Aud H Halbritter
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Explore the profile of Aud H Halbritter including associated specialties, affiliations and a list of published articles.
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Articles
18
Citations
258
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Recent Articles
1.
Halbritter A, Vandvik V, Cotner S, Farfan-Rios W, Maitner B, Michaletz S, et al.
Sci Data
. 2024 Feb;
11(1):225.
PMID: 38383609
Alpine grassland vegetation supports globally important biodiversity and ecosystems that are increasingly threatened by climate warming and other environmental changes. Trait-based approaches can support understanding of vegetation responses to global...
2.
Vandvik V, Halbritter A, Althuizen I, Christiansen C, Henn J, Jonsdottir I, et al.
Sci Data
. 2023 Sep;
10(1):578.
PMID: 37666874
The Arctic is warming at a rate four times the global average, while also being exposed to other global environmental changes, resulting in widespread vegetation and ecosystem change. Integrating functional...
3.
Stromme C, Lane A, Halbritter A, Law E, Nater C, Nilsen E, et al.
PLoS One
. 2022 Dec;
17(12):e0278339.
PMID: 36542605
The Open Science (OS) movement is rapidly gaining traction among policy-makers, research funders, scientific journals and individual scientists. Despite these tendencies, the pace of implementing OS throughout the scientific process...
4.
Vandvik V, Althuizen I, Jaroszynska F, Kruger L, Lee H, Goldberg D, et al.
Sci Data
. 2022 Jul;
9(1):451.
PMID: 35902592
Plant removal experiments allow assessment of the role of biotic interactions among species or functional groups in community assembly and ecosystem functioning. When replicated along climate gradients, they can assess...
5.
Lembrechts J, van den Hoogen J, Aalto J, Ashcroft M, De Frenne P, Kemppinen J, et al.
Glob Chang Biol
. 2021 Dec;
28(9):3110-3144.
PMID: 34967074
Research in global change ecology relies heavily on global climatic grids derived from estimates of air temperature in open areas at around 2 m above the ground. These climatic grids...
6.
Chacon-Labella J, Boakye M, Enquist B, Farfan-Rios W, Gya R, Halbritter A, et al.
Ecol Evol
. 2021 Apr;
11(8):3588-3596.
PMID: 33898011
The COVID-19 crisis has forced researchers in Ecology to change the way we work almost overnight. Nonetheless, the pandemic has provided us with several novel components for a new way...
7.
Geange S, von Oppen J, Strydom T, Boakye M, Gauthier T, Gya R, et al.
Ecol Evol
. 2021 Apr;
11(8):3577-3587.
PMID: 33898010
As Open Science practices become more commonplace, there is a need for the next generation of scientists to be well versed in these aspects of scientific research. Yet, many training ...
8.
Kemppinen J, Niittynen P, le Roux P, Momberg M, Happonen K, Aalto J, et al.
Nat Ecol Evol
. 2021 Feb;
5(4):458-467.
PMID: 33633373
A fundamental assumption in trait-based ecology is that relationships between traits and environmental conditions are globally consistent. We use field-quantified microclimate and soil data to explore if trait-environment relationships are...
9.
Vandvik V, Skarpaas O, Klanderud K, Telford R, Halbritter A, Goldberg D
Proc Natl Acad Sci U S A
. 2020 Sep;
117(37):22858-22865.
PMID: 32868426
Generality in understanding biodiversity responses to climate change has been hampered by substantial variation in the rates and even directions of response to a given change in climate. We propose...
10.
Vandvik V, Halbritter A, Yang Y, He H, Zhang L, Brummer A, et al.
Sci Data
. 2020 Jun;
7(1):189.
PMID: 32561854
Functional trait data enhance climate change research by linking climate change, biodiversity response, and ecosystem functioning, and by enabling comparison between systems sharing few taxa. Across four sites along a...