Near real-time monitoring of insect induced defoliation in subalpine birch forests with MODIS derived NDVI
Olsson, Per Ola LU ; Lindström, Johan LU
and Eklundh, Lars
LU
(2016)
In Remote Sensing of Environment
181.
p.42-53
- Abstract
Forestry and nature conservation can benefit from rapid on-line information on forest disturbances, such as insect attacks. This type of information would facilitate timely field studies and enable more rapid counter measures, as well as enable studies of the dynamics of an insect outbreak. In this study we developed a method based on MODIS derived NDVI for near real-time monitoring of insect induced forest defoliation in a subalpine birch forest in northern Sweden. The method is based on deviations from a seasonal trajectory of NDVI representing forest conditions without disturbances. A Kalman filter is applied to handle noise and satellite-derived NDVI observations of low quality, and cumulative sums (CUSUM) of the deviations from the... (More)
Forestry and nature conservation can benefit from rapid on-line information on forest disturbances, such as insect attacks. This type of information would facilitate timely field studies and enable more rapid counter measures, as well as enable studies of the dynamics of an insect outbreak. In this study we developed a method based on MODIS derived NDVI for near real-time monitoring of insect induced forest defoliation in a subalpine birch forest in northern Sweden. The method is based on deviations from a seasonal trajectory of NDVI representing forest conditions without disturbances. A Kalman filter is applied to handle noise and satellite-derived NDVI observations of low quality, and cumulative sums (CUSUM) of the deviations from the seasonal trajectory representing undisturbed forests are used to detect disturbances. An annual offset of the seasonal trajectory is introduced in CUSUM to handle inter-annual variability in the start of season. Evaluation of the method showed that 74% of the defoliation was detected with a misclassification of undisturbed areas of 39% in MODIS pixels with at least 50% birch forest cover. The ability of the method to detect defoliation can be adjusted to fit the purpose of a study; with a higher threshold applied, 100% of the defoliation in the evaluation data was detected with 56% of the undisturbed areas misclassified as defoliated. The method also facilitates studies of the intra-seasonal temporal dynamics of an insect outbreak, which is a major advantage compared to methods that classifies pixels into undisturbed or defoliated for an entire season. Furthermore, the method can be extended to monitor within-season refoliation after an insect outbreak.
(Less)
- author
- Olsson, Per Ola
LU
; Lindström, Johan
LU
and Eklundh, Lars
LU
- organization
- publishing date
- 2016-08
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- Insect defoliation monitoring, Kalman filter, MODIS, NDVI, Near real-time
- in
- Remote Sensing of Environment
- volume
- 181
- pages
- 12 pages
- publisher
- Elsevier
- external identifiers
-
- scopus:84962786755
- wos:000377730200004
- ISSN
- 0034-4257
- DOI
- 10.1016/j.rse.2016.03.040
- language
- English
- LU publication?
- yes
- id
- 3435f763-9d66-48c4-9256-8c738ccaa8c0
- date added to LUP
- 2016-04-28 15:58:37
- date last changed
- 2024-07-12 05:50:02
@article{3435f763-9d66-48c4-9256-8c738ccaa8c0,
abstract = {{<p>Forestry and nature conservation can benefit from rapid on-line information on forest disturbances, such as insect attacks. This type of information would facilitate timely field studies and enable more rapid counter measures, as well as enable studies of the dynamics of an insect outbreak. In this study we developed a method based on MODIS derived NDVI for near real-time monitoring of insect induced forest defoliation in a subalpine birch forest in northern Sweden. The method is based on deviations from a seasonal trajectory of NDVI representing forest conditions without disturbances. A Kalman filter is applied to handle noise and satellite-derived NDVI observations of low quality, and cumulative sums (CUSUM) of the deviations from the seasonal trajectory representing undisturbed forests are used to detect disturbances. An annual offset of the seasonal trajectory is introduced in CUSUM to handle inter-annual variability in the start of season. Evaluation of the method showed that 74% of the defoliation was detected with a misclassification of undisturbed areas of 39% in MODIS pixels with at least 50% birch forest cover. The ability of the method to detect defoliation can be adjusted to fit the purpose of a study; with a higher threshold applied, 100% of the defoliation in the evaluation data was detected with 56% of the undisturbed areas misclassified as defoliated. The method also facilitates studies of the intra-seasonal temporal dynamics of an insect outbreak, which is a major advantage compared to methods that classifies pixels into undisturbed or defoliated for an entire season. Furthermore, the method can be extended to monitor within-season refoliation after an insect outbreak.</p>}},
author = {{Olsson, Per Ola and Lindström, Johan and Eklundh, Lars}},
issn = {{0034-4257}},
keywords = {{Insect defoliation monitoring; Kalman filter; MODIS; NDVI; Near real-time}},
language = {{eng}},
pages = {{42--53}},
publisher = {{Elsevier}},
series = {{Remote Sensing of Environment}},
title = {{Near real-time monitoring of insect induced defoliation in subalpine birch forests with MODIS derived NDVI}},
url = {{http://dx.doi.org/10.1016/j.rse.2016.03.040}},
doi = {{10.1016/j.rse.2016.03.040}},
volume = {{181}},
year = {{2016}},
}