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Publication DateConservation Biology, ISSN 0888-8892, 12/2014, Volume 28, Issue 6, pp. 1740 - 1742
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Loading RightsGlobal Change Biology, ISSN 1354-1013, 11/2019, Volume 25, Issue 11, pp. 3669 - 3679
Indirect effects of climate change are often mediated by trophic interactions and consequences for individual species depend on how they are tied into the...
lemming cycles | trophic interactions | breeding success | numerical response | rough‐legged buzzard | food web | indirect effects of climate change | diet selectivity | Hawks | Global temperature changes | Local food | Climate effects | Communities | Variations | Food webs | Biology | Density | Flexibility | Plasticity (functional) | Demographics | Food chains | Dynamics | Polar environments | Global warming | Community composition | Fluctuations | Composition | Check lists | Breeding | Abundance | Species composition | Climatic changes | Prey | Climate change | Biological warfare | Trophic relationships | Tundra | Index Medicus
lemming cycles | trophic interactions | breeding success | numerical response | rough‐legged buzzard | food web | indirect effects of climate change | diet selectivity | Hawks | Global temperature changes | Local food | Climate effects | Communities | Variations | Food webs | Biology | Density | Flexibility | Plasticity (functional) | Demographics | Food chains | Dynamics | Polar environments | Global warming | Community composition | Fluctuations | Composition | Check lists | Breeding | Abundance | Species composition | Climatic changes | Prey | Climate change | Biological warfare | Trophic relationships | Tundra | Index Medicus
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Loading RightsProceedings: Biological Sciences, ISSN 0962-8452, 5/2012, Volume 279, Issue 1735, pp. 2042 - 2051
Climate change will lead to loss of range for many species, and thus to loss of genetic diversity crucial for their long-term persistence. We analysed...
Climate change | Genetic variation | Materials | Evolutionary genetics | Genetic diversity | Plants | Population genetics | Species | Modeling | Phenotypic traits | Range reduction | Species distribution model | Conservation genetics | Species traits | genetic diversity | LIFE-HISTORY TRAITS | species traits | F-ST | SPECIES DISTRIBUTIONS | HABITAT MODELS | POPULATIONS | species distribution model | FUTURE | range reduction | EVOLUTIONARY BIOLOGY | RANGE SHIFTS | CONSERVATION | BIOLOGY | ECOLOGY | DIVERSITY | EXTINCTION | EVOLUTIONARY RESPONSES | conservation genetics | Genetic Variation | Adaptation, Biological | Conservation of Natural Resources | Climate Change | Plants - genetics | Amplified Fragment Length Polymorphism Analysis | 1001 | 129 | F ST
Climate change | Genetic variation | Materials | Evolutionary genetics | Genetic diversity | Plants | Population genetics | Species | Modeling | Phenotypic traits | Range reduction | Species distribution model | Conservation genetics | Species traits | genetic diversity | LIFE-HISTORY TRAITS | species traits | F-ST | SPECIES DISTRIBUTIONS | HABITAT MODELS | POPULATIONS | species distribution model | FUTURE | range reduction | EVOLUTIONARY BIOLOGY | RANGE SHIFTS | CONSERVATION | BIOLOGY | ECOLOGY | DIVERSITY | EXTINCTION | EVOLUTIONARY RESPONSES | conservation genetics | Genetic Variation | Adaptation, Biological | Conservation of Natural Resources | Climate Change | Plants - genetics | Amplified Fragment Length Polymorphism Analysis | 1001 | 129 | F ST
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Loading RightsBMC Bioinformatics, ISSN 1471-2105, 01/2009, Volume 10, Issue 1, pp. 33 - 33
Background: Since the transfer and application of modern sequencing technologies to the analysis of amplified fragment-length polymorphisms (AFLP),...
