Journal article
Technical note: Rapid image-based field methods improve the quantification of termite mound structures and greenhouse-gas fluxes
PA Nauer, E Chiri, D De Souza, LB Hutley, SK Arndt
Biogeosciences | COPERNICUS GESELLSCHAFT MBH | Published : 2018
Abstract
Termite mounds (TMs) mediate biogeochemical processes with global relevance, such as turnover of the important greenhouse gas methane (CH4). However, the complex internal and external morphology of TMs impede an accurate quantitative description. Here we present two novel field methods, photogrammetry (PG) and cross-sectional image analysis, to quantify TM external and internal mound structure of 29TMs of three termite species. Photogrammetry was used to measure epigeal volume (VE), surface area (AE) and mound basal area (AB) by reconstructing 3-D models from digital photographs, and compared against a waterdisplacement method and the conventional approach of approximating TMs by simple geom..
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Grants
Awarded by Australian Research Council
Funding Acknowledgements
The study was supported by funding from the Australian Research Council (ARC) grants DP120101735 and LP100100073. Philipp Nauer is grateful to the Swiss National Science Foundation (SNF) for his Early Postdoc. Mobility fellowship P2EZP3_155596. The authors sincerely thank Matthew Northwood for technical assistance, Linda Luck for help with field work, Theodore Evans for help with termite identification, and Andre Backes for assistance with 3-D fractal dimension calculations.