Search results for "Arctic vegetation"

showing 7 items of 7 documents

Intraspecific Differences in Spectral Reflectance Curves as Indicators of Reduced Vitality in High-Arctic Plants

2017

Remote sensing is a suitable candidate for monitoring rapid changes in Polar regions, offering high-resolution spectral, spatial and radiometric data. This paper focuses on the spectral properties of dominant plant species acquired during the first week of August 2015. Twenty-eight plots were selected, which could easily be identified in the field as well as on RapidEye satellite imagery. Spectral measurements of individual species were acquired, and heavy metal contamination stress factors were measured contemporaneously. As a result, a unique spectral library of dominant plant species, heavy metal concentrations and damage ratios were achieved with an indication that species-specific chan…

Optical samplingDryas octopetala010504 meteorology & atmospheric sciencesScienceDryas octopetala:Zoology and botany: 480 [VDP]0211 other engineering and technologiesRed edge02 engineering and technologyAtmospheric sciences01 natural sciencesCassiope tetragonaNormalized Difference Vegetation IndexSvalbardCassiope tetragonaCassiope tetragonaSatellite imagerySalix polaris Salix polarisArctic vegetationDryas octopetalaRapidEye:Zoologiske og botaniske fag: 480 [VDP]Tundra021101 geological & geomatics engineering0105 earth and related environmental sciencesbiologySpectrometryQRed edgebiology.organism_classificationSalix polarisTundravegetation indicesBistorta viviparaGeneral Earth and Planetary SciencesEnvironmental scienceBistorta viviparaRemote Sensing

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Disjunct populations of European vascular plant species keep the same climatic niches

2015

Aim Previous research on how climatic niches vary across species ranges has focused on a limited number of species, mostly invasive, and has not, to date, been very conclusive. Here we assess the d ...

0106 biological sciencesVascular plantEcological nicheGlobal and Planetary Change010504 meteorology & atmospheric sciencesEcologybiologyEcologyDisjunct distributionNiche segregation15. Life on landDisjunctbiology.organism_classification010603 evolutionary biology01 natural sciencesEnvironmental niche modellingArctic vegetationEcology Evolution Behavior and Systematics0105 earth and related environmental sciencesGlobal biodiversityGlobal Ecology and Biogeography

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Experimental evidence of the long‐term effects of reindeer on Arctic vegetation greenness and species richness at a larger landscape scale

2019

1. Large herbivores influence plant community structure and ecosystem processes in many ecosystems. In large parts of the Arctic, reindeer (or caribou) are the only large herbivores present. Recent studies show that reindeer have the potential to mitigate recent warming-induced shrub encroachment in the Arctic and the associated greening of high-latitude ecosystems. This will potentially have large scale consequences for ecosystem productivity and carbon cycling. 2. To date, information on variation in the interactions between reindeer and plants across Arctic landscapes has been scarce. We utilized a network of experimental sites across a latitudinal gradient in the Scandinavian mountains …

0106 biological sciencestundraporoClimate changelarge mammalian herbivoresPlant Science010603 evolutionary biology01 natural sciencesplant community compositionforestGrazinglaiduntaminengrazingEcosystemArctic vegetationplant-herbivore interactionsEcology Evolution Behavior and Systematicsarktinen alueHerbivoreEcologyEcologyPlant communitykasvillisuusilmastonmuutoksetTundraekosysteemit (ekologia)climate changeGeographykasvinsyöjätsoil nutrientsSpecies richness010606 plant biology & botanyJournal of Ecology

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Feasibility of hyperspectral vegetation indices for the detection of chlorophyll concentration in three high Arctic plants: Salix polaris, Bistorta v…

2018

Remote sensing, which is based on a reflected electromagnetic spectrum, offers a wide range of research methods. It allows for the identification of plant properties, e.g., chlorophyll, but a registered signal not only comes from green parts but also from dry shoots, soil, and other objects located next to the plants. It is, thus, important to identify the most applicable remote-acquired indices for chlorophyll detection in polar regions, which play a primary role in global monitoring systems but consist of areas with high and low accessibility. This study focuses on an analysis of in situ-acquired hyperspectral properties, which was verified by simultaneously measuring the chlorophyll conc…

