Framing the concept of satellite remote sensing essential biodiversity variables: Challenges and future directions

Nathalie Pettorelli; Martin Wegmann; Andrew Skidmore; Sander Mücher; Terence P. Dawson; Miguel Fernandez; Richard Lucas; Michael E. Schaepman; Tiejun Wang; Brian O'Connor; Robert H. G. Jongman; Pieter Kempeneers; Ruth Sonnenschein; Allison K. Leidner; Monika Böhm; Kate S. He; Harini Nagendra; Grégoire Dubois; Temilola Fatoyinbo; Matthew C. Hansen; Marc Paganini; Helen M. de Klerk; Gregory P. Asner; Jeremy T. Kerr; Anna B. Estes; Dirk S. Schmeller; Uta Heiden; Duccio Rocchini; Henrique M. Pereira; Eren Turak; Nestor Fernandez; Angela Lausch; Moses A. Cho; Domingo Alcaraz-Segura; Mélodie A. McGeoch; Woody Turner; Andreas Mueller; Véronique St-Louis; Johannes Penner; Petteri Vihervaara; Alan Belward; Belinda Reyers; Gary N. Geller

doi:10.1002/rse2.15

Framing the concept of satellite remote sensing essential biodiversity variables: Challenges and future directions

Nathalie Pettorelli
, Martin Wegmann
, Andrew Skidmore
, Sander Mücher
, Terence P. Dawson
, Miguel Fernandez
, Richard Lucas
, Michael E. Schaepman
, Tiejun Wang
, Brian O'Connor
, Robert H. G. Jongman
, Pieter Kempeneers
, Ruth Sonnenschein
, Allison K. Leidner
, Monika Böhm
, Kate S. He
, Harini Nagendra
, Grégoire Dubois
, Temilola Fatoyinbo
, Matthew C. Hansen

Marc Paganini, Helen M. de Klerk, Gregory P. Asner, Jeremy T. Kerr, Anna B. Estes, Dirk S. Schmeller, Uta Heiden, Duccio Rocchini, Henrique M. Pereira, Eren Turak, Nestor Fernandez, Angela Lausch, Moses A. Cho, Domingo Alcaraz-Segura, Mélodie A. McGeoch, Woody Turner, Andreas Mueller, Véronique St-Louis, Johannes Penner, Petteri Vihervaara, Alan Belward, Belinda Reyers, Gary N. Geller

Zoological Society of London
University of Würzburg
German Remote Sensing Data Center
University of Twente
Wageningen University & Research
University of Dundee
German Centre for Integrative Biodiversity Research
Universidad Mayor de San Andrés
UNSW Sydney
University of Zurich
UN Environment Programme World Conservation Monitoring Centre
Joint Research Centre
Eurac Research
Universities Space Research Association
Murray State University
Azim Premji University
Goddard Space Flight Center
University of Maryland, College Park
European Space Agency
Stellenbosch University
Carnegie Institution for Science
University of Ottawa
Pennsylvania State University
Nelson Mandela African Institution of Science and Technology
Helmholtz Centre for Environmental Research
Fondazione Edmund Mach
NSW Environment and Heritage
Australian Museum
Estación Biológica de Doñana
Council for Scientific and Industrial Research
Universidad de Granada
Monash University
National Aeronautics and Space Administration
Minnesota Department of Natural Resources
University of Minnesota
German Oceanographic Museum
Finnish Environment Institute
Stockholm University
Group on Earth Observations

Research output: Contribution to journal › Article › peer-review

278 Citations (Scopus)

33 Downloads (Pure)

Abstract

Although satellite-based variables have for long been expected to be key components to a unified and global biodiversity monitoring strategy, a definitive and agreed list of these variables still remains elusive. The growth of interest in biodiversity variables observable from space has been partly underpinned by the development of the essential biodiversity variable (EBV) framework by the Group on Earth Observations – Biodiversity Observation Network, which itself was guided by the process of identifying essential climate variables. This contribution aims to advance the development of a global biodiversity monitoring strategy by updating the previously published definition of EBV, providing a definition of satellite remote sensing (SRS) EBVs and introducing a set of principles that are believed to be necessary if ecologists and space agencies are to agree on a list of EBVs that can be routinely monitored from space. Progress toward the identification of SRS-EBVs will require a clear understanding of what makes a biodiversity variable essential, as well as agreement on who the users of the SRS-EBVs are. Technological and algorithmic developments are rapidly expanding the set of opportunities for SRS in monitoring biodiversity, and so the list of SRS-EBVs is likely to evolve over time. This means that a clear and common platform for data providers, ecologists, environmental managers, policy makers and remote sensing experts to interact and share ideas needs to be identified to support long-term coordinated actions.

