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1
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84906278794
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Grand challenges in evolutionary and population genetics: The importance of integrating epigenetics, genomics, modeling and experimentation
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Cushman SA, (2014) Grand challenges in evolutionary and population genetics: the importance of integrating epigenetics, genomics, modeling and experimentation. Frontiers in Genetics, 5, 197.
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(2014)
Frontiers in Genetics
, vol.5
, pp. 197
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Cushman, S.A.1
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2
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3042821261
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Population Graphs: The graph-theoretic shape of genetic structure
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Dyer RJ, Nason JD, (2004) Population Graphs: the graph-theoretic shape of genetic structure. Molecular Ecology, 13, 1713-1728.
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(2004)
Molecular Ecology
, vol.13
, pp. 1713-1728
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Dyer, R.J.1
Nason, J.D.2
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3
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77956088783
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Landscape modelling of gene flow: Improved power using conditional genetic distance derived from the topology of population networks
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Dyer RJ, Nason JD, Garrick RC, (2010) Landscape modelling of gene flow: improved power using conditional genetic distance derived from the topology of population networks. Molecular Ecology, 19, 3746-3759.
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(2010)
Molecular Ecology
, vol.19
, pp. 3746-3759
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Dyer, R.J.1
Nason, J.D.2
Garrick, R.C.3
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4
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77952095479
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Utility of computer simulations in landscape genetics
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Epperson BK, McRae B, Scribner K, et al,. (2010) Utility of computer simulations in landscape genetics. Molecular Ecology, 19, 3540-3564.
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(2010)
Molecular Ecology
, vol.19
, pp. 3540-3564
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Epperson, B.K.1
McRae, B.2
Scribner, K.3
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5
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73349087810
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CDPOP: An individual-based, cost-distance spatial population genetics model
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Landguth EL, Cushman SA, (2010) CDPOP: an individual-based, cost-distance spatial population genetics model. Molecular Ecology Resources, 10, 156-161.
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(2010)
Molecular Ecology Resources
, vol.10
, pp. 156-161
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Landguth, E.L.1
Cushman, S.A.2
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6
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77957236401
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Quantifying the lag time to detect barriers in landscape genetics
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Landguth EL, Cushman SA, Luikart G, Murphy MA, Schwartz MK, McKelvey KS, (2010) Quantifying the lag time to detect barriers in landscape genetics. Molecular Ecology, 19, 4179-4191.
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(2010)
Molecular Ecology
, vol.19
, pp. 4179-4191
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Landguth, E.L.1
Cushman, S.A.2
Luikart, G.3
Murphy, M.A.4
Schwartz, M.K.5
McKelvey, K.S.6
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7
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84856760886
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Effects of sample size, number of markers, and allelic richness on landscape genetic inference
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Landguth EL, Fedy BC, Garey AL, et al,. (2012a) Effects of sample size, number of markers, and allelic richness on landscape genetic inference. Molecular Ecology Resources, 12, 276-284.
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(2012)
Molecular Ecology Resources
, vol.12
, pp. 276-284
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Landguth, E.L.1
Fedy, B.C.2
Garey, A.L.3
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8
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84855525783
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UNICOR: A species connectivity and corridor network simulator
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Landguth EL, Hand BK, Glassy J, Cushman SA, (2012b) UNICOR: a species connectivity and corridor network simulator. Ecography, 35, 9-14.
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(2012)
Ecography
, vol.35
, pp. 9-14
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Landguth, E.L.1
Hand, B.K.2
Glassy, J.3
Cushman, S.A.4
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9
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0036557499
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Comparative evaluation of experimental approaches to the study of habitat fragmentation effects
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McGarigal K, Cushman SA, (2002) Comparative evaluation of experimental approaches to the study of habitat fragmentation effects. Ecological Applications, 12, 335-345.
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(2002)
Ecological Applications
, vol.12
, pp. 335-345
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McGarigal, K.1
Cushman, S.A.2
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10
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84920937788
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Human-aided and natural dispersal drive gene flow across the range of an invasive mosquito
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Medley KA, Jenkins DG, Hoffman EA, (2014) Human-aided and natural dispersal drive gene flow across the range of an invasive mosquito. Molecular Ecology, 24, 284-295.
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(2014)
Molecular Ecology
, vol.24
, pp. 284-295
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Medley, K.A.1
Jenkins, D.G.2
Hoffman, E.A.3
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11
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84874993713
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The influence of landscape connectivity: Discordance between movement behavior and patterns of gene flow in Linking movement behavior and fine-scale genetic structure to model landscape connectivity for bobcats (Lynx rufus)
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Reding DM, Cushman SA, Gosselink TE, Clark WR, (2013) The influence of landscape connectivity: discordance between movement behavior and patterns of gene flow in Linking movement behavior and fine-scale genetic structure to model landscape connectivity for bobcats (Lynx rufus). Landscape Ecology, 28, 471-486.
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(2013)
Landscape Ecology
, vol.28
, pp. 471-486
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Reding, D.M.1
Cushman, S.A.2
Gosselink, T.E.3
Clark, W.R.4
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12
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79952447048
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Why replication is important in landscape genetics: American black bear in the Rocky Mountains
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Short Bull RA, Cushman SA, Mace R, et al,. (2011) Why replication is important in landscape genetics: American black bear in the Rocky Mountains. Molecular Ecology, 20, 1092-1107.
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(2011)
Molecular Ecology
, vol.20
, pp. 1092-1107
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Short Bull, R.A.1
Cushman, S.A.2
Mace, R.3
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