Alpert P, Bone E, Holzapfel C (2000) Invasiveness, invasibility and the role of environmental stress in the spread of non-native plants. Perspect Plant Ecol Evol Syst 3:52–66
Alston KP, Richardson DM (2006) The roles of habitat features, disturbance, and distance from putative source populations in structuring alien plant invasions at the urban/wildland interface on the Cape Peninsula, South Africa. Biol Conserv 132:183–198
Arnold ML (1997) Natural Hybridization and Evolution. Oxford University Press, New York
Arnold ML, Tang S, Knapp SJ, Martin NH (2010) Asymmetric introgressive hybridization among Louisiana Iris species. Genes 1:9–22
Bailey JP, Bímová K, Mandák B (2009) Asexual spread versus sexual reproduction and evolution in Japanese Knotweed s.l. sets the stage for the ‘battle of the Clones’. Biol Invasions 11:1189–1203
Ball D, Freeland JR (2013) Synchronous flowering times and asymmetrical hybridization in Typha latifolia and T. angustifolia in northeastern North America. Aquat Bot 104:224–227
Barton NH, Hewitt GM (1985) Analysis of hybrid zones. Annu Rev Ecol Syst 16:113–148
Bates D, Maechler M, Bolker B (2016) lme4: Linear mixed-effects models using Eigen and S4. R package version 1.1-13, http://CRAN.R-project.org/package-lme4
Buhk C, Thielsch A (2015) Hybridisation boosts the invasion of an alien species complex: Insights into future invasiveness. Perspect Plant Ecol, Evol Syst 17(4):274–283
Bunbury-Blanchette AL, Freeland JR, Dorken ME (2015) Hybrid Typha × glauca outperforms native T. latifolia under contrasting water depths in a common garden. Basic Appl Ecol 16:394–402
Burke JM, Carney SE, Arnold ML (1998) Hybrid fitness in the Louisiana Irises: analysis of parental and F 1 performance. Evolution 52:37–43.
Burns I, James PMA, Coltman DW, Cullingham CI (2019) Spatial and genetic structure of the lodgepole × jack pine hybrid zone. Can J For Res 49(7):844–853
Burton RS, Pereira RJ, Barreto FS (2013) Cytonuclear genomic interactions and hybrid breakdown. Annu Rev Ecol Evol Syst 44:281–302
Ciotir C, Dorken M, Freeland J (2013a) Preliminary characterization of Typha latifolia and T. angustifolia from North America and Europe based on novel microsatellite markers identified through next-generation sequencing. Fundam Appl Limnol 182:247–252
Ciotir C, Freeland J (2016) Cryptic intercontinental dispersal, commercial retailers, and the genetic diversity of native and non-native cattails (Typha spp.) in North America. Hydrobiologia 768:137–150
Ciotir C, Kirk H, Row JR, Freeland JR (2013b) Intercontinental dispersal of Typha angustifolia and T. latifolia between Europe and North America has implications for Typha invasions. Biol Invasions 15:1377–1390
Ciotir C, Szabo J, Freeland J (2017) Genetic characterization of cattail species and hybrids (Typha spp.) in Europe. Aquat Bot 141:51–59
De La Torre A, Ingvarsson PK, Aitken SN (2015) Genetic architecture and genomic patterns of gene flow between hybridizing species of Picea. Heredity 115:153–164
Dodd RS, Afzal-Rafii Z (2004) Selection and dispersal in a multispecies oak hybrid zone. Evolution 58:261–269
Dorken ME, Eckert CG (2001) Severely reduced sexual reproduction of a clonal plant, Decodon verticillatus populations (Lythraceae). J Ecol 89:339–350
Duchesne P, Turgeon J (2009) FLOCK: a method for quick mapping of admixture without source samples. Mol Ecol Resour 9:1333–1344
Duchesne P, Turgeon J (2012) FLOCK provides reliable solutions to the ‘number of populations’ problem. J Hered 103:734–743
Ellstrand NC, Schierenbeck KA (2006) Hybridization as a stimulus for the evolution of invasiveness in plants? Euphytica 148(1–2):35–46
