| scholarly article | Q13442814 |
| P356 | DOI | 10.1890/04-1036 |
| P50 | author | James Samuel Clark | Q97422677 |
| Jason S McLachlan | Q101570745 | ||
| P2093 | author name string | Paul S. Manos | |
| P2860 | cites work | Extinction risk from climate change | Q22122497 |
| Phylogeographical structure revealed by chloroplast DNA variation in Japanese beech (Fagus crenata Blume) | Q28210965 | ||
| Columbines: a geographically widespread species flock | Q28254454 | ||
| Rates of nucleotide substitution vary greatly among plant mitochondrial, chloroplast, and nuclear DNAs | Q28776549 | ||
| The genetic legacy of the Quaternary ice ages | Q29547512 | ||
| Universal primers for amplification of three non-coding regions of chloroplast DNA | Q29547617 | ||
| Comparative phylogeography and postglacial colonization routes in Europe | Q29547684 | ||
| Glacial refugia: hotspots but not melting pots of genetic diversity | Q29617374 | ||
| Phylogenetic analyses of "higher" Hamamelididae based on plastid sequence data | Q33944083 | ||
| Patterns and relative rates of nucleotide and insertion/deletion evolution at six chloroplast intergenic regions in new world species of the Lecythidaceae | Q45417281 | ||
| Postglacial recolonization and cpDNA variation of silver birch, Betula pendula | Q47314953 | ||
| Chloroplast DNA diversity in Calluna vulgaris (heather) populations in Europe | Q47318651 | ||
| A population genetic analysis of chloroplast DNA in wild populations of Prunus avium L. in Europe. | Q47594986 | ||
| The Nonconcept of Species Diversity: A Critique and Alternative Parameters | Q49647437 | ||
| Predicting Plant Migration Rates in a Changing World: The Role of Long-Distance Dispersal. | Q51144742 | ||
| Chloroplast microsatellites: new tools for studies in plant ecology and evolution. | Q51203110 | ||
| Reid's Paradox of Rapid Plant Migration | Q56047480 | ||
| The importance of plant macrofossils in the reconstruction of Lateglacial vegetation and climate: examples from Scotland, western Norway, and Minnesota, USA | Q56083073 | ||
| Defining the importance of including transient ecosystem responses to simulate C-cycle dynamics in a global change model | Q57196479 | ||
| Vegetation and environment in Eastern North America during the Last Glacial Maximum | Q57198358 | ||
| The spread of deciduous Quercus throughout Europe since the last glacial period | Q58191284 | ||
| Identification of refugia and post-glacial colonisation routes of European white oaks based on chloroplast DNA and fossil pollen evidence | Q58256169 | ||
| How fast and far might tree species migrate in the eastern United States due to climate change? | Q58316721 | ||
| Modeling potential future individual tree-species distributions in the eastern United States under a climate change scenario: a case study with Pinus virginiana | Q58316735 | ||
| Detecting a Species Limit from Pollen in Sediments | Q58316750 | ||
| LATE-QUATERNARY VEGETATION DYNAMICS IN NORTH AMERICA: SCALING FROM TAXA TO BIOMES | Q58397076 | ||
| The anatomy of a climatic oscillation: vegetation change in eastern North America during the Younger Dryas chronozone | Q58397116 | ||
| Late quaternary climate change in eastern North America | Q58397156 | ||
| P433 | issue | 8 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | climate change | Q125928 |
| P1104 | number of pages | 11 | |
| P304 | page(s) | 2088-2098 | |
| P577 | publication date | 2005-08-01 | |
| P1433 | published in | Ecology | Q1013420 |
| P1476 | title | MOLECULAR INDICATORS OF TREE MIGRATION CAPACITY UNDER RAPID CLIMATE CHANGE | |
| P478 | volume | 86 |
| Q90707679 | A New Perspective on Ecological Prediction Reveals Limits to Climate Adaptation in a Temperate Tree Species |
| Q31044420 | A framework for community and ecosystem genetics: from genes to ecosystems. |
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| Q92226960 | Accelerating upward treeline shift in the Altai Mountains under last-century climate change |
| Q33946229 | Adaptive potential of northernmost tree populations to climate change, with emphasis on Scots pine (Pinus sylvestris L.). |
| Q28742601 | Ancient DNA from lake sediments: bridging the gap between paleoecology and genetics |