POLYMORPHISMS | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | HOMOPLASY | SIZE | BIOCHEMICAL RESEARCH METHODS | MATHEMATICAL & COMPUTATIONAL BIOLOGY | MARKERS | GENOTYPING ERRORS | DIVERSITY | SOFTWARE | Amplified Fragment Length Polymorphism Analysis - methods | Genetic Variation | Heterozygote | Computational Biology - methods | Software | Algorithms | Usage | Research | Genetic variation | Applications software | Genetic algorithms
POLYMORPHISMS | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | HOMOPLASY | SIZE | BIOCHEMICAL RESEARCH METHODS | MATHEMATICAL & COMPUTATIONAL BIOLOGY | MARKERS | GENOTYPING ERRORS | DIVERSITY | SOFTWARE | Amplified Fragment Length Polymorphism Analysis - methods | Genetic Variation | Heterozygote | Computational Biology - methods | Software | Algorithms | Usage | Research | Genetic variation | Applications software | Genetic algorithms
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Loading RightsNew Phytologist, ISSN 0028-646X, 11/2013, Volume 200, Issue 3, pp. 898 - 910
We provide the first comparative multispecies analysis of spatial genetic structure and diversity in the circumpolar Arctic using a common strategy for...
Full papers | Gene flow | Ecological genetics | Refuge habitats | Phylogeography | Plant genetics | Evolutionary genetics | Genetic diversity | Plants | Population genetics | Alpine glaciers | genetic diversity | genetic structure | plant dispersal | amplified fragment length polymorphisms (AFLP) | Arctic | geographical information system (GIS) | refugia | comparative phylogeography | Comparative phylogeography | Refugia | Genetic structure | Geographical information system (GIS) | Plant dispersal | Amplified fragment length polymorphisms (AFLP) | ALPINE PLANT | LONG-DISTANCE DISPERSAL | LAST GLACIAL MAXIMUM | VOLE MICROTUS-OECONOMUS | FAR NE RUSSIA | CLIMATE-CHANGE | MITOCHONDRIAL-DNA VARIATION | PLANT SCIENCES | TRANS-ATLANTIC DISPERSAL | WESTERN NORTH-AMERICA | Haplotypes | Plant Dispersal - genetics | Gene Flow | Atlantic Ocean | Phylogeny | Ice Cover | Polymorphism, Genetic | Plants - genetics | Arctic Regions | Ecosystem | Siberia | Amplified Fragment Length Polymorphism Analysis | Greenland | DNA, Chloroplast - analysis | Freeways | Interglacial periods | Analysis | Biological diversity | VDP | Matematikk og Naturvitenskap: 400 | Mathematics and natural science: 400 | Plantegeografi: 496 | Zoology and botany: 480 | Zoologiske og botaniske fag: 480 | Plant geography: 496 | Life Sciences | Populations and Evolution | Genetics | Biodiversity | Biodiversity and Ecology | Environmental Sciences
Full papers | Gene flow | Ecological genetics | Refuge habitats | Phylogeography | Plant genetics | Evolutionary genetics | Genetic diversity | Plants | Population genetics | Alpine glaciers | genetic diversity | genetic structure | plant dispersal | amplified fragment length polymorphisms (AFLP) | Arctic | geographical information system (GIS) | refugia | comparative phylogeography | Comparative phylogeography | Refugia | Genetic structure | Geographical information system (GIS) | Plant dispersal | Amplified fragment length polymorphisms (AFLP) | ALPINE PLANT | LONG-DISTANCE DISPERSAL | LAST GLACIAL MAXIMUM | VOLE MICROTUS-OECONOMUS | FAR NE RUSSIA | CLIMATE-CHANGE | MITOCHONDRIAL-DNA VARIATION | PLANT SCIENCES | TRANS-ATLANTIC DISPERSAL | WESTERN NORTH-AMERICA | Haplotypes | Plant Dispersal - genetics | Gene Flow | Atlantic Ocean | Phylogeny | Ice Cover | Polymorphism, Genetic | Plants - genetics | Arctic Regions | Ecosystem | Siberia | Amplified Fragment Length Polymorphism Analysis | Greenland | DNA, Chloroplast - analysis | Freeways | Interglacial periods | Analysis | Biological diversity | VDP | Matematikk og Naturvitenskap: 400 | Mathematics and natural science: 400 | Plantegeografi: 496 | Zoology and botany: 480 | Zoologiske og botaniske fag: 480 | Plant geography: 496 | Life Sciences | Populations and Evolution | Genetics | Biodiversity | Biodiversity and Ecology | Environmental Sciences
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Loading RightsScience, ISSN 0036-8075, 6/2007, Volume 316, Issue 5831, pp. 1606 - 1609
The ability of species to track their ecological niche after climate change is a major source of uncertainty in predicting their future distribution. By...
