NelsonPeterBotanyPlantPathLichenTraitsSpeciesSupplementaryTableS2.pdf

Lichens in the Arctic play important ecological roles. They also face the threats of increasing fire and shrub and tree expansion, exacerbated or caused by climate change. These forces may lead to changes not only in lichen community composition but also in the abundance, diversity and distribution...

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Main Authors: Nelson, Peter R., McCune, Bruce, Swanson, David K.
Language:unknown
Subjects:
Climate change
Tundra
Online Access:https://ir.library.oregonstate.edu/concern/articles/dr26z022t
id ftoregonstate:ir.library.oregonstate.edu:dr26z022t
record_format openpolar
spelling ftoregonstate:ir.library.oregonstate.edu:dr26z022t 2024-09-15T18:02:20+00:00 NelsonPeterBotanyPlantPathLichenTraitsSpeciesSupplementaryTableS2.pdf Nelson, Peter R. McCune, Bruce Swanson, David K. https://ir.library.oregonstate.edu/concern/articles/dr26z022t unknown https://ir.library.oregonstate.edu/concern/articles/dr26z022t Copyright Not Evaluated ftoregonstate 2024-07-22T18:06:06Z Lichens in the Arctic play important ecological roles. They also face the threats of increasing fire and shrub and tree expansion, exacerbated or caused by climate change. These forces may lead to changes not only in lichen community composition but also in the abundance, diversity and distribution of lichen functional traits. We sought to connect landscape-scale patterns of lichen community composition and traits to environmental gradients to both monitor lichen communities and clarify community-trait-environment relationships. We measured lichens throughout one of the largest and most remote U.S. National Parks within the Arctic. We then analyzed lichen community composition and species richness within ecologically informative lichen trait groups along environmental and vascular vegetation gradients. Macrolichen species richness in 0.4 ha plots averaged 41 species with a total landscape level observed gamma diversity of 262 macrolichen species. Jackknife estimators placed the landscape level macrolichen diversity at 307 to 331 species. A gradient from low-elevation forests to high elevation rocky areas was the dominant ecological gradient as expressed by the lichen community, representing 68% of the variation in species composition. Low-elevation forests hosted more epiphytic lichens characteristic of boreal forests, whereas high-elevation lichen communities were characterized by saxicolous lichens, varying between siliceous, basic or mafic rock types. Along this gradient, species reproducing vegetatively and lichens with filamentous growth form were more frequent in forests while the diversity of traits was highest in alpine habitats. Simple cladoniiform, as opposed to erectly branched fruticose lichens in the genus Cladonia, were the only functional group associated with tussock tundra. Vegetation types differed significantly in lichen species composition and richness and trait richness; characteristic suites of lichen species and traits are associated with the particular vegetation types in the Arctic. We ... Other/Unknown Material Climate change Tundra ScholarsArchive@OSU (Oregon State University)
institution Open Polar
collection ScholarsArchive@OSU (Oregon State University)
op_collection_id ftoregonstate
language unknown
description Lichens in the Arctic play important ecological roles. They also face the threats of increasing fire and shrub and tree expansion, exacerbated or caused by climate change. These forces may lead to changes not only in lichen community composition but also in the abundance, diversity and distribution of lichen functional traits. We sought to connect landscape-scale patterns of lichen community composition and traits to environmental gradients to both monitor lichen communities and clarify community-trait-environment relationships. We measured lichens throughout one of the largest and most remote U.S. National Parks within the Arctic. We then analyzed lichen community composition and species richness within ecologically informative lichen trait groups along environmental and vascular vegetation gradients. Macrolichen species richness in 0.4 ha plots averaged 41 species with a total landscape level observed gamma diversity of 262 macrolichen species. Jackknife estimators placed the landscape level macrolichen diversity at 307 to 331 species. A gradient from low-elevation forests to high elevation rocky areas was the dominant ecological gradient as expressed by the lichen community, representing 68% of the variation in species composition. Low-elevation forests hosted more epiphytic lichens characteristic of boreal forests, whereas high-elevation lichen communities were characterized by saxicolous lichens, varying between siliceous, basic or mafic rock types. Along this gradient, species reproducing vegetatively and lichens with filamentous growth form were more frequent in forests while the diversity of traits was highest in alpine habitats. Simple cladoniiform, as opposed to erectly branched fruticose lichens in the genus Cladonia, were the only functional group associated with tussock tundra. Vegetation types differed significantly in lichen species composition and richness and trait richness; characteristic suites of lichen species and traits are associated with the particular vegetation types in the Arctic. We ...
author Nelson, Peter R.
McCune, Bruce
Swanson, David K.
spellingShingle Nelson, Peter R.
McCune, Bruce
Swanson, David K.
NelsonPeterBotanyPlantPathLichenTraitsSpeciesSupplementaryTableS2.pdf
author_facet Nelson, Peter R.
McCune, Bruce
Swanson, David K.
author_sort Nelson, Peter R.
title NelsonPeterBotanyPlantPathLichenTraitsSpeciesSupplementaryTableS2.pdf
title_short NelsonPeterBotanyPlantPathLichenTraitsSpeciesSupplementaryTableS2.pdf
title_full NelsonPeterBotanyPlantPathLichenTraitsSpeciesSupplementaryTableS2.pdf
title_fullStr NelsonPeterBotanyPlantPathLichenTraitsSpeciesSupplementaryTableS2.pdf
title_full_unstemmed NelsonPeterBotanyPlantPathLichenTraitsSpeciesSupplementaryTableS2.pdf
title_sort nelsonpeterbotanyplantpathlichentraitsspeciessupplementarytables2.pdf
url https://ir.library.oregonstate.edu/concern/articles/dr26z022t
genre Climate change
Tundra
genre_facet Climate change
Tundra
op_relation https://ir.library.oregonstate.edu/concern/articles/dr26z022t
op_rights Copyright Not Evaluated
_version_ 1810439800469061632

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