Airborne Laser Scanning Outperforms the Alternative 3D Techniques in Capturing Variation in Tree Height and Forest Density in Southern Boreal Forests

Tutkimustuotos: Lehtiartikkelivertaisarvioitu

Tutkijat

  • Mikko Vastaranta
  • Tuomas Yrttimaa
  • Ninni Saarinen
  • Xiaowei Yu
  • Mika Karjalainen
  • Kimmo Nurminen
  • Kirsi Karila
  • Ville Kankare
  • Ville Luoma
  • Jiri Pyörälä
  • Topi Tanhuanpää
  • Harri Kaartinen
  • Eija Honkavaara
  • Anttoni Jaakkola
  • Xinlian Liang
  • Yunsheng Wang
  • Masato Katoh
  • Michael A. Wulder
  • Markus Holopainen

Organisaatiot

  • University of Helsinki
  • University of Eastern Finland
  • Finnish Geospatial Research Institute
  • University of Turku
  • Shinshu University
  • Natural Resources Canada

Kuvaus

The objective of this study is to better understand the relationship between forest structure and point cloud features generated from certain airborne and space borne sensors. Point cloud features derived from airborne laser scanning (ALS), aerial imagery (AI), WorldView-2 imagery (WV2), TerraSAR-X, and Tandem-X (TDX) data were classified as features characterizing forest height and density as well as variation in tree height. Correlations between these features and field-measured attributes describing forest height, density and tree height variation were investigated at plot scale. From the field-measured attributes, basal area (G) and the number of trees per unit area (N) were used as forest density indicators whereas maximum tree height (H-max) and standard deviation in tree height (H-std) were used as indicators for forest height and tree height variation, respectively. In the analyses, field observations from 91 sample plots (32 m x 32 m) located in southern Finland were used. Even though ALS was found to be the most accurate data source in characterizing forest structure, AI, WV2, and TDX were also capable of characterizing forest height at plot scale with correlation coefficients stronger than 0.85. However, ALS was the only data source capable of providing separate features for characterizing also the variation in tree height and forest density. Features related to forest height, generated from the other data sources besides ALS, also provided strongest correlation with the forest density attributes and variation in tree height, in addition to H-max. Due to these more diverse characterization capabilities, forest structural attributes can be predicted more accurately by using ALS, also in the areas where the relation between the attributes of interest is not solely dependent on forest height, compared to the other investigated 3D remote sensing data sources.

Yksityiskohdat

AlkuperäiskieliEnglanti
Sivut268-277
Sivumäärä10
JulkaisuBALTIC FORESTRY
Vuosikerta24
Numero2
TilaJulkaistu - marraskuuta 2018
OKM-julkaisutyyppiA1 Julkaistu artikkeli, soviteltu

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