Climate change | Geographic regions | Paleoclimatology | Reports | Climate models | Archipelagos | Genetic diversity | Plants | Population genetics | Species | Sea ice | DISPERSAL | DISTRIBUTIONS | MIGRATION | EUROPE | AREA | ENVIRONMENTAL-CHANGE | MULTIDISCIPLINARY SCIENCES | CLIMATE-CHANGE | MECHANISMS | SVALBARD | Adaptation, Physiological | Arabis - physiology | Geography | Wind | DNA Fingerprinting | Betula - physiology | Magnoliopsida - genetics | Ericaceae - physiology | Salix - physiology | Ice Cover | Genetic Variation | Magnoliopsida - physiology | Rosales - growth & development | Ecosystem | Polymerase Chain Reaction | Salix - genetics | Betula - genetics | Ericaceae - genetics | Cold Climate | Ericaceae - growth & development | Rosales - genetics | Arabis - genetics | Arctic Regions | Betula - growth & development | Arabis - growth & development | Salix - growth & development | Rosales - physiology | Magnoliopsida - growth & development | Environmental aspects | Climatic changes | Population density | Arctic regions | Botany | Distribution | DNA fingerprints | Plant populations | Plant ecology | Life Sciences | Ecology, environment | Biodiversity and Ecology | Biodiversity | Environmental Sciences
Climate change | Geographic regions | Paleoclimatology | Reports | Climate models | Archipelagos | Genetic diversity | Plants | Population genetics | Species | Sea ice | DISPERSAL | DISTRIBUTIONS | MIGRATION | EUROPE | AREA | ENVIRONMENTAL-CHANGE | MULTIDISCIPLINARY SCIENCES | CLIMATE-CHANGE | MECHANISMS | SVALBARD | Adaptation, Physiological | Arabis - physiology | Geography | Wind | DNA Fingerprinting | Betula - physiology | Magnoliopsida - genetics | Ericaceae - physiology | Salix - physiology | Ice Cover | Genetic Variation | Magnoliopsida - physiology | Rosales - growth & development | Ecosystem | Polymerase Chain Reaction | Salix - genetics | Betula - genetics | Ericaceae - genetics | Cold Climate | Ericaceae - growth & development | Rosales - genetics | Arabis - genetics | Arctic Regions | Betula - growth & development | Arabis - growth & development | Salix - growth & development | Rosales - physiology | Magnoliopsida - growth & development | Environmental aspects | Climatic changes | Population density | Arctic regions | Botany | Distribution | DNA fingerprints | Plant populations | Plant ecology | Life Sciences | Ecology, environment | Biodiversity and Ecology | Biodiversity | Environmental Sciences
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Interspecific and interploidal gene flow in Central European Arabidopsis (Brassicaceae)
BMC Evolutionary Biology, ISSN 1471-2148, 2011, Volume 11, Issue 1, pp. 346 - 346
Background: Effects of polyploidisation on gene flow between natural populations are little known. Central European diploid and tetraploid populations of...