| Q47294142 | Antagonistic effects of seed dispersal and herbivory on plant migration |
| Q58104224 | Anticipating the consequences of climate change for Canada’s boreal forest ecosystems |
| Q27311624 | Are plant species able to keep pace with the rapidly changing climate? |
| Q31171496 | Assessing the anticipated growth response of northern conifer populations to a warming climate |
| Q95537468 | Below-ground biotic interactions moderated the postglacial range dynamics of trees |
| Q57198290 | Biogeography of Pleistocene conifer species from the Ziegler Reservoir fossil site, Snowmass Village, Colorado |
| Q56379934 | Biotic interactions with natural enemies do not affect potential range expansion of three invasive plants in response to climate change |
| Q56333413 | Climate Change, Managed Relocation, andthe Risk of Intra-Continental Plant Invasions: A Theoretical and Empirical Exploration Relative To the Flora of New England |
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| Q57196602 | Climate change will increase savannas at the expense of forests and treeless vegetation in tropical and subtropical Americas |
| Q55865622 | Climate change, plant migration, and range collapse in a global biodiversity hotspot: the Banksia (Proteaceae) of Western Australia |
| Q58256032 | Climate or migration: what limited European beech post-glacial colonization? |
| Q30837243 | Climate refugia: joint inference from fossil records, species distribution models and phylogeography |
| Q47768213 | Climatic and biotic velocities for woody taxa distributions over the last 16 000 years in eastern North America |
| Q28661035 | Comparative phylogeographic study of Hosta sieboldiana and Hosta albomarginata (Asparagaceae) in Japan |
| Q57741400 | Comparative phylogeography of wetland plants in central Honshu, Japan: evolutionary legacy of ancient refugia |
| Q57554573 | Constraints to and conservation implications for climate change adaptation in plants |
| Q30860076 | Cryptic no more: soil macrofossils uncover Pleistocene forest microrefugia within a periglacial desert |
| Q38148920 | Cryptic or mystic? Glacial tree refugia in northern Europe. |
| Q28731539 | Differential response to soil salinity in endangered key tree cactus: implications for survival in a changing climate |
| Q27010698 | Disequilibrium vegetation dynamics under future climate change |
| Q57122459 | Dispersal limitation and spatial scale affect model based projections of Pinus uncinata response to climate change in the Pyrenees |
| Q30695729 | Dispersal, niche breadth and population extinction: colonization ratios predict range size in North American dragonflies |
| Q31131083 | Disturbances catalyze the adaptation of forest ecosystems to changing climate conditions |
| Q90781947 | Downhill seed dispersal by temperate mammals: a potential threat to plant escape from global warming |
| Q35153569 | Drawing ecological inferences from coincident patterns of population- and community-level biodiversity |
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| Q46255666 | Effects of Mountain Uplift and Climatic Oscillations on Phylogeography and Species Divergence in Four Endangered Notopterygium Herbs |
| Q46747211 | Environmental factors contribute to the formation and maintenance of the contact zone observed in deciduous broad-leaved tree species in Japan. |
| Q44858489 | Evidence for range stasis during the latter Pleistocene for the Atlantic Coastal Plain endemic genus, Pyxidanthera Michaux |
| Q27026954 | Evolutionary and ecological responses to anthropogenic climate change: update on anthropogenic climate change |
| Q28595841 | Evolutionary lessons from California plant phylogeography |
| Q51149379 | Expansion or Invasion? A Response to Nackley et al. |
| Q59297396 | Exploring the requirement for anthropogenic disturbance to assist the stand-scale expansion of Fagus sylvatica L. outside southern Scandinavia |
| Q30606691 | Exploring tree species colonization potentials using a spatially explicit simulation model: implications for four oaks under climate change |
| Q28661553 | Field evidence of colonisation by Holm Oak, at the northern margin of its distribution range, during the Anthropocene period |
