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Library Employing lidar data to identify butterfly habitat characteristics of four contrasting butterfly species across a diverse landscape

Employing lidar data to identify butterfly habitat characteristics of four contrasting butterfly species across a diverse landscape

Employing lidar data to identify butterfly habitat characteristics of four contrasting butterfly species across a diverse landscape

Resource information

Date of publication
December 2013
Resource Language
ISBN / Resource ID
AGRIS:US201600057333
Pages
354-363

Lidar and orthophotograph-derived land cover are combined with in situ vegetation measurements to assess habitat characteristics typifying four species of butterflies with differing habitat preferences across a large spatial extent (∼30,000 ha) in northern Idaho, USA. Lidar data are employed to characterize both vegetation structure and topography, whereas digital orthophotographs and in situ vegetation measurements are employed to quantify surrounding land use and larval host plant cover, respectively. Non-metric multidimensional scaling (NMDS) ordination identified nine environmental variables that were strongly related to butterfly species composition and community structure. Logistic and standard regression models were developed based on these variables to predict the presence and density of each butterfly species, respectively. We found that lidar-derived variables described more butterfly habitat characteristics than orthophotograph-derived variables or ground measurements, demonstrating the value of lidar in describing diverse habitat characteristics. However, the strongest models observed in our study use both the local- and landscape-scale variables derived from both remote-sensing data and in situ ground measurements. We conclude that combining lidar and other remotely sensed data with in situ vegetation measurements allows for an effective in-depth, large-area evaluation of local- and landscape-scale butterfly habitat structure across a diverse ecosystem.

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Authors and Publishers

Author(s), editor(s), contributor(s)

Hess, Anna N.
Falkowski, Michael J.
Webster, Christopher R.
Storer, Andrew J.
Pocewicz, Amy
Martinuzzi, Sebastiàn

Publisher(s)
Data Provider
Geographical focus