Arctic plants010504 meteorology & atmospheric sciences0211 other engineering and technologiesRed edge:Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480 [VDP]02 engineering and technologyPlant Scienceremote sensing indices01 natural sciencesNormalized Difference Vegetation Indexchemistry.chemical_compoundremote sensinglcsh:BotanySalix polarisASD FieldSpecDryas octopetalaArctic vegetation021101 geological & geomatics engineering0105 earth and related environmental sciencesbiologyVegetationbiology.organism_classificationBistorta viviparalcsh:QK1-989chemistryChlorophyllEnvironmental sciencePhysical geographyActa Societatis Botanicorum Poloniae

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Defoliation effects on plant and soil properties in an experimental low arctic grassland community – the role of plant community structure

2008

In Northern Fennoscandia, sub-arctic and arctic grasslands are commonly grazed by the semi-domesticated reindeer. Reindeer grazing is known to affect plant production and belowground processes, such as nutrient mineralization in these grasslands, but little is known of the role of plant community structure in the response of plant and soil properties to the defoliation of plants. Using soil and seeds from a low arctic meadow, we established a 23-week greenhouse experiment to test whether communities of different plant species richness (one, two or four species) and composition (three different replicated compositions within each richness level) respond to defoliation in a different way. We …

0106 biological sciencesSoil ScienceBiology010603 evolutionary biology01 natural sciencesMicrobiologyDecomposerGrasslandNutrientBotanyArctic vegetation2. Zero hungergeographygeography.geographical_feature_categoryfungifood and beveragesPlant community04 agricultural and veterinary sciences15. Life on landAgronomy13. Climate action040103 agronomy & agriculture0401 agriculture forestry and fisheriesPlant coverOmnivoreSpecies richnessSoil Biology and Biochemistry

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Soil feedback on plant growth in a sub-arctic grassland as a result of repeated defoliation

2008

In the long term, defoliation of plants can be hypothesized to decrease plant carbon supply to soil decomposers and thus decrease decomposer abundance and nutrient mineralization in the soil. To test whether defoliation creates changes in soil that can feedback to plant growth, we collected soil from sub-arctic grassland plots that had been either defoliated or non-defoliated for three years and followed the growth of different plant species combinations in these soils in greenhouse conditions. Plant N acquisition and plant growth were lower in the soil collected from the defoliated field plots than in the soil collected from the non-defoliated plots. This response did not depend on the spe…

0106 biological sciences2. Zero hungerfungifood and beveragesSoil SciencePlant community04 agricultural and veterinary sciencesMineralization (soil science)15. Life on landcomplex mixtures010603 evolutionary biology01 natural sciencesMicrobiologyDecomposerNutrientAgronomySoil water040103 agronomy & agriculture0401 agriculture forestry and fisheriesEnvironmental scienceEcosystemArctic vegetationSoil fertilitySoil Biology and Biochemistry

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Climate change and the ecology and evolution of Arctic vertebrates

2012

Climate change is taking place more rapidly and severely in the Arctic than anywhere on the globe, exposing Arctic vertebrates to a host of impacts. Changes in the cryosphere dominate the physical changes that already affect these animals, but increasing air temperatures, changes in precipitation, and ocean acidification will also affect Arctic ecosystems in the future. Adaptation via natural selection is problematic in such a rapidly changing environment. Adjustment via phenotypic plasticity is therefore likely to dominate Arctic vertebrate responses in the short term, and many such adjustments have already been documented. Changes in phenology and range will occur for most species but wil…

0106 biological sciencesEcology010604 marine biology & hydrobiologyGeneral NeuroscienceClimate change15. Life on land010603 evolutionary biology01 natural sciencesGeneral Biochemistry Genetics and Molecular BiologyGeographyHistory and Philosophy of ScienceArctic13. Climate actionThreatened speciesCryosphereEvolutionary ecologysense organs14. Life underwaterSpecies richnessArctic vegetationskin and connective tissue diseasesArctic ecologygeographic locationsAnnals of the New York Academy of Sciences

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