EVOLUTIONARY BIOLOGY | DNA-SEQUENCES | EVOLUTION | POLYPLOID SPECIATION | LYRATA COMPLEX | GENETICS & HEREDITY | DIVERSITY | HYBRIDIZATION | PCR-MEDIATED RECOMBINATION | PHYLOGENETIC NETWORKS | REPRODUCTIVE ISOLATION | RECURRENT FORMATION | Arabidopsis - genetics | Tetraploidy | Gene Flow | Europe | Genome, Plant | Sequence Analysis, DNA | DNA, Plant - genetics | DNA, Plant - isolation & purification | Polymerase chain reaction | Usage | Cruciferae | Arabidopsis | Physiological aspects | Genetic aspects | Research | Studies | Polyploidy | Taxonomy | Evolution | Genetic diversity | Genomes | Manuscripts | Flow cytometry | Gene flow | Genetic isolation | Migration | Diploids | Plastids | VDP | Basale biofag: 470 | Genetikk og genomikk: 474 | Mathematics and natural science: 400 | Matematikk og Naturvitenskap: 400 | Basic biosciences: 470 | Genetics and genomics: 474
EVOLUTIONARY BIOLOGY | DNA-SEQUENCES | EVOLUTION | POLYPLOID SPECIATION | LYRATA COMPLEX | GENETICS & HEREDITY | DIVERSITY | HYBRIDIZATION | PCR-MEDIATED RECOMBINATION | PHYLOGENETIC NETWORKS | REPRODUCTIVE ISOLATION | RECURRENT FORMATION | Arabidopsis - genetics | Tetraploidy | Gene Flow | Europe | Genome, Plant | Sequence Analysis, DNA | DNA, Plant - genetics | DNA, Plant - isolation & purification | Polymerase chain reaction | Usage | Cruciferae | Arabidopsis | Physiological aspects | Genetic aspects | Research | Studies | Polyploidy | Taxonomy | Evolution | Genetic diversity | Genomes | Manuscripts | Flow cytometry | Gene flow | Genetic isolation | Migration | Diploids | Plastids | VDP | Basale biofag: 470 | Genetikk og genomikk: 474 | Mathematics and natural science: 400 | Matematikk og Naturvitenskap: 400 | Basic biosciences: 470 | Genetics and genomics: 474
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Loading RightsPLoS ONE, ISSN 1932-6203, 05/2016, Volume 11, Issue 5, p. e0155980
Global changes are thought to affect most Arctic species, yet some populations are more at risk. Today, the Barents Sea ecoregion is suffering the strongest...
STABLE-ISOTOPES | FEMALE POLAR BEARS | SEALS PUSA-HISPIDA | FOOD-WEB | MULTIDISCIPLINARY SCIENCES | WESTERN HUDSON-BAY | BEARS URSUS-MARITIMUS | CLIMATE-CHANGE | BARENTS SEA | FATTY-ACID ANALYSIS | ADIPOSE-TISSUE | Predatory Behavior | Reproduction | Animals | Diet | Arctic Regions | Ecosystem | Ursidae - genetics | Life History Traits | Female | Male | Fatty Acids - metabolism | Ursidae - physiology | Physiological aspects | Environmental aspects | Predatory animals | Behavior | Research | Sea ice | Adipose tissue | Habitats | Trophic levels | Erythrocytes | Polar bears | Marine mammals | Red blood cells | Spring (season) | Polar environments | Stable isotopes | Physiology | Sampling | Isotopes | Species | Life history | Fasting | Autumn | Nutrition | Blood cells | Marine biology | Ice | Nitrogen | Breeding status | Ice cover | Fatty acids | Feeding | Prey | Seals | Females | Tracers | Marine biology: 497 | VDP | Zoology and botany: 480 | Zoologiske og botaniske fag: 480 | Matematikk og Naturvitenskap: 400 | Mathematics and natural science: 400 | Marinbiologi: 497
STABLE-ISOTOPES | FEMALE POLAR BEARS | SEALS PUSA-HISPIDA | FOOD-WEB | MULTIDISCIPLINARY SCIENCES | WESTERN HUDSON-BAY | BEARS URSUS-MARITIMUS | CLIMATE-CHANGE | BARENTS SEA | FATTY-ACID ANALYSIS | ADIPOSE-TISSUE | Predatory Behavior | Reproduction | Animals | Diet | Arctic Regions | Ecosystem | Ursidae - genetics | Life History Traits | Female | Male | Fatty Acids - metabolism | Ursidae - physiology | Physiological aspects | Environmental aspects | Predatory animals | Behavior | Research | Sea ice | Adipose tissue | Habitats | Trophic levels | Erythrocytes | Polar bears | Marine mammals | Red blood cells | Spring (season) | Polar environments | Stable isotopes | Physiology | Sampling | Isotopes | Species | Life history | Fasting | Autumn | Nutrition | Blood cells | Marine biology | Ice | Nitrogen | Breeding status | Ice cover | Fatty acids | Feeding | Prey | Seals | Females | Tracers | Marine biology: 497 | VDP | Zoology and botany: 480 | Zoologiske og botaniske fag: 480 | Matematikk og Naturvitenskap: 400 | Mathematics and natural science: 400 | Marinbiologi: 497
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Loading RightsMolecular Ecology, ISSN 0962-1083, 03/2006, Volume 15, Issue 3, pp. 825 - 839
Arabis alpina is a characteristic plant in arctic‐alpine habitats and serves as a classical example to demonstrate biology, ecology and biogeography of...
