- E-postaud.halbritter@uib.no
- Telefon+47 55 58 22 49
- BesøksadresseThormøhlensgt. 53 A/B5020 Bergen
- PostadressePostboks 78035020 Bergen
For more details see my personal web page.
Vitenskapelig artikkel
- (2023). Plant traits and associated data from a warming experiment, a seabird colony, and along elevation in Svalbard. Scientific Data. 21 sider.
- (2023). Bryophytes dominate plant regulation of soil microclimate in alpine grasslands. Oikos. 14 sider.
- (2023). Bootstrapping outperforms community-weighted approaches for estimating the shapes of phenotypic distributions. Methods in Ecology and Evolution.
- (2022). Three decades of environmental change studies at alpine Finse, Norway: climate trends and responses across ecological scales. Arctic Science. 430-450.
- (2022). The role of plant functional groups mediating climate impacts on carbon and biodiversity of alpine grasslands. Scientific Data. 19 sider.
- (2022). Intraspecific trait variability is a key feature underlying high Arctic plant community resistance to climate warming. Ecological Monographs. 21 sider.
- (2022). Close to open—Factors that hinder and promote open science in ecology research and education. PLOS ONE.
- (2021). Multiscale mapping of plant functional groups and plant traits in the High Arctic using field spectroscopy, UAV imagery and Sentinel-2A data. Environmental Research Letters. 20 sider.
- (2021). Global maps of soil temperature. Global Change Biology. 3110-3144.
- (2021). Consistent trait-environment relationships within and across tundra plant communities. Nature Ecology and Evolution. 458-467.
- (2021). A reporting format for leaf-level gas exchange data and metadata. Ecological Informatics. 10 sider.
- (2020). Understanding ecosystems of the future will require more than realistic climate change experiments – a response to Korell et al. Global Change Biology. e6-e7.
- (2020). The altitudinal patterns of plant diversity and grazing intensity in subalpine-alpine meadow of western Sichuan, China. Chinese Journal of Applied & Environmental Biology. 10 sider.
- (2020). SoilTemp: A global database of near-surface temperature. Global Change Biology. 6616-6629.
- (2020). Plant traits and vegetation data from climate warming experiments along an 1100 m elevation gradient in Gongga Mountains, China. Scientific Data. 15 sider.
- (2020). Next‐generation field courses: Integrating Open Science and online learning. Ecology and Evolution. 3577-3587.
- (2020). From a crisis to an opportunity: Eight insights for doing science in the COVID‐19 era and beyond. Ecology and Evolution.
- (2020). Biotic rescaling reveals importance of species interactions for variation in biodiversity responses to climate change. Proceedings of the National Academy of Sciences of the United States of America. 22858-22865.
- (2020). Adding value to a field-based course with a science communication module on local perceptions of climate change. The Bulletin of the Ecological Society of America.
- (2019). The handbook for standardized field and laboratory measurements in terrestrial climate change experiments and observational studies (ClimEx). Methods in Ecology and Evolution. 22-37.
- (2018). Transplants, open top chambers (OTCS) and gradient studies ask different questions in climate change effects studies. Frontiers in Plant Science. 1-9.
- (2018). Intraspecific Trait Variation and Phenotypic Plasticity Mediate Alpine Plant Species Response to Climate Change. Frontiers in Plant Science. 11 sider.
- (2018). Greening up the mountain. Proceedings of the National Academy of Sciences of the United States of America. 833-835.
- (2017). Plastic and genetic responses to shifts in snowmelt time affects the reproductive phenology and growth of Ranunculus acris. Perspectives in plant ecology, evolution and systematics. 62-70.
- (2015). Local adaptation at range edges: comparing elevation and latititudinal gradients. Journal of Evolutionary Biology. 1849-1860.
- (2013). How comparable are species distributions along elevational and latitudinal temperature gradients? Global Ecology and Biogeography. 1228-1237.