Fox J, Wesiberg S, Price B (2019) Companion to applied regression. R package version 3.0-5. http://CRAN.R-project.org/package=car
Freeland J, Ciotir C, Kirk H (2013) Regional differences in the abundance of native, introduced, and hybrid Typha spp. in northeastern North America influence wetland invasions. Biol Invasions 15:2651–2665
Fritz RS, Hochwender CG, Albrectsen BR, Czesak ME (2006) Fitness and genetic architecture of parent and hybrid willows in common gardens. Evolution 60:1215–1227
Galatowitsch SM, Anderson NO, Ascher PD, Hall A (1999) Invasiveness in wetland plants in temperate north america. Wetlands 19:733–755
Geddes P, Grancharova T, Kelly JJ, Treering D, Tuchman NC (2014) Effects of invasive Typha × glauca on wetland nutrient pools, denitrification, and bacterial communities are influenced by time since invasion. Aquat Ecol 48:247–258
Goudet J, Jombart T (2015) Hierfstat: estimation and tests of hierarchical F-statistics. R package version 0.04–22 10
Goudet J, Raymond M, De Meeiis T, Roussett F (1996) Testing differentiation in diploid populations. Genetics 144:1933–1940
Goulet BE, Roda F, Hopkins R (2017) Hybridization in plants: old ideas, new techniques. Plant Physiol 173:65–78
Grace J, Harrison J (1986) The biology of Canadian weeds: 73. Typha latifolia L., Typha angustifolia L. and Typha x glauca Godr. Can J Plant Sci 66:361–379
Green AJ, Jenkins KM, Bell D, Morris PJ, Kingsford RT (2008) The potential role of waterbirds in dispersing invertebrates and plants in arid Australia. Freshw Biol 53:380–392
Guo SW, Thompson EA (1992) A Monte Carlo method for combined segregation and linkage analysis. Am J Hum Genet 51:1111–1126
Hansen MJ, Clevenger AP (2005) The influence of disturbance and habitat on the presence of non-native plant species along transport corridors. Biol Conserv 125:249–259
Harrison R (1993) Hybrid zones and the evolutionary process. Oxford University Press, Oxford
Hedrick PW (2005) A standardized genetic differentiation measure. Evolution 59:1633–1638
Hufford KM, Mazer SJ (2003) Plant ecotypes: genetic differentiation in the age of ecological restoration. Trends Ecol Evol 18:147–155
James EA, Jordan R, Griffin PC (2013) Spatial genetic analysis of two polyploid macrophytes reveals high connectivity in a modified wetland. Freshw Biol 58:2102–2113
Jost L (2008) GST and its relatives do not measure differentiation. Mol Ecol 17:4015–4026
Kettenring KM, Mossman BN, Downard R, Mock KE (2019) Fine-scale genetic diversity and landscape-scale genetic structuring in three foundational bulrush species: implications for wetland revegetation. Restor Ecol 27:408–420
Kirk H, Connolly C, Freeland JR (2011) Molecular genetic data reveal hybridization between Typha angustifolia and Typha latifolia across a broad spatial scale in eastern North America. Aquat Bot 95:189–193
Kuznetsova A, Brockhoff PB, Chistensen RHB (2016) lmerTest: Tests for random and fixed effects for linear mixed effect models (lmer objects of lme4 package). R package version 2.0-33. http://CRAN.R-project.org/package=lmerTest
Larkin DJ, Freyman MJ, Lishawa SC, Geddes P, Tuchman NC (2012) Mechanisms of dominance by the invasive hybrid cattail Typha × glauca. Biol Invasions 14:65–77
Lawrence B, Bourke K, Lishawa SC, Tuchman NC (2016) Typha invasion associated with reduced aquatic macroinvertebrate abundance in northern Lake Huron coastal wetlands. J Gt Lakes Res 42:1412–1419
Lawrence BA, Lishawa SC, Hurst N, Castillo BT, Tuchman NC (2017) Wetland invasion by Typha × glauca increases soil methane emissions. Aquat Bot 137:80–87