| Q33299373 | Fire and ice: volcanic and glacial impacts on the phylogeography of the New Zealand forest fern Asplenium hookerianum |
| Q56910070 | Forecasting the Effects of Global Warming on Biodiversity |
| Q33560098 | Forest restoration in a mixed-ownership landscape under climate change |
| Q57067963 | Functional diversity of North American broad-leaved trees is codetermined by past and current environmental factors |
| Q57267165 | Garden plants get a head start on climate change |
| Q57247618 | Genetic structure and post-glacial expansion ofCornus floridaL. (Cornaceae): integrative evidence from phylogeography, population demographic history, and species distribution modeling |
| Q57716125 | Genetic structure of Vaccinium vitis-idaea in lowland cool spot and alpine populations: microrefugia of alpine plants in the midlatitudes |
| Q55195860 | Geographic range velocity and its association with phylogeny and life history traits in North American woody plants. |
| Q57050435 | Glacial refugia and postglacial spread of an iconic large European land snail, Helix pomatia (Pulmonata: Helicidae) |
| Q56950827 | Habitat restoration will help some functional plant types persist under climate change in fragmented landscapes |
| Q56775754 | Hide and Go Seek: What Does Presence Mean in the Fossil Record |
| Q36142344 | High migration rates shape the postglacial history of amphi-Atlantic bryophytes |
| Q28749084 | Host density drives the postglacial migration of the tree parasite, Epifagus virginiana |
| Q30972986 | How do cold-sensitive species endure ice ages? Phylogeographic and paleodistribution models of postglacial range expansion of the mesothermic drought-tolerant conifer Austrocedrus chilensis. |
| Q46301717 | Ice ages leave genetic diversity 'hotspots' in Europe but not in Eastern North America |
| Q28767754 | Ice-age endurance: DNA evidence of a white spruce refugium in Alaska |
| Q89793509 | Ice-age persistence and genetic isolation of the disjunct distribution of larch in Alaska |
| Q30595097 | Identifying refugia from climate change using coupled ecological and genetic data in a transitional Mediterranean-temperate tree species |
| Q33865473 | Improving assessment and modelling of climate change impacts on global terrestrial biodiversity |
| Q30665722 | In situ genetic association for serotiny, a fire-related trait, in Mediterranean maritime pine (Pinus pinaster). |
| Q28752177 | Inference of population history by coupling exploratory and model-driven phylogeographic analyses |
| Q55259906 | Influence of northern limit range on genetic diversity and structure in a widespread North American tree, sugar maple (Acer saccharum Marshall). |
| Q88575966 | Invoking adaptation to decipher the genetic legacy of past climate change |
| Q40374097 | Lack of genetic isolation by distance, similar genetic structuring but different demographic histories in a fig-pollinating wasp mutualism |
| Q36317000 | Landscape genomic insights into the historic migration of mountain hemlock in response to Holocene climate change. |
| Q28607175 | Large scale patterns of genetic variation and differentiation in sugar maple from tropical Central America to temperate North America |
| Q58162214 | Les génomes du pin gris et du pin tordu, témoins des bouleversements climatiques passés |
| Q28650164 | Less pollen-mediated gene flow for more signatures of glacial lineages: congruent evidence from balsam fir cpDNA and mtDNA for multiple refugia in eastern and central North America |
| Q28744454 | Lineage admixture during postglacial range expansion is responsible for the increased gene diversity of Kalopanax septemlobus in a recently colonised territory |
| Q35921467 | Living on the edge: adaptive and plastic responses of the tree Nothofagus pumilio to a long-term transplant experiment predict rear-edge upward expansion. |
| Q35031856 | Long-distance dispersal maximizes evolutionary potential during rapid geographic range expansion |
| Q28598003 | Managing Climate Change Refugia for Climate Adaptation |
| Q56942591 | Microbial communities may modify how litter quality affects potential decomposition rates as tree species migrate |
| Q30824007 | Microrefugia and Shifts of Hippophae tibetana (Elaeagnaceae) on the north side of Mt. Qomolangma (Mt. Everest) during the last 25000 years |
