Achieving Harmonized and Integrated Long-Term Environmental Observation of Essential Ecosystem Variables - The eLTER Framework of Standard Observations

Steffen Zacharias; Theresa Lumpi; James Weldon; Thomas Dirnbock; Jerome Gaillardet; Peter Haase; Ingolf Kuhn; Harry Vereecken; Jaana Back; Caterina Bergami; Bastian Bertsch-Hoermann; Isabelle Braud; Nathalie Cools; Jan Dick; Shayli Dor-Haim; Martin Forsius; Martyn N. Futter; Veronika Gaube; Elli Groner; Lubos Halada; Laura Kauppi; Andrea Lami; Tanja Lindholm; Carmela Marangi; Giorgio Matteucci; Pablo F. Mendez; Christin Mueller; Don Monteith; Jens C. Nejstgaard; Nikolaos P. Nikolaidis; Alessandro Oggioni; Daniel E. Orenstein; Christophe Piscart; Marie-Noelle Pons; Robert Ptacnik; Karsten Rinke; Taru Sanden; Marcus Schaub; Martin Schron; Claudia Schutze; Christian Siebert; Adelheid Spiegel; James M. Thornton; Hans-Jorg Vogel; Michael Mirtl; et al.

doi:10.1029/2025EF006743

Achieving Harmonized and Integrated Long-Term Environmental Observation of Essential Ecosystem Variables - The eLTER Framework of Standard Observations

Steffen Zacharias
, Theresa Lumpi
, James Weldon
, Thomas Dirnbock
, Jerome Gaillardet
, Peter Haase
, Ingolf Kuhn
, Harry Vereecken
, Jaana Back
, Caterina Bergami
, Bastian Bertsch-Hoermann
, Isabelle Braud
, Nathalie Cools
, Jan Dick
, Shayli Dor-Haim
, Martin Forsius
, Martyn N. Futter
, Veronika Gaube
, Elli Groner
, Lubos Halada

Laura Kauppi, Andrea Lami, Tanja Lindholm, Carmela Marangi, Giorgio Matteucci, Pablo F. Mendez, Christin Mueller, Don Monteith, Jens C. Nejstgaard, Nikolaos P. Nikolaidis, Alessandro Oggioni, Daniel E. Orenstein, Christophe Piscart, Marie-Noelle Pons, Robert Ptacnik, Karsten Rinke, Taru Sanden, Marcus Schaub, Martin Schron, Claudia Schutze, Christian Siebert, Adelheid Spiegel, James M. Thornton, Hans-Jorg Vogel, Michael Mirtl, et al.

Department of Aquatic Sciences and Assessment

Publication: Contribution to journal › Journal article › peer-review

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Abstract

The development of harmonized, standardized, and integrated environmental observation systems is a key challenge in Earth system science. Such capability is essential for advancing the interdisciplinary research needed to improve understanding of the Earth system and support global sustainability. The Integrated European Long-Term Ecosystem, Critical Zone and Socio-ecological Research Infrastructure (eLTER RI) is a recently developed pan-European network of in situ research sites that facilitates the collection long-term, comprehensive observation, analysis, and modeling of environmental and ecosystem change. This initiative focuses on Europe's primary ecosystems, encompassing the atmosphere, geosphere, hydrosphere, biosphere, and their socio-ecological interactions with the anthroposphere. A fundamental prerequisite for effective environmental monitoring and observation is a standardized and harmonized design that facilitates consistent and comparable environmental data across diverse spatial and temporal scales. The objective of this paper is to introduce the eLTER Framework of Standard Observations (eLTER SO) as a harmonized conceptual and operational standard for long-term, integrated in situ environmental observations, and to demonstrate how it supports consistent cross-sphere monitoring and international collaboration in environmental research. The eLTER SO delineates essential ecosystem variables, their measurement methods, and protocols. These Standard Observations (SOs) constitute the conceptual foundation of eLTER RI and provide a basis for overcoming existing disciplinary barriers to the international harmonization of environmental research and a foundation for cross-sphere observation concepts. The eLTER SO combines the scientific-academic perspective, as known from "classical" Essential Variable concepts, with the operational perspective required for the establishment and long-term operation of in situ observatories.

Original language	English
Article number	e2025EF006743
Number of pages	35
Journal	Earth's Future
Volume	14
Issue number	4
DOIs	https://doi.org/10.1029/2025EF006743
Publication status	Published - 2026

Keywords

environmental observation
research infrastructure
essential variables

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10.1029/2025EF006743

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Zacharias, S., Lumpi, T., Weldon, J., Dirnbock, T., Gaillardet, J., Haase, P., Kuhn, I., Vereecken, H., Back, J., Bergami, C., Bertsch-Hoermann, B., Braud, I., Cools, N., Dick, J., Dor-Haim, S., Forsius, M., Futter, M. N., Gaube, V., Groner, E., ... et al. (2026). Achieving Harmonized and Integrated Long-Term Environmental Observation of Essential Ecosystem Variables - The eLTER Framework of Standard Observations. Earth's Future, 14(4), Article e2025EF006743. https://doi.org/10.1029/2025EF006743