Original language	English
Pages (from-to)	122-131
Number of pages	10
Journal	Remote Sensing in Ecology and Conservation
Volume	2
Issue number	3
Early online date	25 Mar 2016
DOIs	https://doi.org/10.1002/rse2.15
Publication status	Published - 01 Sept 2016
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action

Keywords

biodiversity monitoring
earth observation
essential climate variable
monitoring strategy
policy
satellite remote sensing

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Framing the concept of satellite remote sensing essential biodiversity variables: challenges and future directionsFinal published version, 197 KBLicence: CC BY-NC-ND

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Pettorelli, N., Wegmann, M., Skidmore, A., Mücher, S., Dawson, T. P., Fernandez, M., Lucas, R., Schaepman, M. E., Wang, T., O'Connor, B., Jongman, R. H. G., Kempeneers, P., Sonnenschein, R., Leidner, A. K., Böhm, M., He, K. S., Nagendra, H., Dubois, G., Fatoyinbo, T., ... Geller, G. N. (2016). Framing the concept of satellite remote sensing essential biodiversity variables: Challenges and future directions. Remote Sensing in Ecology and Conservation, 2(3), 122-131. https://doi.org/10.1002/rse2.15

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title = "Framing the concept of satellite remote sensing essential biodiversity variables: Challenges and future directions",

abstract = "Although satellite-based variables have for long been expected to be key components to a unified and global biodiversity monitoring strategy, a definitive and agreed list of these variables still remains elusive. The growth of interest in biodiversity variables observable from space has been partly underpinned by the development of the essential biodiversity variable (EBV) framework by the Group on Earth Observations – Biodiversity Observation Network, which itself was guided by the process of identifying essential climate variables. This contribution aims to advance the development of a global biodiversity monitoring strategy by updating the previously published definition of EBV, providing a definition of satellite remote sensing (SRS) EBVs and introducing a set of principles that are believed to be necessary if ecologists and space agencies are to agree on a list of EBVs that can be routinely monitored from space. Progress toward the identification of SRS-EBVs will require a clear understanding of what makes a biodiversity variable essential, as well as agreement on who the users of the SRS-EBVs are. Technological and algorithmic developments are rapidly expanding the set of opportunities for SRS in monitoring biodiversity, and so the list of SRS-EBVs is likely to evolve over time. This means that a clear and common platform for data providers, ecologists, environmental managers, policy makers and remote sensing experts to interact and share ideas needs to be identified to support long-term coordinated actions.",

keywords = "biodiversity monitoring, earth observation, essential climate variable, monitoring strategy, policy, satellite remote sensing",

author = "Nathalie Pettorelli and Martin Wegmann and Andrew Skidmore and Sander M{\"u}cher and Dawson, \{Terence P.\} and Miguel Fernandez and Richard Lucas and Schaepman, \{Michael E.\} and Tiejun Wang and Brian O'Connor and Jongman, \{Robert H. G.\} and Pieter Kempeneers and Ruth Sonnenschein and Leidner, \{Allison K.\} and Monika B{\"o}hm and He, \{Kate S.\} and Harini Nagendra and Gr{\'e}goire Dubois and Temilola Fatoyinbo and Hansen, \{Matthew C.\} and Marc Paganini and \{de Klerk\}, \{Helen M.\} and Asner, \{Gregory P.\} and Kerr, \{Jeremy T.\} and Estes, \{Anna B.\} and Schmeller, \{Dirk S.\} and Uta Heiden and Duccio Rocchini and Pereira, \{Henrique M.\} and Eren Turak and Nestor Fernandez and Angela Lausch and Cho, \{Moses A.\} and Domingo Alcaraz-Segura and McGeoch, \{M{\'e}lodie A.\} and Woody Turner and Andreas Mueller and V{\'e}ronique St-Louis and Johannes Penner and Petteri Vihervaara and Alan Belward and Belinda Reyers and Geller, \{Gary N.\}",

year = "2016",

month = sep,

day = "1",

doi = "10.1002/rse2.15",

language = "English",

volume = "2",

pages = "122--131",

journal = "Remote Sensing in Ecology and Conservation",

issn = "2053-3485",

publisher = "Wiley",

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Pettorelli, N, Wegmann, M, Skidmore, A, Mücher, S, Dawson, TP, Fernandez, M, Lucas, R, Schaepman, ME, Wang, T, O'Connor, B, Jongman, RHG, Kempeneers, P, Sonnenschein, R, Leidner, AK, Böhm, M, He, KS, Nagendra, H, Dubois, G, Fatoyinbo, T, Hansen, MC, Paganini, M, de Klerk, HM, Asner, GP, Kerr, JT, Estes, AB, Schmeller, DS, Heiden, U, Rocchini, D, Pereira, HM, Turak, E, Fernandez, N, Lausch, A, Cho, MA, Alcaraz-Segura, D, McGeoch, MA, Turner, W, Mueller, A, St-Louis, V, Penner, J, Vihervaara, P, Belward, A, Reyers, B & Geller, GN 2016, 'Framing the concept of satellite remote sensing essential biodiversity variables: Challenges and future directions', Remote Sensing in Ecology and Conservation, vol. 2, no. 3, pp. 122-131. https://doi.org/10.1002/rse2.15

TY - JOUR

T1 - Framing the concept of satellite remote sensing essential biodiversity variables

T2 - Challenges and future directions

AU - Pettorelli, Nathalie

AU - Wegmann, Martin

AU - Skidmore, Andrew

AU - Mücher, Sander

AU - Dawson, Terence P.

