evident that recent developments in the geotechnologies of Geographic Information Science (GIS) and remote sensing have had a substantial impact on ecological research, providing spatial data and associated information to enable the further understanding of ecological systems (Rundell et al., 2009). In a digital society there is sometimes an expectation that information is just a click away and this may apply to spatial information in the domain of ecological informatics. Indeed, it has been in the last five years that developments in and relating to the fields of GIS and remote sensing, such as those seen in internet technologies (e.g., Web 2.0; high performance communication networks; Brunt et al., 2007), sensing technology (e.g., quantum well infrared photodetectors; Krabach, 2000), data standards and interoperability (e.g., OGC® KML 2.2) and spatially explicit modeling (e.g., Osborne et al., 2007), have resulted in the revelation of previously unobservable phenomena and posing of what might be termed second generation of ecological questions. During this time we have also seen more support for the open exchange of data and software and infrastructure for location based services. This paper serves as a review of some of the recent developments in GIS and remote sensing that have been or promises to be of benefit to ecological informatics. The subjects addressed are necessarily selective and limited in scope, drawing on topics of interest to us and, we hope, to you.

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Section: Remote Sensing: Targeted Mappingmentioning

confidence: 99%

An overview of recent remote sensing and GIS based research in ecological informatics

Boyd

Foody

2011

Ecological Informatics

118

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“…'Forest' is a comprehensive description that has the greatest biodiversity among all terrestrial ecosystems (Krishnaswamy et al 2009). For example, tropical rainforests, which cover only 7% of the total land area, contain 50%À70% of all global terrestrial species (Martinuzzi et al 2009). Forests contain the most abundant biological resources and thus play an irreplaceable role in maintaining ecological balance on Earth.…”

Section: Introductionmentioning

confidence: 99%

Mapping a burned forest area from Landsat TM data by multiple methods

Chen

Moriya

Sakai

et al. 2014

Geomatics, Natural Hazards and Risk

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Forest fire is one of the dominant disturbances in boreal forests. It is the primary process responsible for organizing the physical and biological attributes of the boreal biome, shaping landscape diversity and influencing biogeochemical cycles. The Greater Hinggan Mountain of China is rich in forest resources while suffers from a high incidence of forest fires simultaneously. In this study, focusing on the most serious forest fire in the history of P. R. China which occurred in this region, we made use of two Landsat-5 TM (Thematic Mapper) images, and proposed to map the overall burned area and burned forest area by multiple methods. During the mapping, the fire perimeter, as well as rivers, roads and urban areas were first extracted and masked visually, and then four indices of Normalized Difference Vegetation Index, Enhanced Vegetation Index, Vegetation Fractional Cover and Disturbance Index were calculated. For each index, the optimal threshold for separating burned from unburned forest area was determined using their histograms. For comparison, threshold segmentation using single-band reflectance was performed, in addition to a Maximum Likelihood Classifier (MLC) based supervised classification of all features and forest area alone; their accuracies were also evaluated and analysed. Among all the methods compared here, mapping by EVI threshold segmentation proved to be optimal by the comparisons of overall accuracy (99.78%) and the kappa coefficient (0.9946). Finally, the calculated burned area and burned forest area were compared with the values from official statistics. Compared with the classical methods used to report official statistics on burned areas, the remote sensing-based mapping is more objective and efficient, less labour-and time-consuming, and more repeatable.

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“…Th e mean slope too was positively related to bird species richness, which may be related to the infl uences of slope on vegetation composition and structure (Martinuzzi et al, 2009) and it may be as well that in steeper places birds are less aff ected by disturbance.…”

Section: Discussionmentioning

confidence: 99%

Terrestrial Vertebrates of Post-Quarrying Sites in the Donbas Region of Ukraine

Ulyura¹,

Tytar²

2017

Vestnik Zoologii

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Terrestrial Vertebrates of Post-Quarrying Sites in the Donbas Region of Ukraine. Ulyura, E., Tytar, V.-An inventory of terrestrial vertebrates in six post-quarrying sites in the Donbas Region of Ukraine revealed 104 species (2 amphibian, 6 reptile, 78 bird and 18 mammal species). Th e potential of these sites was confi rmed for sustaining and conservation of numerous species of terrestrial vertebrates; some relationships were considered between environmental heterogeneity and species richness.

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Mapping snags and understory shrubs for a LiDAR-based assessment of wildlife habitat suitability

Cited by 265 publications

References 69 publications

An overview of recent remote sensing and GIS based research in ecological informatics

An overview of recent remote sensing and GIS based research in ecological informatics

Mapping a burned forest area from Landsat TM data by multiple methods

Terrestrial Vertebrates of Post-Quarrying Sites in the Donbas Region of Ukraine

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