Local adaptation and cogradient selection in the alpine plant, Poa hiemata, along a narrow altitudinal gradient.
about
Altitudinal gradients, plant hybrid zones and evolutionary noveltyEvolutionary and ecological responses to anthropogenic climate change: update on anthropogenic climate changeNatural selection and neutral evolution jointly drive population divergence between alpine and lowland ecotypes of the allopolyploid plant Anemone multifida (Ranunculaceae)Leaf morphology shift linked to climate changeModeling intraspecific adaptation of Abies sachalinensis to local altitude and responses to global warming, based on a 36-year reciprocal transplant experimentExtensive variation, but not local adaptation in an Australian alpine daisyUnravelling genetics at the top: mountain islands or isolated belts?Extensive contemporary pollen-mediated gene flow in two herb species, Ranunculus bulbosus and Trifolium montanum, along an altitudinal gradient in a meadow landscapePlant response to climate change varies with topography, interactions with neighbors, and ecotype.Genetic isolation by environment or distance: which pattern of gene flow is most common?Plant population differentiation and climate change: responses of grassland species along an elevational gradient.Plastic responses to elevated temperature in low and high elevation populations of three grassland species.Large-scale adaptive differentiation in the alpine perennial herb Arabis alpina.The Response of the Alpine Dwarf Shrub Salix herbacea to Altered Snowmelt Timing: Lessons from a Multi-Site Transplant Experiment.Geographic variation in the response of Culex pipiens life history traits to temperature.Morphological and Genetic Variation along a North-to-South Transect in Stipa purpurea, a Dominant Grass on the Qinghai-Tibetan Plateau: Implications for Response to Climate Change.Influence of altitude on local adaptation in upland tree species from central Argentina.Effect of altitude on the genetic structure of an Alpine grass, Poa hiemata.Trait variation along elevation gradients in a dominant woody shrub is population-specific and driven by plasticity.Genetic diversity and population structure of the Tibetan poplar (Populus szechuanica var. tibetica) along an altitude gradient.Plant resource-use strategies: the importance of phenotypic plasticity in response to a productivity gradient for two subalpine speciesMonitoring adaptive genetic responses to environmental change.Contemporary gene flow and mating system of Arabis alpina in a Central European alpine landscape.Frost resistance in alpine woody plants.Changes in pollinator fauna affect altitudinal variation of floral size in a bumblebee-pollinated herb.Algal bioremediation of waste waters from land-based aquaculture using ulva: selecting target species and strains.The importance of biotic interactions and local adaptation for plant response to environmental changes: field evidence along an elevational gradient.Adaptive plasticity and epigenetic variation in response to warming in an Alpine plant.Phenotypic differentiation within a foundation grass species correlates with species richness in a subalpine community.A Single Nucleotide Deletion in Gibberellin20-oxidase1 Causes Alpine Dwarfism in Arabidopsis.Local adaptation at range edges: comparing elevation and latitudinal gradients.Key Questions on the Role of Phenotypic Plasticity in Eco-Evolutionary Dynamics.Elevation as a barrier: genetic structure for an Atlantic rain forest tree (Bathysa australis) in the Serra do Mar mountain range, SE BrazilPredictable allele frequency changes due to habitat fragmentation in the Glanville fritillary butterfly.Local Adaptation in European Firs Assessed through Extensive Sampling across Altitudinal Gradients in Southern EuropeGeographical variation and the role of climate in leaf traits of a relict tree species across its distribution in China.How might edaphic specialists in gypsum islands respond to climate change? Reciprocal sowing experiment to infer local adaptation and phenotypic plasticity.Microgeographic Patterns of Genetic Divergence and Adaptation across Environmental Gradients in Boechera stricta (Brassicaceae).Decoupled phenotypic variation between floral and vegetative traits: distinguishing between developmental and environmental correlations.Difference in evolutionary patterns of strongly or weakly selected characters among ant populations.