AU - Fernandez, Miguel

AU - Lucas, Richard

AU - Schaepman, Michael E.

AU - Wang, Tiejun

AU - O'Connor, Brian

AU - Jongman, Robert H. G.

AU - Kempeneers, Pieter

AU - Sonnenschein, Ruth

AU - Leidner, Allison K.

AU - Böhm, Monika

AU - He, Kate S.

AU - Nagendra, Harini

AU - Dubois, Grégoire

AU - Fatoyinbo, Temilola

AU - Hansen, Matthew C.

AU - Paganini, Marc

AU - de Klerk, Helen M.

AU - Asner, Gregory P.

AU - Kerr, Jeremy T.

AU - Estes, Anna B.

AU - Schmeller, Dirk S.

AU - Heiden, Uta

AU - Rocchini, Duccio

AU - Pereira, Henrique M.

AU - Turak, Eren

AU - Fernandez, Nestor

AU - Lausch, Angela

AU - Cho, Moses A.

AU - Alcaraz-Segura, Domingo

AU - McGeoch, Mélodie A.

AU - Turner, Woody

AU - Mueller, Andreas

AU - St-Louis, Véronique

AU - Penner, Johannes

AU - Vihervaara, Petteri

AU - Belward, Alan

AU - Reyers, Belinda

AU - Geller, Gary N.

PY - 2016/9/1

Y1 - 2016/9/1

N2 - Although satellite-based variables have for long been expected to be key components to a unified and global biodiversity monitoring strategy, a definitive and agreed list of these variables still remains elusive. The growth of interest in biodiversity variables observable from space has been partly underpinned by the development of the essential biodiversity variable (EBV) framework by the Group on Earth Observations – Biodiversity Observation Network, which itself was guided by the process of identifying essential climate variables. This contribution aims to advance the development of a global biodiversity monitoring strategy by updating the previously published definition of EBV, providing a definition of satellite remote sensing (SRS) EBVs and introducing a set of principles that are believed to be necessary if ecologists and space agencies are to agree on a list of EBVs that can be routinely monitored from space. Progress toward the identification of SRS-EBVs will require a clear understanding of what makes a biodiversity variable essential, as well as agreement on who the users of the SRS-EBVs are. Technological and algorithmic developments are rapidly expanding the set of opportunities for SRS in monitoring biodiversity, and so the list of SRS-EBVs is likely to evolve over time. This means that a clear and common platform for data providers, ecologists, environmental managers, policy makers and remote sensing experts to interact and share ideas needs to be identified to support long-term coordinated actions.

AB - Although satellite-based variables have for long been expected to be key components to a unified and global biodiversity monitoring strategy, a definitive and agreed list of these variables still remains elusive. The growth of interest in biodiversity variables observable from space has been partly underpinned by the development of the essential biodiversity variable (EBV) framework by the Group on Earth Observations – Biodiversity Observation Network, which itself was guided by the process of identifying essential climate variables. This contribution aims to advance the development of a global biodiversity monitoring strategy by updating the previously published definition of EBV, providing a definition of satellite remote sensing (SRS) EBVs and introducing a set of principles that are believed to be necessary if ecologists and space agencies are to agree on a list of EBVs that can be routinely monitored from space. Progress toward the identification of SRS-EBVs will require a clear understanding of what makes a biodiversity variable essential, as well as agreement on who the users of the SRS-EBVs are. Technological and algorithmic developments are rapidly expanding the set of opportunities for SRS in monitoring biodiversity, and so the list of SRS-EBVs is likely to evolve over time. This means that a clear and common platform for data providers, ecologists, environmental managers, policy makers and remote sensing experts to interact and share ideas needs to be identified to support long-term coordinated actions.

KW - biodiversity monitoring

KW - earth observation

KW - essential climate variable

KW - monitoring strategy

KW - policy

KW - satellite remote sensing

U2 - 10.1002/rse2.15

DO - 10.1002/rse2.15

M3 - Article

SN - 2053-3485

VL - 2

SP - 122

EP - 131

JO - Remote Sensing in Ecology and Conservation

JF - Remote Sensing in Ecology and Conservation

IS - 3

ER -

Framing the concept of satellite remote sensing essential biodiversity variables: Challenges and future directions

Abstract

UN SDGs

Keywords

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