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abstract = "The development of harmonized, standardized, and integrated environmental observation systems is a key challenge in Earth system science. Such capability is essential for advancing the interdisciplinary research needed to improve understanding of the Earth system and support global sustainability. The Integrated European Long-Term Ecosystem, Critical Zone and Socio-ecological Research Infrastructure (eLTER RI) is a recently developed pan-European network of in situ research sites that facilitates the collection long-term, comprehensive observation, analysis, and modeling of environmental and ecosystem change. This initiative focuses on Europe's primary ecosystems, encompassing the atmosphere, geosphere, hydrosphere, biosphere, and their socio-ecological interactions with the anthroposphere. A fundamental prerequisite for effective environmental monitoring and observation is a standardized and harmonized design that facilitates consistent and comparable environmental data across diverse spatial and temporal scales. The objective of this paper is to introduce the eLTER Framework of Standard Observations (eLTER SO) as a harmonized conceptual and operational standard for long-term, integrated in situ environmental observations, and to demonstrate how it supports consistent cross-sphere monitoring and international collaboration in environmental research. The eLTER SO delineates essential ecosystem variables, their measurement methods, and protocols. These Standard Observations (SOs) constitute the conceptual foundation of eLTER RI and provide a basis for overcoming existing disciplinary barriers to the international harmonization of environmental research and a foundation for cross-sphere observation concepts. The eLTER SO combines the scientific-academic perspective, as known from {"}classical{"} Essential Variable concepts, with the operational perspective required for the establishment and long-term operation of in situ observatories.",

keywords = "environmental observation, research infrastructure, essential variables, environmental observation, research infrastructure, essential variables",

author = "Steffen Zacharias and Theresa Lumpi and James Weldon and Thomas Dirnbock and Jerome Gaillardet and Peter Haase and Ingolf Kuhn and Harry Vereecken and Jaana Back and Caterina Bergami and Bastian Bertsch-Hoermann and Isabelle Braud and Nathalie Cools and Jan Dick and Shayli Dor-Haim and Martin Forsius and Futter, \{Martyn N.\} and Veronika Gaube and Elli Groner and Lubos Halada and Laura Kauppi and Andrea Lami and Tanja Lindholm and Carmela Marangi and Giorgio Matteucci and Mendez, \{Pablo F.\} and Christin Mueller and Don Monteith and Nejstgaard, \{Jens C.\} and Nikolaidis, \{Nikolaos P.\} and Alessandro Oggioni and Orenstein, \{Daniel E.\} and Christophe Piscart and Marie-Noelle Pons and Robert Ptacnik and Karsten Rinke and Taru Sanden and Marcus Schaub and Martin Schron and Claudia Schutze and Christian Siebert and Adelheid Spiegel and Thornton, \{James M.\} and Hans-Jorg Vogel and Michael Mirtl and \{Kur{\'e}n Weldon\}, James and \{et al.\}",

year = "2026",

doi = "10.1029/2025EF006743",

language = "English",

volume = "14",

journal = "Earth's Future",

issn = "2328-4277",

publisher = "John Wiley \& Sons Inc.",

number = "4",

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Zacharias, S, Lumpi, T, Weldon, J, Dirnbock, T, Gaillardet, J, Haase, P, Kuhn, I, Vereecken, H, Back, J, Bergami, C, Bertsch-Hoermann, B, Braud, I, Cools, N, Dick, J, Dor-Haim, S, Forsius, M, Futter, MN, Gaube, V, Groner, E, Halada, L, Kauppi, L, Lami, A, Lindholm, T, Marangi, C, Matteucci, G, Mendez, PF, Mueller, C, Monteith, D, Nejstgaard, JC, Nikolaidis, NP, Oggioni, A, Orenstein, DE, Piscart, C, Pons, M-N, Ptacnik, R, Rinke, K, Sanden, T, Schaub, M, Schron, M, Schutze, C, Siebert, C, Spiegel, A, Thornton, JM, Vogel, H-J, Mirtl, M & et al. 2026, 'Achieving Harmonized and Integrated Long-Term Environmental Observation of Essential Ecosystem Variables - The eLTER Framework of Standard Observations', Earth's Future, vol. 14, no. 4, e2025EF006743. https://doi.org/10.1029/2025EF006743

TY - JOUR

T1 - Achieving Harmonized and Integrated Long-Term Environmental Observation of Essential Ecosystem Variables - The eLTER Framework of Standard Observations

AU - Zacharias, Steffen

AU - Lumpi, Theresa

AU - Weldon, James

AU - Dirnbock, Thomas

AU - Gaillardet, Jerome

AU - Haase, Peter

AU - Kuhn, Ingolf

AU - Vereecken, Harry

AU - Back, Jaana

AU - Bergami, Caterina

AU - Bertsch-Hoermann, Bastian

AU - Braud, Isabelle

AU - Cools, Nathalie

AU - Dick, Jan

AU - Dor-Haim, Shayli

AU - Forsius, Martin

AU - Futter, Martyn N.

