Plant traits and associated ecological data from global change experiments and climate gradients in Norway

Vigdis Vandvik; Aud H. Halbritter; Marc Macias-Fauria; Brian S. Maitner; Sean T. Michaletz; Richard J. Telford; Nicole Bison; Julia Chacon-Labella; Sehoya Cotner; Dagmar Egelkraut; Josef Garen; Joseph Gaudard; Sonya R. Geange; Maria A. Rosati; Emil A.S. Andersen; Sam J. Ahler; Joe Atkinson; Marta Baumane; Pia M. Bradler; Hilary Rose Dawson; Julia Eckberg; Alexander D. Elsy; Joshua Erkelenz; Susan E. Eshelman; Coskun Guclu; Rebekka Gullvåg; Ragnhild Gya; Sorrel Hartford; Meghan T. Hayden; Mukhlish J.M. Holle; Alyssa T. Kullberg; Kai Lepley; Marta Correia; Cora E. Löwenstein; Celesté Maré; Dickson Mauki; Jocelyn Navarro; Barryette Oberholzer; Bernard Olivier; Alyssa N. Olson; Courtenay A. Ray; Jonathan von Oppen; Tom Vorstenbosch; Jonathan A. Wang; Brian J. Enquist

doi:10.1038/s41597-025-05509-4

Plant traits and associated ecological data from global change experiments and climate gradients in Norway

Publikation: Beiträge in Zeitschriften › Zeitschriftenaufsätze › Forschung › begutachtet

Standard

Plant traits and associated ecological data from global change experiments and climate gradients in Norway. / Vandvik, Vigdis; Halbritter, Aud H.; Macias-Fauria, Marc et al.
in: Scientific data, Jahrgang 12, Nr. 1, 1477, 12.2025.

Publikation: Beiträge in Zeitschriften › Zeitschriftenaufsätze › Forschung › begutachtet

Harvard

Vandvik, V, Halbritter, AH, Macias-Fauria, M, Maitner, BS, Michaletz, ST, Telford, RJ, Bison, N, Chacon-Labella, J, Cotner, S, Egelkraut, D, Garen, J, Gaudard, J, Geange, SR, Rosati, MA, Andersen, EAS, Ahler, SJ, Atkinson, J, Baumane, M, Bradler, PM, Dawson, HR, Eckberg, J, Elsy, AD, Erkelenz, J, Eshelman, SE, Guclu, C, Gullvåg, R, Gya, R, Hartford, S, Hayden, MT, Holle, MJM, Kullberg, AT, Lepley, K, Correia, M, Löwenstein, CE, Maré, C, Mauki, D, Navarro, J, Oberholzer, B, Olivier, B, Olson, AN, Ray, CA, von Oppen, J, Vorstenbosch, T, Wang, JA & Enquist, BJ 2025, 'Plant traits and associated ecological data from global change experiments and climate gradients in Norway', Scientific data, Jg. 12, Nr. 1, 1477. https://doi.org/10.1038/s41597-025-05509-4

APA

Vandvik, V., Halbritter, A. H., Macias-Fauria, M., Maitner, B. S., Michaletz, S. T., Telford, R. J., Bison, N., Chacon-Labella, J., Cotner, S., Egelkraut, D., Garen, J., Gaudard, J., Geange, S. R., Rosati, M. A., Andersen, E. A. S., Ahler, S. J., Atkinson, J., Baumane, M., Bradler, P. M., ... Enquist, B. J. (2025). Plant traits and associated ecological data from global change experiments and climate gradients in Norway. Scientific data, 12(1), Artikel 1477. https://doi.org/10.1038/s41597-025-05509-4

Vancouver

Vandvik V, Halbritter AH, Macias-Fauria M, Maitner BS, Michaletz ST, Telford RJ et al. Plant traits and associated ecological data from global change experiments and climate gradients in Norway. Scientific data. 2025 Dez;12(1):1477. doi: 10.1038/s41597-025-05509-4

Bibtex

@article{5c1335dd2c9f46158364fb1ea361ff74,

title = "Plant traits and associated ecological data from global change experiments and climate gradients in Norway",

abstract = "Plant functional trait-based approaches are powerful tools to assess the consequences of global environmental changes for plant ecophysiology, population and community ecology, ecosystem functioning, and landscape ecology. Here, we present data capturing these ecological dimensions from grazing, nitrogen addition, and warming experiments conducted along a 821 m a.s.l. elevation gradient and from a climate warming experiment conducted across a 3,200 mm precipitation gradient in boreal and alpine grasslands in Vestland County, western Norway. From these systems we collected 28,762 plant and leaf functional trait measurements from 76 vascular plant species, 88 leaf assimilation-temperature responses, 577 leaf handheld hyperspectral readings, 2.26 billion leaf temperature measurements, 3,696 ecosystem CO2 flux measurements, and 10.69 ha of multispectral (10-band) and RGB cm-resolution imagery from 4,648 individual images obtained from airborne sensors. These data augment existing longer-term data on local climate, soils, plant populations, plant community composition, and ecosystem functioning from within the same experiments and study systems and from similar systems in other mountain regions globally.",