arctic‐alpine plant | Africa | Arabis alpina | Brassicaceae | refugia | phylogeography | Pleistocene | Refugia | Phylogeography | Arctic-alpine plant | MITOCHONDRIAL | INTERNAL TRANSCRIBED SPACER | BIOCHEMISTRY & MOLECULAR BIOLOGY | GENETIC DIFFERENTIATION | CHLOROPLAST | POPULATIONS | MOLECULAR SYSTEMATICS | arctic-alpine plant | EVOLUTIONARY BIOLOGY | EVOLUTION | DNA | GLACIAL SURVIVAL | ECOLOGY | ICE AGES | Arabis - genetics | Geography | Haplotypes | Asia | Europe | DNA, Chloroplast - genetics | Phylogeny | Sequence Analysis, DNA | DNA, Chloroplast - analysis | Plant populations | Genomics | Flowers & plants
arctic‐alpine plant | Africa | Arabis alpina | Brassicaceae | refugia | phylogeography | Pleistocene | Refugia | Phylogeography | Arctic-alpine plant | MITOCHONDRIAL | INTERNAL TRANSCRIBED SPACER | BIOCHEMISTRY & MOLECULAR BIOLOGY | GENETIC DIFFERENTIATION | CHLOROPLAST | POPULATIONS | MOLECULAR SYSTEMATICS | arctic-alpine plant | EVOLUTIONARY BIOLOGY | EVOLUTION | DNA | GLACIAL SURVIVAL | ECOLOGY | ICE AGES | Arabis - genetics | Geography | Haplotypes | Asia | Europe | DNA, Chloroplast - genetics | Phylogeny | Sequence Analysis, DNA | DNA, Chloroplast - analysis | Plant populations | Genomics | Flowers & plants
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Loading RightsOecologia, ISSN 0029-8549, 4/2016, Volume 180, Issue 4, pp. 1195 - 1203
The decline or recolonization of apex predators such as wolves and lynx, often driven by management decisions, and the expansion of smaller generalist...
Life Sciences | Hydrology/Water Resources | Lynx | Wolverine | Red fox | Ecology | Wolf | Plant Sciences | Arctic fox | INTERSPECIFIC COMPETITION | WOLVERINES | OCCUPANCY | EURASIA | MESOPREDATOR | CONSERVATION | HABITAT | ECOLOGY | ECOSYSTEMS | Models, Theoretical | Europe, Eastern | Predatory Behavior | Cold Temperature | Humans | Asia, Western | Food Chain | Animals | Foxes | Wolves | Arctic Regions | Ecosystem | Mustelidae | Seasons | Tundra | Population Dynamics | Tundra ecology | Ecosystems | Analysis
Life Sciences | Hydrology/Water Resources | Lynx | Wolverine | Red fox | Ecology | Wolf | Plant Sciences | Arctic fox | INTERSPECIFIC COMPETITION | WOLVERINES | OCCUPANCY | EURASIA | MESOPREDATOR | CONSERVATION | HABITAT | ECOLOGY | ECOSYSTEMS | Models, Theoretical | Europe, Eastern | Predatory Behavior | Cold Temperature | Humans | Asia, Western | Food Chain | Animals | Foxes | Wolves | Arctic Regions | Ecosystem | Mustelidae | Seasons | Tundra | Population Dynamics | Tundra ecology | Ecosystems | Analysis
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Loading RightsAmbio, ISSN 0044-7447, 2018, Volume 48, Issue 6, pp. 649 - 660
The socioeconomic causes of land use change are complex. They are highly context dependent, but most often studied through case studies. Here, we use a...
