The Spectral Species Concept in Living Color

Duccio Rocchini; Maria J. Santos; Susan L. Ustin; Jean Baptiste Féret; Gregory P. Asner; Carl Beierkuhnlein; Michele Dalponte; Hannes Feilhauer; Giles M. Foody; Gary N. Geller; Thomas W. Gillespie; Kate S. He; David Kleijn; Pedro J. Leitão; Marco Malavasi; Vítězslav Moudrý; Jana Müllerová; Harini Nagendra; Signe Normand; Carlo Ricotta; Michael E. Schaepman; Sebastian Schmidtlein; Andrew K. Skidmore; Petra Šímová; Michele Torresani; Philip A. Townsend; Woody Turner; Petteri Vihervaara; Martin Wegmann; Jonathan Lenoir

doi:10.1029/2022JG007026

The Spectral Species Concept in Living Color

Duccio Rocchini, Maria J. Santos, Susan L. Ustin, Jean Baptiste Féret, Gregory P. Asner, Carl Beierkuhnlein, Michele Dalponte, Hannes Feilhauer, Giles M. Foody, Gary N. Geller, Thomas W. Gillespie, Kate S. He, David Kleijn, Pedro J. Leitão, Marco Malavasi, Vítězslav Moudrý, Jana Müllerová, Harini Nagendra, Signe Normand, Carlo RicottaMichael E. Schaepman, Sebastian Schmidtlein, Andrew K. Skidmore, Petra Šímová, Michele Torresani, Philip A. Townsend, Woody Turner, Petteri Vihervaara, Martin Wegmann, Jonathan Lenoir

Geographical Sciences and Urban Planning, School of (SGSUP)

Research output: Contribution to journal › Review article › peer-review

20 Scopus citations

Abstract

Biodiversity monitoring is an almost inconceivable challenge at the scale of the entire Earth. The current (and soon to be flown) generation of spaceborne and airborne optical sensors (i.e., imaging spectrometers) can collect detailed information at unprecedented spatial, temporal, and spectral resolutions. These new data streams are preceded by a revolution in modeling and analytics that can utilize the richness of these datasets to measure a wide range of plant traits, community composition, and ecosystem functions. At the heart of this framework for monitoring plant biodiversity is the idea of remotely identifying species by making use of the ‘spectral species’ concept. In theory, the spectral species concept can be defined as a species characterized by a unique spectral signature and thus remotely detectable within pixel units of a spectral image. In reality, depending on spatial resolution, pixels may contain several species which renders species-specific assignment of spectral information more challenging. The aim of this paper is to review the spectral species concept and relate it to underlying ecological principles, while also discussing the complexities, challenges and opportunities to apply this concept given current and future scientific advances in remote sensing.

Original language	English (US)
Article number	e2022JG007026
Journal	Journal of Geophysical Research: Biogeosciences
Volume	127
Issue number	9
DOIs	https://doi.org/10.1029/2022JG007026
State	Published - Sep 2022

Keywords

airborne sensors
biodiversity
ecoinformatics
hyperspectral images
plant optical types
remote sensing
satellite imagery
vegetation communities

ASJC Scopus subject areas

Forestry
Aquatic Science
Ecology
Water Science and Technology
Soil Science
Atmospheric Science
Palaeontology

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10.1029/2022JG007026

Cite this

Rocchini, D., Santos, M. J., Ustin, S. L., Féret, J. B., Asner, G. P., Beierkuhnlein, C., Dalponte, M., Feilhauer, H., Foody, G. M., Geller, G. N., Gillespie, T. W., He, K. S., Kleijn, D., Leitão, P. J., Malavasi, M., Moudrý, V., Müllerová, J., Nagendra, H., Normand, S., ... Lenoir, J. (2022). The Spectral Species Concept in Living Color. Journal of Geophysical Research: Biogeosciences, 127(9), Article e2022JG007026. https://doi.org/10.1029/2022JG007026

Rocchini, D, Santos, MJ, Ustin, SL, Féret, JB, Asner, GP, Beierkuhnlein, C, Dalponte, M, Feilhauer, H, Foody, GM, Geller, GN, Gillespie, TW, He, KS, Kleijn, D, Leitão, PJ, Malavasi, M, Moudrý, V, Müllerová, J, Nagendra, H, Normand, S, Ricotta, C, Schaepman, ME, Schmidtlein, S, Skidmore, AK, Šímová, P, Torresani, M, Townsend, PA, Turner, W, Vihervaara, P, Wegmann, M & Lenoir, J 2022, 'The Spectral Species Concept in Living Color', Journal of Geophysical Research: Biogeosciences, vol. 127, no. 9, e2022JG007026. https://doi.org/10.1029/2022JG007026

