4.3 Article

Characterizing Canopy Openness Across Large Forested Landscapes Using Spherical Densiometer and Smartphone Hemispherical Photography

期刊

JOURNAL OF FORESTRY
卷 120, 期 1, 页码 37-50

出版社

OXFORD UNIV PRESS INC
DOI: 10.1093/jofore/fvab046

关键词

Canopy openness; densiometer; forest structure; smartphone hemispherical photography; understory light environment

类别

资金

  1. US National Science Foundation [NSFBCS-GSS-1759724]
  2. Botanical Society of America
  3. New York Flora Association

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This study compared two popular methods for measuring canopy openness and found that the traditional spherical densiometer can effectively characterize canopy openness across diverse canopy conditions, while providing calibration for these two popular methods across diverse canopies.
Canopy openness is an important forest characteristic related to understory light environment and productivity. Although many methods exist to estimate canopy openness, comparisons of their performance tend to focus on relatively narrow ranges of canopy conditions and forest types. To address this gap, we compared two popular approaches for estimating canopy openness, traditional spherical densiometer and modern smartphone hemispherical photography, across a large range of canopy conditions (from closed canopy to large gaps) and forest types (from low-elevation broadleaf to high-elevation conifer forests) across four states in the northeastern United States. We took 988 field canopy openness measurements (494 per instrument) and compared them across canopy conditions using linear regression and t-tests. The extensive replication allowed us to quantify differences between the methods that may otherwise go unnoticed. Relative to the densiometer, smartphone photography overestimated low canopy openness (<10%) but it underestimated higher canopy openness (>10%), regardless of forest type. Study Implications: We compared two popular ways of measuring canopy openness (smartphone hemispherical photography and spherical densiometer) across a large range of forest structures encountered in the northeastern United States. We found that, when carefully applied, the traditional spherical densiometer can characterize canopy openness across diverse canopy conditions (including closed canopies) as effectively as modern smartphone canopy photography. Although smartphone photography reduced field measurement time and complexity, it was more susceptible to weather than the densiometer. Although selection of the right method depends on study objectives, we provide a calibration for these two popular methods across diverse canopies.

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