Mixing of propagules from discrete sources at long distance: comparing a dispersal tail to an exponential.
about
Potential for evolutionary responses to climate change - evidence from tree populationsSex-biased dispersal promotes adaptive parental effectsAssortative mating and differential male mating success in an ash hybrid zone populationA 96-well-plate-based optical method for the quantitative and qualitative evaluation of Pseudomonas aeruginosa biofilm formation and its application to susceptibility testing.Pursuing glacier retreat: genetic structure of a rapidly expanding Larix decidua population.Native bees mediate long-distance pollen dispersal in a shade coffee landscape mosaic.Anaerobic degradation of propane and butane by sulfate-reducing bacteria enriched from marine hydrocarbon cold seepsCombining niche and dispersal in a simple model (NDM) of species distributionLong-distance wind-dispersal of spores in a fungal plant pathogen: estimation of anisotropic dispersal kernels from an extensive field experiment.Variation of selfing rate and inbreeding depression among individuals and across generations within an admixed Cedrus population.Spatial genetic structure, genetic diversity and pollen dispersal in a harvested population of Astrocaryum aculeatum in the Brazilian Amazon.Life history trade-off moderates model predictions of diversity loss from climate change.The pollen dispersal kernel and mating system of an insect-pollinated tropical palm, Oenocarpus bataua.Small but not isolated: a population genetic survey of the tropical tree Cariniana estrellensis (Lecythidaceae) in a highly fragmented habitat.Patterns of pollen dispersal in a small population of the Canarian endemic palm (Phoenix canariensis).Relative strength of fine-scale spatial genetic structure in paternally vs biparentally inherited DNA in a dioecious plant depends on both sex proportions and pollen-to-seed dispersal ratio.Assessing intraspecific variation in effective dispersal along an altitudinal gradient: a test in two Mediterranean high-mountain plants.Fire-induced population reduction and landscape opening increases gene flow via pollen dispersal in Pinus halepensis.Long-distance dispersal and genetic structure of natural populations: an assessment of the inverse isolation hypothesis in peat mosses.Gene flow of common ash (Fraxinus excelsior L.) in a fragmented landscape.Estimating exotic gene flow into native pine stands: zygotic vs. gametic components.Ecological determinants of mating system within and between three Fagus sylvatica populations along an elevational gradient.Wind pollination over mesoscale distances: an investigation with Scots pine.Spatial mating networks in insect-pollinated plants.Mating system and pollen gene flow in Mediterranean maritime pine.A synthesis of empirical plant dispersal kernelsMarked point pattern analysis on genetic paternity data for uncertainty assessment of pollen dispersal kernelsA Nonstationary Cylinder–Based Model Describing Group Dispersal in a Fragmented Habitat
P2860
Q28686886-42B95602-CB62-4A52-918F-D57AE484CBDEQ28742026-DFABB288-09B9-4C0D-B502-FCFFAA190E44Q31077418-C50052B2-F52F-49F9-A0EB-9C8198C6B777Q33645381-D53C41F4-D6F3-4C66-814A-F4461F6EEEE1Q33783967-1D0A3585-A765-4218-98AA-E546718C171AQ34068540-1044B961-7E16-43CE-84EE-8D4EEC9DC2AAQ34518547-A5FA78A7-5203-4B1C-9170-CEC88986C0F2Q35050544-C3AFBD81-ECED-40D8-B5FF-F12A6434CA54Q35223496-09F33ADF-A150-4CFB-9F5D-567576A0FCB6Q35246607-8FF327C6-F159-4F1D-8DFA-B677FCFC541DQ35997642-3AEAECA0-9021-4E8D-AA97-C2923521F59BQ36375569-80B2765F-DA1A-4BB1-B9F3-6EA8D9426BC1Q36404221-21D82EF4-1447-4F73-8519-C66C458A3639Q36725523-475D33FF-26C3-4C75-BC66-5DABCDE1E944Q36750227-72FDB75F-925D-4B05-A2BC-80BC849F299DQ39438199-BC0E49A9-8AC7-44E2-AECB-8D3378F1D77FQ41898814-6EFAE97A-32B2-439D-A9D2-E18872C1FDB7Q42623461-0FDA7D47-37C1-431D-A20D-FFC1E5A25EB6Q44776833-CFE94254-AB8B-46B5-8D2E-22E3E324D7E5Q46279342-7329F9C1-2E1B-479B-A3E9-025878990CB6Q46830859-59D88E19-9918-4F6F-B402-A69C6BFD430FQ51165325-005D6711-3224-44ED-A8CC-AA439B7E996FQ51611654-7CE7E67D-C84E-4BB5-9107-F4E3591FD479Q51692605-B4E7689A-BADF-4EB2-B354-08411085A2E7Q51695501-1441F191-9984-491F-8AEC-95136CBE184AQ57038464-BAE1FDA6-9C3F-416C-A768-DCD05FAC4B56Q57122525-DD85358A-1438-40B8-8561-7FC44995767EQ58993068-473B22FC-6F25-4FC3-9DB1-8F1CD1947655
P2860
Mixing of propagules from discrete sources at long distance: comparing a dispersal tail to an exponential.
description
2006 nî lūn-bûn
@nan
2006 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Mixing of propagules from disc ...... persal tail to an exponential.
@ast
Mixing of propagules from disc ...... persal tail to an exponential.
@en
type
label
Mixing of propagules from disc ...... persal tail to an exponential.
@ast
Mixing of propagules from disc ...... persal tail to an exponential.
@en
prefLabel
Mixing of propagules from disc ...... persal tail to an exponential.
@ast
Mixing of propagules from disc ...... persal tail to an exponential.
@en
P2093
P2860
P356
P1433
P1476
Mixing of propagules from disc ...... persal tail to an exponential.
@en
P2093
Claire Lavigne
Etienne K Klein
Pierre-Henri Gouyon
P2860
P2888
P356
10.1186/1472-6785-6-3
P577
2006-02-20T00:00:00Z
P5875
P6179
1025751064