Lexer C, Fay MF, Joseph JA, Nice M-S, Heinze B (2005) Barrier to gene flow between two ecologically divergent Populus species, P. alba (white poplar) and P. tremula (European aspen): the role of ecology and life history in gene introgression. Mol Ecol 14:1045–1057
Lishawa SC, Jankowski K, Geddes P, Larkin DJ, Monks AM, Tuchman NC (2014) Denitrification in a Laurentian Great Lakes coastal wetland invaded by hybrid cattail (Typha × glauca). Aquat Sci 76:483–495
Mantel N (1967) The detection of disease clustering and a generalized regression approach. Cancer Res 27:209–220
Marques I, Nieto Feliner G, Martins-Loução MA, Fuertes Aguilar J (2011) Fitness in Narcissus hybrids: Low fertility is overcome by early hybrid vigour, absence of exogenous selection and high bulb propagation. J Ecol 99:1508–1519
Meirmans PG, Hedrick PW (2011) Assessing population structure: FST and related measures. Mol Ecol Resour 11:5–18
Mejía-Jiménez A, Muñoz C, Jacobsen HJ, Roca WM, Singh SP (1994) Interspecific hybridization between common and tepary beans: increased hybrid embryo growth, fertility, and efficiency of hybridization through recurrent and congruity backcrossing. Theor Appl Genet 88:324–331
Navarro-Cano JA, Schwienbacher E, Sánchez-Balibrea J, Erschbamer B (2017) The role of seed traits as segregation factors of hybrids in wild populations of Cistus (Cistaceae). Plant Biosyst 151:530–538
Norris LC, Main BJ, Lee Y, Collier TC, Fofana A, Cornel AJ et al. (2015) Adaptive introgression in an African malaria mosquito coincident with the increased usage of insecticide-treated bed nets. Proc Natl Acad Sci 112:815–820
Oakley CG, Ågren J, Schemske DW (2015) Heterosis and outbreeding depression in crosses between natural populations of Arabidopsis thaliana. Heredity 115:73–82
Peakall R, Smouse PE (2006) GENALEX 6: Genetic analysis in Excel. Population genetic software for teaching and research. Mol Ecol Notes 6:288–295
Peakall R, Smouse PE (2012) GenAlEx 6.5: genetic analysis in Excel. Population genetic software for teaching and research-an update. Bioinforma Appl 28:2537–2539
Pieper SJ, Freeland JR, Dorken ME (2018) Coexistence of Typha latifolia, T. angustifolia (Typhaceae) and their invasive hybrid is not explained by niche partitioning across water depths. Aquat Bot 144:46–53
Pieper SJ, Nicholls AA, Freeland JR, Dorken ME (2017) Asymmetric hybridization in cattails (Typha spp.) and its implications for the evolutionary maintenance of native Typha latifolia. J Hered 108:479–487
Pollux BJA, Jong MDE, Steegh A, Verbruggen E, Van Groenendael JM, Ouborg NJ (2007) Reproductive strategy, clonal structure and genetic diversity in populations of the aquatic macrophyte Sparganium emersum in river systems. Mol Ecol 16:313–325
Pratt RC, Bressan RA, Hasegawa PM (1985) Genotypic diversity enhances recovery of hybrids and fertile backcrosses of Phaseolus vulgaris L. × P. acutifolius A. Gray. Euphytica 34:329–334
Prentis PJ, Wilson JRU, Dormontt EE, Richardson DM, Lowe AJ (2008) Adaptive evolution in invasive species. Trends Plant Sci 13:288–294
R Core Development Team (2016) R: A language and environment for statistical computing v. 3.4.0. R Foundation for Statistical Computing, Vienna, Austria, http://www.R-project.org/
Raymond M, Rousset F (1995) An exact test for population differentiation. Evolution 49:1280–1283
Rice WR (1989) Analyzing tables of statistical tests. Evolution 43:223–225
Rosenberg NA (2004) DISTRUCT: a program for the graphical display of population structure. Mol Ecol Notes 4:137–138