| Q28661382 | Millennial-scale temperature change velocity in the continental northern Neotropics |
| Q30719094 | Mountain landscapes offer few opportunities for high-elevation tree species migration |
| Q57069760 | Nuclear genetic variation across the range of ponderosa pine (Pinus ponderosa): Phylogeographic, taxonomic and conservation implications |
| Q31169926 | Optimizing dispersal corridors for the Cape Proteaceae using network flow |
| Q34048613 | Paleoecoinformatics: applying geohistorical data to ecological questions |
| Q35222689 | Partitioning of multivariate phenotypes using regression trees reveals complex patterns of adaptation to climate across the range of black cottonwood (Populus trichocarpa). |
| Q28236252 | Past and ongoing shifts in Joshua tree distribution support future modeled range contraction |
| Q58255978 | Patterns and dynamics of European vegetation change over the last 15,000 years |
| Q30843857 | Photoperiod constraints on tree phenology, performance and migration in a warming world. |
| Q33868140 | PhyloGeoViz: a web-based program that visualizes genetic data on maps |
| Q28598430 | Phylogeographic History of Atraphaxis Plants in Arid Northern China and the Origin of A. bracteata in the Loess Plateau |
| Q47258853 | Phylogeographic History of White Spruce During the Last Glacial Maximum: Uncovering Cryptic Refugia |
| Q45919110 | Phylogeographically concordant chloroplast DNA divergence in sympatric Nothofagus s.s. How deep can it be? |
| Q31138765 | Phylogeography of Diadophis punctatus: extensive lineage diversity and repeated patterns of historical demography in a trans-continental snake |
| Q28608307 | Phylogeography of Saproxylic and Forest Floor Invertebrates from Tallaganda, South-eastern Australia |
| Q57741406 | Phylogeography of a rare orchid, Vexillabium yakushimense: comparison of populations in central Honshu and the Nansei Island chain, Japan |
| Q33811455 | Plant molecular phylogeography in China and adjacent regions: Tracing the genetic imprints of Quaternary climate and environmental change in the world's most diverse temperate flora |
| Q111630287 | Plant phylogeography in arid Northwest China: Retrospectives and perspectives |
| Q114456703 | Population Genetic Structure of California Hazelnut, An Important Food Source for People in Quiroste Valley in the Late Holocene |
| Q57069750 | Population isolation results in unexpectedly high differentiation in Carolina hemlock (Tsuga caroliniana), an imperiled southern Appalachian endemic conifer |
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| Q33640162 | Recent widespread tree growth decline despite increasing atmospheric CO2. |
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| Q39626892 | Reduced inbreeding depression in peripheral relative to central populations of a monocarpic herb |
| Q56924753 | Reframing the debate over assisted colonization |
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| Q99943850 | Restoration at the landscape scale as a means of mitigation and adaptation to climate change |
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| Q56929439 | Revisiting tree-migration rates: Abies alba (Mill.), a case study |
| Q54966996 | Seed-dispersal distributions by trumpeter hornbills in fragmented landscapes. |
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| Q34157537 | The influence of species interactions on geographic range change under climate change |
| Q34942839 | The major Australian cool temperate rainforest tree Nothofagus cunninghamii withstood Pleistocene glacial aridity within multiple regions: evidence from the chloroplast. |
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| Q56755131 | Traits to stay, traits to move: a review of functional traits to assess sensitivity and adaptive capacity of temperate and boreal trees to climate change |
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| Q30630066 | Using genetic variation to infer associations with climate in the common frog, Rana temporaria. |
| Q56830456 | Using species distribution models to select species resistant to climate change for ecological restoration ofbowéin West Africa |
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