Socio-ecological systems | Subsistence | Arctic tundra | Remote sensing | Motorized vehicles | Resource use | SYSTEM | AGRICULTURE | GLOBALIZATION | RESILIENCE | PENINSULA | CLIMATE-CHANGE | ALASKA | COMMUNITIES | ENVIRONMENTAL SCIENCES | ENGINEERING, ENVIRONMENTAL | CONSEQUENCES | Environmental aspects | Economic aspects | Arctic | Economic development | Land use | Economic models | Image resolution | Harvesting | Income | Socio-economic aspects | Socioeconomics | Ice environments | Case studies | Satellite imagery | Off road vehicles | Polar environments | Herding | All terrain vehicles | Matematikk og naturvitenskap: 400 | VDP | Zoology and botany: 480 | Zoologiske og botaniske fag: 480 | Mathematics and natural scienses: 400
Socio-ecological systems | Subsistence | Arctic tundra | Remote sensing | Motorized vehicles | Resource use | SYSTEM | AGRICULTURE | GLOBALIZATION | RESILIENCE | PENINSULA | CLIMATE-CHANGE | ALASKA | COMMUNITIES | ENVIRONMENTAL SCIENCES | ENGINEERING, ENVIRONMENTAL | CONSEQUENCES | Environmental aspects | Economic aspects | Arctic | Economic development | Land use | Economic models | Image resolution | Harvesting | Income | Socio-economic aspects | Socioeconomics | Ice environments | Case studies | Satellite imagery | Off road vehicles | Polar environments | Herding | All terrain vehicles | Matematikk og naturvitenskap: 400 | VDP | Zoology and botany: 480 | Zoologiske og botaniske fag: 480 | Mathematics and natural scienses: 400
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Loading RightsActa Zoologica, ISSN 0001-7272, 10/2016, Volume 97, Issue 4, pp. 442 - 453
A human‐mediated invasion of a temperate rodent Microtus rossiaemeridionalis on the High Arctic Archipelago of Svalbard in the first half of the 20th century...
morphotype | invasion | island evolution | variation | dental morphology | East European vole | ECHINOCOCCUS-MULTILOCULARIS | EPIROTICUS | ANATOMY & MORPHOLOGY | ARVALIS | ISLANDS | ZOOLOGY | VOLE | Animal populations | Taxonomy | Morphology | Rodents
morphotype | invasion | island evolution | variation | dental morphology | East European vole | ECHINOCOCCUS-MULTILOCULARIS | EPIROTICUS | ANATOMY & MORPHOLOGY | ARVALIS | ISLANDS | ZOOLOGY | VOLE | Animal populations | Taxonomy | Morphology | Rodents
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Loading RightsJournal of Biogeography, ISSN 0305-0270, 5/2008, Volume 35, Issue 5, pp. 801 - 814
Aim: During the last ice age large parts of the north boreal and subarctic zones were covered by ice, while the climate in ice-free regions of northern Asia...
Biological taxonomies | Phylogeography | Peatlands | Biogeography | Barriers, Migration and the Geography of the Range | Population structure | Pollen | Genetic diversity | Plants | Population genetics | Genotypes | pollen record | AFLP | clonal plant | ice age | peatland | Rubus chamaemorus | cloudberry | phylogeography | Pollen record | Clonal plant | Cloudberry | Peatland | Ice age | HOLOCENE VEGETATION | AGE CALIBRATION | PLANT | POPULATION | MULTILOCUS GENOTYPE DATA | KARA SEA | EURASIA | GEOGRAPHY, PHYSICAL | LEMMINGS LEMMUS | ECOLOGY | LATE PLEISTOCENE | HISTORY
Biological taxonomies | Phylogeography | Peatlands | Biogeography | Barriers, Migration and the Geography of the Range | Population structure | Pollen | Genetic diversity | Plants | Population genetics | Genotypes | pollen record | AFLP | clonal plant | ice age | peatland | Rubus chamaemorus | cloudberry | phylogeography | Pollen record | Clonal plant | Cloudberry | Peatland | Ice age | HOLOCENE VEGETATION | AGE CALIBRATION | PLANT | POPULATION | MULTILOCUS GENOTYPE DATA | KARA SEA | EURASIA | GEOGRAPHY, PHYSICAL | LEMMINGS LEMMUS | ECOLOGY | LATE PLEISTOCENE | HISTORY
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