StrucNet: a global network for automated vegetation structure monitoring

Calders, Kim; Brede, Benjamin; Newnham, Glenn; Culvenor, Darius; Armston, John; Bartholomeus, Harm; Griebel, Anne; Hayward, Jodie; Junttila, Samuli; Lau, Alvaro; Levick, Shaun; Morrone, Rosalinda; Origo, Niall; Pfeifer, Marion; Verbesselt, Jan; Herold, Martin; Sankey, Temuulen; Murray, Nicholas

doi:10.1002/rse2.333

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StrucNet: a global network for automated vegetation structure monitoring

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Calders, Kim
External Organizations;

/persons/resource/benbrede

Brede, Benjamin
1.4 Remote Sensing, 1.0 Geodesy, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum;

Newnham, Glenn
External Organizations;

Culvenor, Darius
External Organizations;

Armston, John
External Organizations;

Bartholomeus, Harm
External Organizations;

Griebel, Anne
External Organizations;

Hayward, Jodie
External Organizations;

Junttila, Samuli
External Organizations;

Lau, Alvaro
External Organizations;

Levick, Shaun
External Organizations;

Morrone, Rosalinda
External Organizations;

Origo, Niall
External Organizations;

Pfeifer, Marion
External Organizations;

Verbesselt, Jan
External Organizations;

/persons/resource/herold

Herold, Martin
1.4 Remote Sensing, 1.0 Geodesy, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum;

Sankey, Temuulen
External Organizations;

Murray, Nicholas
External Organizations;

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5016310.pdf
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Zitation

Calders, K., Brede, B., Newnham, G., Culvenor, D., Armston, J., Bartholomeus, H., Griebel, A., Hayward, J., Junttila, S., Lau, A., Levick, S., Morrone, R., Origo, N., Pfeifer, M., Verbesselt, J., Herold, M. (2023): StrucNet: a global network for automated vegetation structure monitoring. - Remote Sensing in Ecology and Conservation, 9, 5, 587-598.
https://doi.org/10.1002/rse2.333

Zitierlink: https://gfzpublic.gfz-potsdam.de/pubman/item/item_5016310

Zusammenfassung

Climate change and increasing human activities are impacting ecosystems and their biodiversity. Quantitative measurements of essential biodiversity variables (EBV) and essential climate variables are used to monitor biodiversity and carbon dynamics and evaluate policy and management interventions. Ecosystem structure is at the core of EBVs and carbon stock estimation and can help to inform assessments of species and species diversity. Ecosystem structure is also used as an indirect indicator of habitat quality and expected species richness or species community composition. Spaceborne measurements can provide large-scale insight into monitoring the structural dynamics of ecosystems, but they generally lack consistent, robust, timely and detailed information regarding their full three-dimensional vegetation structure at local scales. Here we demonstrate the potential of high-frequency ground-based laser scanning to systematically monitor structural changes in vegetation. We present a proof-of-concept high-temporal ecosystem structure time series of 5 years in a temperate forest using terrestrial laser scanning (TLS). We also present data from automated high-temporal laser scanning that can allow upscaling of vegetation structure scanning, overcoming the limitations of a typically opportunistic TLS measurement approach. Automated monitoring will be a critical component to build a network of field monitoring sites that can provide the required calibration data for satellite missions to effectively monitor the structural dynamics of vegetation over large areas. Within this perspective, we reflect on how this network could be designed and discuss implementation pathways.