P2860
Q27025323-6734741D-1EE4-4694-845B-1E58ACE28C6CQ27026954-63A2948E-2579-4A1B-B1FA-8DC88E0A0AF0Q28677034-AEF24B9D-A5F8-4F20-80CC-3FF2064F699DQ28727843-D9193771-4C09-423C-B5BA-962401295AE2Q28729939-141E1E7E-E4F3-4F49-95D7-26FB59170C3EQ28830316-3558946B-EB0F-4F3B-9E85-1A08603F1B73Q30570218-AE458FBB-2617-4BDD-8FCC-FF62137603D1Q30588675-94A43499-FF87-4467-B4BD-D5ACD7AE2ED5Q30629977-8F4BE99F-8D80-4BE8-A111-F63471953E4DQ30674476-5C12E633-319E-4297-834F-0DFEEFC86C53Q30675665-1D11A45F-85D5-4882-9897-D2B566BC987CQ30829206-214706B8-047D-4565-9EAA-6D4C37F1F042Q30871619-16C81572-3C80-46A9-B895-FE363219CF42Q30936911-CA35E99B-632D-4E2A-823E-4443AF5DB0A8Q31050530-BB9C41BF-8EF8-4414-BEC0-F209E0BEC078Q31125825-5ED13E3E-1E2E-4B07-B149-0B8B3F36D401Q31135444-86DA604A-D900-4EB3-9F9B-BBB38AECF796Q33408091-05178E4A-7668-4479-9FF8-FB6687F7C43AQ33903448-872BA294-5702-49BC-A599-F1CECAB56318Q33987730-E9F954BF-6964-4218-85D5-E016784E9FA6Q34129494-17FB669C-4721-4FEC-8291-7C08B2764CE5Q34136085-CC7CBBFF-6646-42E0-950B-E892E3C96DA4Q34227795-7AB3895B-06D2-4778-A305-BF35497647D3Q34454552-3294D306-98C2-4BC9-917D-687324461757Q34494799-E7A5DB06-3341-4178-8F0B-99B55F2443AAQ35021724-12C2D31B-A8D5-441A-844C-EFEBA40FE3B5Q35059324-9A1DFC7C-BF95-403C-9F3C-05E35F00889CQ35084588-57FC72E8-DF2C-41F1-B255-9A54D3A97C1AQ35222349-028B4208-FF6F-48FB-9CDD-58F970F27FBFQ35622177-F2D0FB7D-A828-49AC-913B-A70DEB8E0B25Q35706125-3655DDEC-3809-4381-BDAC-D7E7F534ACF5Q35752952-5C410CC0-BE4B-410E-B9AE-CD56FF2A9538Q35799889-AB27504E-8E00-40F8-BA2D-9B1137350C4DQ35931848-4934FBDB-CB36-4348-B0FD-2594F22A2A0FQ36071758-C1D9FF05-C8A9-4C40-9D3A-EB3D21B4A4BCQ36308270-FD241858-069E-4AD8-9226-15945606CB2FQ36373203-161ACDFE-0532-4CD2-BDAF-333EB112541CQ36377616-33D09AFE-6781-484B-B4D5-3D122D1A6228Q36780970-AEAEA137-F334-4BC2-92C5-15F87F2AC130Q37519101-FB0C9B60-5082-4CE1-AD6B-43E426F6886D
P2860
Local adaptation and cogradient selection in the alpine plant, Poa hiemata, along a narrow altitudinal gradient.
description
2007 nî lūn-bûn
@nan
2007 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Local adaptation and cogradien ...... a narrow altitudinal gradient.
@ast
Local adaptation and cogradien ...... a narrow altitudinal gradient.
@en
type
label
Local adaptation and cogradien ...... a narrow altitudinal gradient.
@ast
Local adaptation and cogradien ...... a narrow altitudinal gradient.
@en
prefLabel
Local adaptation and cogradien ...... a narrow altitudinal gradient.
@ast
Local adaptation and cogradien ...... a narrow altitudinal gradient.
@en
P2860
P1433
P1476
Local adaptation and cogradien ...... a narrow altitudinal gradient.
@en
P2093
Warwick Papst
P2860
P304
P356
10.1111/J.1558-5646.2007.00248.X
P577
2007-10-09T00:00:00Z