The area of North American forests affected by gypsy moth defoliation continues to expand despite efforts to slow the spread. With the increased area of infestation, ecological, environmental and economic concerns about gypsy moth disturbance remain significant, necessitating coordinated, repeatable and comprehensive monitoring of the areas affected. In this study, our primary objective was to estimate the magnitude of defoliation using Moderate Resolution Imaging Spectroradiometer (MODIS) imagery for a gypsy moth outbreak that occurred in the US central Appalachian Mountains in 2000 and 2001. We focused on determining the appropriate spectral MODIS indices and temporal compositing method to best monitor the effects of gypsy moth defoliatio...
Quantifying tree defoliation by insects over large areas is a major challenge in forest management, ...
An automated system for conducting annual gypsy moth defoliation surveys using LANDSAT MSS data and ...
<p>This dataset accompanies our 2017 manuscript "Near-real-time monitoring of insect defoliation usi...
The gypsy moth is one of the most devastating forest pests in North America. In late spring, gypsy m...
This viewgraph presentation reviews a project, the goal of which is to study the potential of MODIS ...
Insect damage is a general problem that disturbs the growth of forests, causing economic losses and ...
The effectiveness of using LANDSAT-1 multispectral digital data and imagery, supplemented by ground ...
<p><em>Aim of study:</em> This paper reviews the global research during the last 6 years (2007-2012)...
for incr ce fect Re the e sp effects of gypsy moth defoliation. We tested MODIS-based Normalized Dif...
Introduced insects and pathogens impact millions of acres of forested land in the United States each...
We investigated if coarse-resolution satellite data from the MODIS sensor can be used for regional m...
The gypsy moth has destroyed increasing amounts of foliage over the past few years. In an effort to ...
------------------------------------------------------------------------------------- THIS REPOSITO...
The goal of this thesis is to build a near-real time defoliation detector that could be used, early ...
Spruce budworm (SBW) is the most destructive forest pest in eastern forests of North America. Mappin...
Quantifying tree defoliation by insects over large areas is a major challenge in forest management, ...
An automated system for conducting annual gypsy moth defoliation surveys using LANDSAT MSS data and ...
<p>This dataset accompanies our 2017 manuscript "Near-real-time monitoring of insect defoliation usi...
The gypsy moth is one of the most devastating forest pests in North America. In late spring, gypsy m...
This viewgraph presentation reviews a project, the goal of which is to study the potential of MODIS ...
Insect damage is a general problem that disturbs the growth of forests, causing economic losses and ...
The effectiveness of using LANDSAT-1 multispectral digital data and imagery, supplemented by ground ...
<p><em>Aim of study:</em> This paper reviews the global research during the last 6 years (2007-2012)...
for incr ce fect Re the e sp effects of gypsy moth defoliation. We tested MODIS-based Normalized Dif...
Introduced insects and pathogens impact millions of acres of forested land in the United States each...
We investigated if coarse-resolution satellite data from the MODIS sensor can be used for regional m...
The gypsy moth has destroyed increasing amounts of foliage over the past few years. In an effort to ...
------------------------------------------------------------------------------------- THIS REPOSITO...
The goal of this thesis is to build a near-real time defoliation detector that could be used, early ...
Spruce budworm (SBW) is the most destructive forest pest in eastern forests of North America. Mappin...
Quantifying tree defoliation by insects over large areas is a major challenge in forest management, ...
An automated system for conducting annual gypsy moth defoliation surveys using LANDSAT MSS data and ...
<p>This dataset accompanies our 2017 manuscript "Near-real-time monitoring of insect defoliation usi...