AU - Gaube, Veronika

AU - Groner, Elli

AU - Halada, Lubos

AU - Kauppi, Laura

AU - Lami, Andrea

AU - Lindholm, Tanja

AU - Marangi, Carmela

AU - Matteucci, Giorgio

AU - Mendez, Pablo F.

AU - Mueller, Christin

AU - Monteith, Don

AU - Nejstgaard, Jens C.

AU - Nikolaidis, Nikolaos P.

AU - Oggioni, Alessandro

AU - Orenstein, Daniel E.

AU - Piscart, Christophe

AU - Pons, Marie-Noelle

AU - Ptacnik, Robert

AU - Rinke, Karsten

AU - Sanden, Taru

AU - Schaub, Marcus

AU - Schron, Martin

AU - Schutze, Claudia

AU - Siebert, Christian

AU - Spiegel, Adelheid

AU - Thornton, James M.

AU - Vogel, Hans-Jorg

AU - Mirtl, Michael

AU - Kurén Weldon, James

AU - et al.

PY - 2026

Y1 - 2026

N2 - The development of harmonized, standardized, and integrated environmental observation systems is a key challenge in Earth system science. Such capability is essential for advancing the interdisciplinary research needed to improve understanding of the Earth system and support global sustainability. The Integrated European Long-Term Ecosystem, Critical Zone and Socio-ecological Research Infrastructure (eLTER RI) is a recently developed pan-European network of in situ research sites that facilitates the collection long-term, comprehensive observation, analysis, and modeling of environmental and ecosystem change. This initiative focuses on Europe's primary ecosystems, encompassing the atmosphere, geosphere, hydrosphere, biosphere, and their socio-ecological interactions with the anthroposphere. A fundamental prerequisite for effective environmental monitoring and observation is a standardized and harmonized design that facilitates consistent and comparable environmental data across diverse spatial and temporal scales. The objective of this paper is to introduce the eLTER Framework of Standard Observations (eLTER SO) as a harmonized conceptual and operational standard for long-term, integrated in situ environmental observations, and to demonstrate how it supports consistent cross-sphere monitoring and international collaboration in environmental research. The eLTER SO delineates essential ecosystem variables, their measurement methods, and protocols. These Standard Observations (SOs) constitute the conceptual foundation of eLTER RI and provide a basis for overcoming existing disciplinary barriers to the international harmonization of environmental research and a foundation for cross-sphere observation concepts. The eLTER SO combines the scientific-academic perspective, as known from "classical" Essential Variable concepts, with the operational perspective required for the establishment and long-term operation of in situ observatories.

AB - The development of harmonized, standardized, and integrated environmental observation systems is a key challenge in Earth system science. Such capability is essential for advancing the interdisciplinary research needed to improve understanding of the Earth system and support global sustainability. The Integrated European Long-Term Ecosystem, Critical Zone and Socio-ecological Research Infrastructure (eLTER RI) is a recently developed pan-European network of in situ research sites that facilitates the collection long-term, comprehensive observation, analysis, and modeling of environmental and ecosystem change. This initiative focuses on Europe's primary ecosystems, encompassing the atmosphere, geosphere, hydrosphere, biosphere, and their socio-ecological interactions with the anthroposphere. A fundamental prerequisite for effective environmental monitoring and observation is a standardized and harmonized design that facilitates consistent and comparable environmental data across diverse spatial and temporal scales. The objective of this paper is to introduce the eLTER Framework of Standard Observations (eLTER SO) as a harmonized conceptual and operational standard for long-term, integrated in situ environmental observations, and to demonstrate how it supports consistent cross-sphere monitoring and international collaboration in environmental research. The eLTER SO delineates essential ecosystem variables, their measurement methods, and protocols. These Standard Observations (SOs) constitute the conceptual foundation of eLTER RI and provide a basis for overcoming existing disciplinary barriers to the international harmonization of environmental research and a foundation for cross-sphere observation concepts. The eLTER SO combines the scientific-academic perspective, as known from "classical" Essential Variable concepts, with the operational perspective required for the establishment and long-term operation of in situ observatories.

KW - environmental observation

KW - research infrastructure

KW - essential variables

KW - environmental observation

KW - research infrastructure

KW - essential variables

UR - https://res.slu.se/id/publ/146894

U2 - 10.1029/2025EF006743

DO - 10.1029/2025EF006743

M3 - Journal article

SN - 2328-4277

VL - 14

JO - Earth's Future

JF - Earth's Future

IS - 4

M1 - e2025EF006743

ER -

Achieving Harmonized and Integrated Long-Term Environmental Observation of Essential Ecosystem Variables - The eLTER Framework of Standard Observations

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Keywords

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