TY - JOUR
T1 - The status and future of essential geodiversity variables
AU - Schrodt, Franziska
AU - Vernham, Grant
AU - Bailey, Joseph
AU - Field, Richard
AU - Gordon, John E.
AU - Gray, Murray
AU - Hjort, Jan
AU - Hoorn, Carina
AU - Hunter Jr, Malcolm L.
AU - Larwood, Jonathan
AU - Lausch, Angela
AU - Monge-Ganuzas, Manu
AU - Miller, Stephanie
AU - van Ree, Derk
AU - Seijmonsbergen, Arie Christoffel
AU - Zarnetske, Phoebe L.
AU - Kissling, W. Daniel
N1 - Funding: This study was supported by the Royal Society Theo Murphy Meeting grant 'Geodiversity Science for Society' to FS, MH, DvR, WDK, RF and JJB.
PY - 2024/4/1
Y1 - 2024/4/1
N2 - Rapid environmental change, natural resource overconsumption and increasing concerns about ecological sustainability have led to the development of ‘Essential Variables' (EVs). EVs are harmonized data products to inform policy and to enable effective management of natural resources by monitoring global changes. Recent years have seen the instigation of new EVs beyond those established for climate, oceans and biodiversity (ECVs, EOVs and EBVs), including Essential Geodiversity Variables (EGVs). EGVs aim to consistently quantify and monitor heterogeneity of Earth-surface and subsurface abiotic features, including geology, geomorphology, hydrology and pedology. Here we assess the status and future development of EGVs to better incorporate geodiversity into policy and sustainable management of natural resources. Getting EGVs operational requires better consensus on defining geodiversity, investments into a governance structure and open platform for curating the development of EGVs, advances in harmonizing in situ measurements and linking heterogeneous databases, and development of open and accessible computational workflows for global digital mapping using machine-learning techniques. Cross-disciplinary collaboration and partnerships with governmental and private organizations are needed to ensure the successful development and uptake of EGVs across science and policy.
AB - Rapid environmental change, natural resource overconsumption and increasing concerns about ecological sustainability have led to the development of ‘Essential Variables' (EVs). EVs are harmonized data products to inform policy and to enable effective management of natural resources by monitoring global changes. Recent years have seen the instigation of new EVs beyond those established for climate, oceans and biodiversity (ECVs, EOVs and EBVs), including Essential Geodiversity Variables (EGVs). EGVs aim to consistently quantify and monitor heterogeneity of Earth-surface and subsurface abiotic features, including geology, geomorphology, hydrology and pedology. Here we assess the status and future development of EGVs to better incorporate geodiversity into policy and sustainable management of natural resources. Getting EGVs operational requires better consensus on defining geodiversity, investments into a governance structure and open platform for curating the development of EGVs, advances in harmonizing in situ measurements and linking heterogeneous databases, and development of open and accessible computational workflows for global digital mapping using machine-learning techniques. Cross-disciplinary collaboration and partnerships with governmental and private organizations are needed to ensure the successful development and uptake of EGVs across science and policy.
KW - Geodiversity
KW - Essential variables
KW - Natural resource management
KW - Environmental policy
U2 - 10.1098/rsta.2023.0052
DO - 10.1098/rsta.2023.0052
M3 - Article
SN - 1364-503X
VL - 382
JO - Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences
JF - Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences
IS - 2269
M1 - 20230052
ER -