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Optical remote sensing has also been used to effectively monitor disturbance and recovery of Arctic vegetation following tundra fires, winter warming, herbivory, permafrost disturbance, and anthropogenic activities across the circumpolar Arctic.
Sep 1, 2020
This study explores the capability of satellite remote sensing to detect relatively rapid changes of vegetation cover in northern Fennoscandian regions in�...
This study explores the capability of satellite remote sensing to detect temporal changes in northern Fennoscandian regions through the application of a�...
PDF | This study explores the capability of satellite remote sensing to detect relatively rapid changes of vegetation cover in northern Fennoscandian.
This study explores the capability of satellite remote sensing to detect relatively rapid changes of vegetation cover in northern Fennoscandian regions in�...
ABSTRACT This study explores the capability of satellite remote sensing to detect temporal changes in northern Fennoscandian regions through the application of�...
Monitoring northern high latitude disturbances is pivotal, given not only their effects on ecological functions and impacts on surrounding ecosystems and�...
Nov 6, 2021 � We show that drone image analysis can be an asset for studying future vegetation state changes on local scales in Arctic tundra ecosystems.
... Environmental Disturbances Influencing Human Access to Ecosystem ... Monitoring and Assessing Cumulative Impacts on Western Canadian Arctic Ecosystems >>�...
Oct 20, 2022 � Ecosystems in the North American Arctic-Boreal Zone (ABZ) experience a diverse set of disturbances associated with wildfire, permafrost dynamics�...