keywords = "Biology",

author = "Vigdis Vandvik and Halbritter, {Aud H.} and Marc Macias-Fauria and Maitner, {Brian S.} and Michaletz, {Sean T.} and Telford, {Richard J.} and Nicole Bison and Julia Chacon-Labella and Sehoya Cotner and Dagmar Egelkraut and Josef Garen and Joseph Gaudard and Geange, {Sonya R.} and Rosati, {Maria A.} and Andersen, {Emil A.S.} and Ahler, {Sam J.} and Joe Atkinson and Marta Baumane and Bradler, {Pia M.} and Dawson, {Hilary Rose} and Julia Eckberg and Elsy, {Alexander D.} and Joshua Erkelenz and Eshelman, {Susan E.} and Coskun Guclu and Rebekka Gullv{\aa}g and Ragnhild Gya and Sorrel Hartford and Hayden, {Meghan T.} and Holle, {Mukhlish J.M.} and Kullberg, {Alyssa T.} and Kai Lepley and Marta Correia and L{\"o}wenstein, {Cora E.} and Celest{\'e} Mar{\'e} and Dickson Mauki and Jocelyn Navarro and Barryette Oberholzer and Bernard Olivier and Olson, {Alyssa N.} and Ray, {Courtenay A.} and {von Oppen}, Jonathan and Tom Vorstenbosch and Wang, {Jonathan A.} and Enquist, {Brian J.}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = dec,

doi = "10.1038/s41597-025-05509-4",

language = "English",

volume = "12",

journal = "Scientific data",

issn = "2052-4463",

publisher = "Nature Publishing Group",

number = "1",

}

RIS

TY - JOUR

T1 - Plant traits and associated ecological data from global change experiments and climate gradients in Norway

AU - Vandvik, Vigdis

AU - Halbritter, Aud H.

AU - Macias-Fauria, Marc

AU - Maitner, Brian S.

AU - Michaletz, Sean T.

AU - Telford, Richard J.

AU - Bison, Nicole

AU - Chacon-Labella, Julia

AU - Cotner, Sehoya

AU - Egelkraut, Dagmar

AU - Garen, Josef

AU - Gaudard, Joseph

AU - Geange, Sonya R.

AU - Rosati, Maria A.

AU - Andersen, Emil A.S.

AU - Ahler, Sam J.

AU - Atkinson, Joe

AU - Baumane, Marta

AU - Bradler, Pia M.

AU - Dawson, Hilary Rose

AU - Eckberg, Julia

AU - Elsy, Alexander D.

AU - Erkelenz, Joshua

AU - Eshelman, Susan E.

AU - Guclu, Coskun

AU - Gullvåg, Rebekka

AU - Gya, Ragnhild

AU - Hartford, Sorrel

AU - Hayden, Meghan T.

AU - Holle, Mukhlish J.M.

AU - Kullberg, Alyssa T.

AU - Lepley, Kai

AU - Correia, Marta

AU - Löwenstein, Cora E.

AU - Maré, Celesté

AU - Mauki, Dickson

AU - Navarro, Jocelyn

AU - Oberholzer, Barryette

AU - Olivier, Bernard

AU - Olson, Alyssa N.

AU - Ray, Courtenay A.

AU - von Oppen, Jonathan

AU - Vorstenbosch, Tom

AU - Wang, Jonathan A.

AU - Enquist, Brian J.

PY - 2025/12

Y1 - 2025/12

N2 - Plant functional trait-based approaches are powerful tools to assess the consequences of global environmental changes for plant ecophysiology, population and community ecology, ecosystem functioning, and landscape ecology. Here, we present data capturing these ecological dimensions from grazing, nitrogen addition, and warming experiments conducted along a 821 m a.s.l. elevation gradient and from a climate warming experiment conducted across a 3,200 mm precipitation gradient in boreal and alpine grasslands in Vestland County, western Norway. From these systems we collected 28,762 plant and leaf functional trait measurements from 76 vascular plant species, 88 leaf assimilation-temperature responses, 577 leaf handheld hyperspectral readings, 2.26 billion leaf temperature measurements, 3,696 ecosystem CO2 flux measurements, and 10.69 ha of multispectral (10-band) and RGB cm-resolution imagery from 4,648 individual images obtained from airborne sensors. These data augment existing longer-term data on local climate, soils, plant populations, plant community composition, and ecosystem functioning from within the same experiments and study systems and from similar systems in other mountain regions globally.

AB - Plant functional trait-based approaches are powerful tools to assess the consequences of global environmental changes for plant ecophysiology, population and community ecology, ecosystem functioning, and landscape ecology. Here, we present data capturing these ecological dimensions from grazing, nitrogen addition, and warming experiments conducted along a 821 m a.s.l. elevation gradient and from a climate warming experiment conducted across a 3,200 mm precipitation gradient in boreal and alpine grasslands in Vestland County, western Norway. From these systems we collected 28,762 plant and leaf functional trait measurements from 76 vascular plant species, 88 leaf assimilation-temperature responses, 577 leaf handheld hyperspectral readings, 2.26 billion leaf temperature measurements, 3,696 ecosystem CO2 flux measurements, and 10.69 ha of multispectral (10-band) and RGB cm-resolution imagery from 4,648 individual images obtained from airborne sensors. These data augment existing longer-term data on local climate, soils, plant populations, plant community composition, and ecosystem functioning from within the same experiments and study systems and from similar systems in other mountain regions globally.

KW - Biology

UR - http://www.scopus.com/inward/record.url?scp=105014629778&partnerID=8YFLogxK

U2 - 10.1038/s41597-025-05509-4

DO - 10.1038/s41597-025-05509-4

M3 - Journal articles

C2 - 40854906

AN - SCOPUS:105014629778

VL - 12

JO - Scientific data

JF - Scientific data

SN - 2052-4463

IS - 1

M1 - 1477

ER -

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DOI

https://doi.org/10.1038/s41597-025-05509-4
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