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In April 2016 Manchester eScholar was replaced by the University of Manchester’s new Research Information Management System, Pure. In the autumn the University’s research outputs will be available to search and browse via a new Research Portal. Until then the University’s full publication record can be accessed via a temporary portal and the old eScholar content is available to search and browse via this archive.

Empirical Modelling of Vegetation Abundance from Airborne Hyperspectral Data for Upland Peatland Restoration Monitoring

Cole, Beth; McMorrow, Julia M; Evans, Martin G

Remote Sensing. 2014;6(1):716-739.

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Abstract

Peatlands are important terrestrial carbon stores. Restoration of degraded peatlands to restore ecosystem services is a major area of conservation effort. Monitoring is crucial to judge the success of this restoration. Remote sensing is a potential tool to provide landscape-scale information on the habitat condition. Using an empirical modelling approach, this paper aims to use airborne hyperspectral image data with ground vegetation survey data to model vegetation abundance for a degraded upland blanket bog in the United Kingdom (UK), which is undergoing restoration. A predictive model for vegetation abundance of Plant Functional Types (PFT) was produced using a Partial Least Squares Regression (PLSR) and applied to the whole restoration site. A sensitivity test on the relationships between spectral data and vegetation abundance at PFT and single species level confirmed that PFT was the correct scale for analysis. The PLSR modelling allows selection of variables based upon the weighted regression coefficient of the individual spectral bands, showing which bands have the most influence on the model. These results suggest that the SWIR has less value for monitoring peatland vegetation from hyperspectral images than initially predicted. RMSE values for the validation data range between 10% and 16% cover, indicating that the models can be used as an operational tool, considering the subjective nature of existing vegetation survey results. These predicted coverage images are the first quantitative landscape scale monitoring results to be produced for the site. High resolution hyperspectral mapping of PFTs has the potential to assess recovery of peatland systems at landscape scale for the first time.

Bibliographic metadata

Type of resource:
Content type:
Journal article
Publication status:
Published
Publication type:
Original research
Publication form:
Academic journal article
Author list:
Cole, B., McMorrow, J. and Evans, M
Author(s):
Collaborator(s):
Published date:
2014-01-09
Accepted date:
2013-12-31
Submitted date:
2013-11-22
Article title:
Empirical Modelling of Vegetation Abundance from Airborne Hyperspectral Data for Upland Peatland Restoration Monitoring
Language:
eng
Journal title:
Remote Sensing
ISSN:
2072-4292
Publisher:
M D P I AG
Volume:
6
Issue:
1
Start page:
716
End page:
739
Total:
23
Pagination:
716-739
Digital Object Identifier:
10.3390/rs6010716
Related website(s):
  • Related website http://www.mdpi.com/2072-4292/6/1/716
Funding awarded to University:
  • NERC - RESNERC
Funder(s) acknowledged in this article?:
Yes
Funder acknowledgement:
Attached files embargo period:
Immediate release
Attached files release date:
17th October, 2014
Access state:
Active

Institutional metadata

University researcher(s):
Academic department(s):

Record metadata

Manchester eScholar ID:
uk-ac-man-scw:237255
Created by:
Mcmorrow, Julia
Created:
17th October, 2014, 11:38:08
Last modified by:
Kneen, Sarah
Last modified:
2nd November, 2015, 14:34:49

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