- (2012). Testing assumptions of the Enemy Release Hypothesis: Generalist versus specialist enemies of the grass Brachypodium sylvaticum (Huds.) P. Beauv. Mycologia. 34-44.
Rapport
- (2022). Effect of nitrogen,temperature and grazing on above and below-ground productivity of alpine ecosystem. .
Faglig foredrag
- (2023). Plant functional groups mediate climate effects on mesofauna abundance and community composition.
- (2023). Mitigation effects of grazing on climate change impacts in alpine grasslands.
- (2023). Carbon fluxes in alpine grasslands.
- (2022). Targets package - pipeline tool for data science in R.
- (2022). Standardized methods and distributed experiments to understand global change impacts on alpine biodiversity and ecosystem functioning.
- (2022). Open, Reproducible, and Transparent Science in Ecology.
- (2022). Open Science in teaching and supervision.
- (2020). Education X open science workshop.
- (2019). Integrating experiments and gradient approaches to study climate impacts on ecosystems.
- (2019). Does intraspecific trait variability contribute to plant community resistance to warming in high Arctic island ecosystems?
- (2018). Mosses - the regulating blanket of alpine grasslands?
- (2017). Plastic and genetic responses to shifts in snowmelt time affects the reproductive phenology and growth of Ranunculus acris.
- (2016). Climate change effects on phenology in alpine plant communities.
Vitenskapelig foredrag
- (2023). Three decades of environmental change studies at alpine Finse, Norway: responses across ecological scales .
- (2023). The way forward: teaching and learning traits in a FAIR Open Science world.
- (2023). Living Norway Course on Open, Reproducible and Transparent Science in Ecology.
- (2023). Can grazing mitigate global change impacts in alpine ecosystems.
- (2022). Reproduction and pollination in bilberry (Vaccinium myrtillus) along elevational gradients in western Norway.
- (2022). Could grazing be the answer to the climate change induced loss of carbon storage in alpine grasslands?
- (2022). Can grazing mitigate global change impacts in alpine ecosystems?
- (2021). Structure and function of alpine grassland under changing environment.
- (2021). Standardized methods and distributed experiments to understand global change impacts on alpine biodiversity and ecosystem functioning.
- (2021). Response of Alpine Meadow in Western Sichuan to Shrub Invasion.
- (2021). Can grazing mitigate global change impact on alpine ecosystems.
- (2021). Applying and promoting Open Science in ecology - survey drivers and challenges.
- (2020). Understanding community assemblage using species and functional diversity across elevational gradients from the tropics to the arctic.
- (2020). Going high: Biodiversity and ecosystem functioning along some of the world’s most striking altitudinal gradients OR how a plant functional traits course travelled three continents and counting.
- (2020). Data collection on biodiversity and carbon fluxes responses to warmer climate, nitrogen deposition and grazing – the first field season (Three-D project).
- (2020). Community assemblage and functional diversity across elevational gradients from the tropics to the arctic.
- (2020). Climate change and novel interaction effects on alpine vegetation: a meta-study on global scale.
- (2019). The handbook for standardised field measurements in terrestrial global change experiments.
- (2019). THREE-D Startup meeting - Integrated assessment to aid mitigation of negative impacts by THREE global change Drivers on alpine biodiversity and ecosystem function.
- (2019). THREE-D Startup Meeting China - Integrated assessment to aid mitigation of negative impacts by THREE global change Drivers on alpine biodiversity and ecosystem function.
- (2019). THREE-D - Integrert vurdering for å redusere negative effekter av tre menneskelige påvirkninger på alpin biologisk mangfold og økosystem funksjon.
- (2019). THREE-D - Integrated assessment to aid mitigation of negative impacts by THREE global change Drivers on alpine biodiversity and ecosystem function.
- (2019). Functional group interactions mediate climate change impacts on the Carbon dynamics and Biodiversity of alpine ecosystems.
- (2019). Carbon in coastal heathlands and semi-natural grasslands. A LandPress, FunCaB and Three-D perspective .
- (2018). Using experimental macroecology to assess climate change impacts on plants.