Sádlo J, Chytrý M, Pergl J, Pyšek P (2018) Plant dispersal strategies: a new classification based on the multiple dispersal modes of individual species. Preslia 90:1–22
Santamaría L (2002) Why are most aquatic plants widely distributed? Dispersal, clonal growth and small-scale heterogeneity in a stressful environment. Acta Oecologica 23(3):137–154
Shih JG, Finkelstein Sa (2008) Range dynamics and invasive tendencies in Typha latifolia and Typha angustifolia in eastern North America derived from herbarium and pollen records. Wetlands 28:1–16
Sloop CM, Ayres DR, Strong DR (2011) Spatial and temporal genetic structure in a hybrid cordgrass invasion. Heredity 106:547–556
Smouse PE, Peakall R (1999) Spatial autocorrelation analysis of individual multiallele and multilocus genetic structure. Heredity 82:561–573
Snow AA, Travis SE, Wildova R, Fer T, Sweeney PM, Marburger JE et al. (2010) Species-specific SSR alleles for studies of hybrid cattails (Typha latifolia x T. angustifolia; Typhaceae) in North America. Am J Bot 97:2061–2067
Soons MB, Van Der Vlugt C, Van Lith B, Heil GW, Klaassen M (2008) Small seed size increases the potential for dispersal of wetland plants by ducks. J Ecol 96:619–627
Stelkens RB, Brockhurst MA, Hurst GDD, Greig D (2014) Hybridization facilitates evolutionary rescue. Evol Appl 7:1209–1217
Szabo J, Freeland JR, Dorken ME (2018) The effects of leaf litter and competition from hybrid cattails (Typha × glauca) on the seed germination and seedling performance of its parental species. Aquat Bot 145:29–36
Todesco M, Pascual MA, Owens GL, Ostevik KL, Moyers BT, Hübner S et al. (2016) Hybridization and extinction. Evol Appl 9:892–908
Travis SE, Marburger JE, Windels S, Kubatova B (2010) Hybridization dynamics of invasive cattail (Typhaceae) stands in the Western Great Lakes Region of North America: a molecular analysis. J Ecol 98:7–16
Tsyusko-Omeltchenko OV, Schable NA, Smith MH, Glenn TC (2003) Microsatellite loci isolated from narrow-leaved cattail Typha angustifolia. Mol Ecol Notes 3:535–538
Tsyusko OV, Smith MH, Sharitz RR, Glenn TC (2005) Genetic and clonal diversity of two cattail species, Typha latifolia and T. angustifolia (Typhaceae), from Ukraine. Am J Bot 92:1161–1169
Tuchman NC, Larkin DJ, Geddes P, Wildova R, Jankowski K, Goldberg DE (2009) Patterns of environmental change associated with Typha × glauca Invasion in a Great Lakes Coastal Wetland. Wetlands 29:964–975
Verity R, Nichols RA (2014) What is genetic differentiation, and how should we measure it—Gst, D, neither or both? Mol Ecol 23:4216–4225
Whitney KD, Ahern JR, Campbell LG, Albert LP, King MS (2010) Patterns of hybridization in plants. Perspect Plant Ecol Evol Syst 12:175–182
Wolf DE, Takebayashi N, Rieseberg LH (2001) Predicting the Risk of Extinction through Hybridization. Conserv Biol 15(4):1039–1053
Wright S (1943) Isolation by distance. Genetics 28:114–138
Wright S (1946) Isolation by distance under diverse systems. Genetics 31:39–59
Zalapa JE, Brunet J, Guries RP (2010) The extent of hybridization and its impact on the genetic diversity and population structure of an invasive tree,Ulmus pumila (Ulmaceae). Evol Appl 3:157–168
Zapfe L, Freeland JR (2015) Heterosis in invasive F-1 cattail hybrids (Typha × glauca). Aquat Bot 125:44–47
Zhou B, Yu D, Ding Z, Xu X (2016) Comparison of genetic diversity in four Typha species (Poales, Typhaceae) from China. Hydrobiologia 770:117–128
Zuur AF, Ieno EN, Walker NJ, Saveliev AA, Smith GM (2009) Mixed Effects Models and Extensions in Ecology with. R. Springer Science, New York, NY, USA
Source: Ecology - nature.com
