Detecting an Invasive Shrub in Deciduous Forest Understories Using Remote Sensing
about
Correlating species and spectral diversities using hyperspectral remote sensing in early-successional fields.White-tailed deer browse on an invasive shrub with extended leaf phenology meets assumptions of an apparent competition hypothesis.Timing Is Important: Unmanned Aircraft vs. Satellite Imagery in Plant Invasion MonitoringComparing Pixel and Object-Based Approaches to Map an Understorey Invasive Shrub in Tropical Mixed Forests.Rainfall variability counteracts N addition by promoting invasive Lonicera maackii and extending phenology in prairie.Invasive Shrub Mapping in an Urban Environment from Hyperspectral and LiDAR-Derived Attributes.Photographic assessment of temperate forest understory phenology in relation to springtime meteorological drivers.The impact of the invasive shrub Lonicera maackii on the decomposition dynamics of a native plant community.Identifying invasive plant species using field spectroscopy in the VNIR region in successional systems of north-central VirginiaDistinguishing Early Successional Plant Communities Using Ground-Level Hyperspectral DataPotential of remote sensing to predict species invasionsLong-Distance Dispersal and Diffusion in the Invasion of Lonicera maackiiRemote detection of invasive plants: a review of spectral, textural and phenological approachesHabitat invasion risk assessment based on Landsat 5 data, exemplified by the shrub Rosa rubiginosa in southern ArgentinaBenefits of hyperspectral remote sensing for tracking plant invasionsWill remote sensing shape the next generation of species distribution models?Autumn olive (Elaeagnus umbellata) presence and proliferation on former surface coal mines in Eastern USA
P2860
Q30352671-FC9529B6-3AD9-4E6A-8C60-D07016776B25Q33580820-3649DA53-A7F1-40A1-A77C-6D79743FBA8EQ33740649-13E6610B-9696-4008-A35A-E8FD87FE223FQ33744226-F6C1A8CF-0152-429B-9B62-EB8C2D758BE3Q36332596-0D7A17E8-3A3B-45F1-9E89-B7120E221BE9Q37355159-F3D8F7DD-DF51-446B-96AB-35F6391B942CQ39982522-BBEFECF1-3875-456C-B639-08DF1AA530C7Q51172237-9F90F5F1-50ED-430C-9EBB-402CCD3CFC36Q56366879-57742B81-8644-4A36-9CCC-464B8E006B8EQ56423275-4ABAA420-9D61-4842-AF20-4E7DA5BD7058Q56433633-396ACCB2-C925-437A-B38A-CC1EC1B85CB4Q56450038-ED0E429D-A744-4A49-824E-5006FDD34532Q56450501-DCF2738B-066C-4BB6-AB12-935965C9DEA2Q56709676-F63030E8-2389-4AA2-8967-53356C56DBE4Q56754578-FD3427ED-2801-48C0-9BFB-2A2E098BB793Q58097100-A199A72B-23F9-4524-B6A4-5D2B7D11193EQ58229671-D107F913-BA41-455B-BAA5-2BE71BA5172C
P2860
Detecting an Invasive Shrub in Deciduous Forest Understories Using Remote Sensing
description
wetenschappelijk artikel
@nl
наукова стаття, опублікована в жовтні 2009
@uk
name
Detecting an Invasive Shrub in Deciduous Forest Understories Using Remote Sensing
@en
Detecting an Invasive Shrub in Deciduous Forest Understories Using Remote Sensing
@nl
type
label
Detecting an Invasive Shrub in Deciduous Forest Understories Using Remote Sensing
@en
Detecting an Invasive Shrub in Deciduous Forest Understories Using Remote Sensing
@nl
prefLabel
Detecting an Invasive Shrub in Deciduous Forest Understories Using Remote Sensing
@en
Detecting an Invasive Shrub in Deciduous Forest Understories Using Remote Sensing
@nl
P2093
P2860
P356
P1433
P1476
Detecting an Invasive Shrub in Deciduous Forest Understories Using Remote Sensing
@en
P2093
Bryan N. Wilfong
David L. Gorchov
Mary C. Henry
P2860
P304
P356
10.1614/WS-09-012.1
P577
2009-10-01T00:00:00Z