- (2018). Trait differentiation and adaptation in plants along elevation gradients. .
- (2018). Ecosystem responses and feedbacks to climate change - lessons from terrestrial ecology?
- (2018). Built-in insulation; plant functional groups regulate soil conditions in alpine grasslands.
- (2017). Konsekvenser av klimaendringer: Hva skjer når fjellplanter flyttes til et varmere og våtere klima? .
- (2017). Integrating experimental and gradient approaches to study CC impacts on plants.
- (2017). Eco-climatological experiments in the field and in the laboratory.
- (2016). Climate change effects on phenology in alpine plant communities.
- (2015). Climate change effects on phenology in alpine plant communities.
- (2015). Climate change effects on phenology in alpine plant communities.
- (2014). Local adaptation at the edge: comparing elevation and latitudinal gradients.
- (2012). Responses of ruderal plant populations to latitudinal and elevational temperature gradients.
Mastergradsoppgave
- (2022). How three global change drivers affect the carbon dynamics of alpine grasslands.
- (2022). Effect of Climate Warming on Alpine Soil Decomposition in Western Norway Using the Tea Bag Index and soil respiration along an altitudinal gradient .
- (2020). The effects of livestock grazing on semi-natural grassland communities along an elevational gradient in Norway.
- (2020). The effects of livestock grazing on semi-natural grassland communities along an elevational gradient in Norway.
Database
- (2023). PFTCourses, Elevational Gradient, Bird Cliff and ITEX Experiment, Longyearbyen, Svalbard.
- (2023). OSF data repository for PFTC3, Puna project and PFTC5 - PFTCourses, Elevational Gradient, Puna Project and Fire Experiment, Wayquecha, Peru.
- (2022). The role of plant functional group interactions in mediating climate change impacts on the carbon dynamics and biodiversity of alpine ecosystems.
- (2020). PFTCourses Elevational Gradient and TransPlant Experiment, Gongga Mountain, China.
Populærvitenskapelig artikkel
- (2020). Kan utmarksbeite bidra til økt biologisk mangfold og karbonlagring i framtida? Sau og geit. 46-50.
Poster
- (2022). Effect of warming on carbon fluxes in alpine grasslands.
- (2022). Carbon fluxes response to warming in alpine grasslands.
- (2019). The mountain TransPlant Network.
- (2018). A Culturally Competent Course‐Based Research Experience (CRE) for Graduate Students.
Digitale læremidler
- (2022). PFTC Teaching Material.
- (2022). Data collection.
- (2021). Git and GitHub.
- (2021). Enough R to write a thesis.
Errata
- (2020). Publisher Correction: Open Science principles for accelerating trait-based science across the Tree of Life (Nature Ecology & Evolution, (2020), 4, 3, (294-303), 10.1038/s41559-020-1109-6). Nature Ecology and Evolution. 662.
Vitenskapelig oversiktsartikkel/review
- (2022). Winters are changing: snow effects on Arctic and alpine tundra ecosystems. Arctic Science. 572-608.
- (2020). Open Science principles for accelerating trait-based science across the Tree of Life. Nature Ecology and Evolution. 294-303.
- (2018). Trait differentiation and adaptation of plants along elevation gradients. Journal of Evolutionary Biology. 784-800.
Nettsider (opplysningsmateriale)
- (2019). Plant Functional Traits Courses Hands-on training in Plant Functional Traits ecology.
Se fullstendig oversikt over publikasjoner i CRIStin.
Halbritter, A.H., Alexander, J.M., Edwards, P.J., Billeter, R. (2013). How comparable are species distributions along elevational and latitudinal temperature gradients? Global Ecology and Biogeography. 22 (11): 1228–1237.
Halbritter, A.H., Carrol, G., Güsewell, S., Roy, B.A. (2012) Testing assumptions of the Enemy Release Hypothesis: Generalist versus specialist enemies of the grass Brachypodium sylvaticum(Huds.) P. Beauv. Mycologia, 104 (1): 34-44.