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title = "The Spectral Species Concept in Living Color",

abstract = "Biodiversity monitoring is an almost inconceivable challenge at the scale of the entire Earth. The current (and soon to be flown) generation of spaceborne and airborne optical sensors (i.e., imaging spectrometers) can collect detailed information at unprecedented spatial, temporal, and spectral resolutions. These new data streams are preceded by a revolution in modeling and analytics that can utilize the richness of these datasets to measure a wide range of plant traits, community composition, and ecosystem functions. At the heart of this framework for monitoring plant biodiversity is the idea of remotely identifying species by making use of the {\textquoteleft}spectral species{\textquoteright} concept. In theory, the spectral species concept can be defined as a species characterized by a unique spectral signature and thus remotely detectable within pixel units of a spectral image. In reality, depending on spatial resolution, pixels may contain several species which renders species-specific assignment of spectral information more challenging. The aim of this paper is to review the spectral species concept and relate it to underlying ecological principles, while also discussing the complexities, challenges and opportunities to apply this concept given current and future scientific advances in remote sensing.",

keywords = "airborne sensors, biodiversity, ecoinformatics, hyperspectral images, plant optical types, remote sensing, satellite imagery, vegetation communities",

author = "Duccio Rocchini and Santos, {Maria J.} and Ustin, {Susan L.} and F{\'e}ret, {Jean Baptiste} and Asner, {Gregory P.} and Carl Beierkuhnlein and Michele Dalponte and Hannes Feilhauer and Foody, {Giles M.} and Geller, {Gary N.} and Gillespie, {Thomas W.} and He, {Kate S.} and David Kleijn and Leit{\~a}o, {Pedro J.} and Marco Malavasi and V{\'i}t{\v e}zslav Moudr{\'y} and Jana M{\"u}llerov{\'a} and Harini Nagendra and Signe Normand and Carlo Ricotta and Schaepman, {Michael E.} and Sebastian Schmidtlein and Skidmore, {Andrew K.} and Petra {\v S}{\'i}mov{\'a} and Michele Torresani and Townsend, {Philip A.} and Woody Turner and Petteri Vihervaara and Martin Wegmann and Jonathan Lenoir",

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year = "2022",

month = sep,

doi = "10.1029/2022JG007026",

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AU - Rocchini, Duccio

AU - Santos, Maria J.

AU - Ustin, Susan L.

AU - Féret, Jean Baptiste

AU - Asner, Gregory P.

AU - Beierkuhnlein, Carl

AU - Dalponte, Michele

AU - Feilhauer, Hannes

AU - Foody, Giles M.

AU - Geller, Gary N.

AU - Gillespie, Thomas W.

AU - He, Kate S.

AU - Kleijn, David

AU - Leitão, Pedro J.

AU - Malavasi, Marco

AU - Moudrý, Vítězslav

AU - Müllerová, Jana

AU - Nagendra, Harini

AU - Normand, Signe

AU - Ricotta, Carlo

AU - Schaepman, Michael E.

AU - Schmidtlein, Sebastian

AU - Skidmore, Andrew K.

AU - Šímová, Petra

AU - Torresani, Michele

AU - Townsend, Philip A.

AU - Turner, Woody

AU - Vihervaara, Petteri

AU - Wegmann, Martin

AU - Lenoir, Jonathan

PY - 2022/9

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N2 - Biodiversity monitoring is an almost inconceivable challenge at the scale of the entire Earth. The current (and soon to be flown) generation of spaceborne and airborne optical sensors (i.e., imaging spectrometers) can collect detailed information at unprecedented spatial, temporal, and spectral resolutions. These new data streams are preceded by a revolution in modeling and analytics that can utilize the richness of these datasets to measure a wide range of plant traits, community composition, and ecosystem functions. At the heart of this framework for monitoring plant biodiversity is the idea of remotely identifying species by making use of the ‘spectral species’ concept. In theory, the spectral species concept can be defined as a species characterized by a unique spectral signature and thus remotely detectable within pixel units of a spectral image. In reality, depending on spatial resolution, pixels may contain several species which renders species-specific assignment of spectral information more challenging. The aim of this paper is to review the spectral species concept and relate it to underlying ecological principles, while also discussing the complexities, challenges and opportunities to apply this concept given current and future scientific advances in remote sensing.

AB - Biodiversity monitoring is an almost inconceivable challenge at the scale of the entire Earth. The current (and soon to be flown) generation of spaceborne and airborne optical sensors (i.e., imaging spectrometers) can collect detailed information at unprecedented spatial, temporal, and spectral resolutions. These new data streams are preceded by a revolution in modeling and analytics that can utilize the richness of these datasets to measure a wide range of plant traits, community composition, and ecosystem functions. At the heart of this framework for monitoring plant biodiversity is the idea of remotely identifying species by making use of the ‘spectral species’ concept. In theory, the spectral species concept can be defined as a species characterized by a unique spectral signature and thus remotely detectable within pixel units of a spectral image. In reality, depending on spatial resolution, pixels may contain several species which renders species-specific assignment of spectral information more challenging. The aim of this paper is to review the spectral species concept and relate it to underlying ecological principles, while also discussing the complexities, challenges and opportunities to apply this concept given current and future scientific advances in remote sensing.

KW - airborne sensors

KW - biodiversity

KW - ecoinformatics

KW - hyperspectral images

KW - plant optical types

KW - remote sensing

KW - satellite imagery

KW - vegetation communities

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DO - 10.1029/2022JG007026

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SN - 2169-8953

VL - 127

JO - Journal of Geophysical Research: Biogeosciences

JF - Journal of Geophysical Research: Biogeosciences

IS - 9

M1 - e2022JG007026

ER -

The Spectral Species Concept in Living Color

Abstract

Keywords

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