References

Abdala-Roberts, L., Mooney, K. A., Quijano-Medina, T., Campos-Navarrete, M. J., González-Moreno, A., & Parra-Tabla, V. (2015). Comparison of tree genotypic diversity and species diversity effects on different guilds of insect herbivores. Oikos, 124(11), 1527–1535.

Alakärppä, E., Salo, H. M., Valledor, L., Cañal, M. J., Häggman, H., & Vuosku, J. (2018). Natural variation of DNA methylation and gene expression may determine local adaptations of Scots pine populations. Journal of Experimental Botany, 69(21), 5293–5305.

Balao, F., Paun, O., & Alonso, C. (2018). Uncovering the contribution of epigenetics to plant phenotypic variation in Mediterranean ecosystems. Plant Biology, 20, 38–49.

Bandau, F., Albrectsen, B. R., Julkunen-Tiitto, R., & Gundale, M. J. (2017). Genotypic variability in Populus tremula L. affects how anthropogenic nitrogen enrichment influences litter decomposition. Plant and Soil, 410(1–2), 467–481.

Bazin, J., Bustos-Sanmamed, P., Hartmann, C., Lelandais-Brière, C., & Crespi, M. (2012). Complexity of miRNA-dependent regulation in root symbiosis. Philosophical Transactions of the Royal Society B: Biological Sciences, 367(1595), 1570–1579.

Becker, C., Hagmann, J., Müller, J., Koenig, D., Stegle, O., Borgwardt, K., & Weigel, D. (2011). Spontaneous epigenetic variation in the Arabidopsis thaliana methylome. Nature, 480(7376), 245–249.

Bernays, E., & Graham, M. (1988). On the Evolution of Host Specificity in Phytophagous Arthropods. Ecology, 69(4), 886–892.

Berryman, A. A. (2002). Population: A Central Concept for Ecology? Oikos, 97(3), 439–442. Retrieved from

Bolnick, D. I., Amarasekare, P., Araújo, M. S., Bürger, R., Levine, J. M., Novak, M., … Vasseur, D. A. (2011). Why intraspecific trait variation matters in community ecology. Trends in Ecology & Evolution, 26(4), 183–192.

Bongers, F. J., Schmid, B., Durka, W., Li, S., Bruelheide, H., Hahn, C. Z., … Liu, X. (2020). Genetic richness affects trait variation but not community productivity in a tree diversity experiment. New Phytologist, 227(3), 744–756.

Booth, R. E., & Grime, J. P. (2003). Effects of genetic impoverishment on plant community diversity. Journal of Ecology, 91(5), 721–730.

Bossdorf, O., Richards, C. L., & Pigliucci, M. (2008). Epigenetics for ecologists. Ecology Letters, 11(2), 106–115.

Bräutigam, K., Vining, K. J., Lafon-Placette, C., Fossdal, C. G., Mirouze, M., Marcos, J. G., … Cervera, M.-T. (2013). Epigenetic regulation of adaptive responses of forest tree species to the environment. Ecology and Evolution, 3(2), 399–415.

Camus, P. A., & Lima, M. (2002). Populations, Metapopulations, and the Open-Closed Dilemma: The Conflict between Operational and Natural Population Concepts. Oikos, 97(3), 433–438. Retrieved from

Carneros, E., Yakovlev, I., Viejo, M., Olsen, J. E., & Fossdal, C. G. (2017). The epigenetic memory of temperature during embryogenesis modifies the expression of bud burst-related genes in Norway spruce epitypes. Planta, 246(3), 553–566.

Crutsinger, G. M., Collins, M. D., Fordyce, J. A., Gompert, Z., Nice, C. C., & Sanders, N. J. (2006). Plant genotypic diversity predicts community structure and governs an ecosystem process. Science (New York, N.Y.), 313(5789), 966–968.

Davidson, A. M., Jennions, M., & Nicotra, A. B. (2011). Do invasive species show higher phenotypic plasticity than native species and, if so, is it adaptive? A meta-analysis. Ecology Letters, 14(4), 419–431.

Des Roches, S., Post, D. M., Turley, N. E., Bailey, J. K., Hendry, A. P., Kinnison, M. T., … Palkovacs, E. P. (2018). The ecological importance of intraspecific variation. Nature Ecology and Evolution, 2(1), 57–64.

Dlugosch, K. M., & Parker, I. M. (2008). Founding events in species invasions: genetic variation, adaptive evolution, and the role of multiple introductions. Molecular Ecology, 17(1), 431–449.

Dlugosch, K. M., & Parker, I. M. (2008). Invading populations of an ornamental shrub show rapid life history evolution despite genetic bottlenecks. Ecology Letters, 11(7), 701–709.

Douhovnikoff, V., & Dodd, R. S. (2015). Epigenetics: a potential mechanism for clonal plant success. Plant Ecology, 216(2), 227–233.

Downing, A. L., & Leibold, M. A. (2002). Ecosystem consequences of species richness and composition in pond food webs. Nature, 416(6883), 837–841.

Dubin, M. J., Zhang, P., Meng, D., Remigereau, M.-S., Osborne, E. J., Paolo Casale, F., … Nordborg, M. (2015). DNA methylation in Arabidopsis has a genetic basis and shows evidence of local adaptation. ELife, 4.

Elle, E., & Hare, J. D. (2002). Environmentally induced variation in floral traits affects the mating system in Datura wrightii. Functional Ecology, 16(1), 79–88.

Ellison, A. M., Bank, M. S., Clinton, B. D., Colburn, E. A., Elliott, K., Ford, C. R., … Webster, J. R. (2005). Loss of foundation species: consequences for the structure and dynamics of forested ecosystems. Frontiers in Ecology and the Environment, 3(9), 479–486.

Espinas, N. A., Saze, H., & Saijo, Y. (2016). Epigenetic Control of Defense Signaling and Priming in Plants. Frontiers in Plant Science, 7(AUG2016), 1201.

Fauth, J. E., Bernardo, J., Camara, M., Resetarits, W. J., Van Buskirk, J., & McCollum, S. A. (1996). Simplifying the jargon of community ecology: A conceptual approach. American Naturalist, 147(2), 282–286.

Fernandez-Conradi, P., Jactel, H., Hampe, A., Leiva, M. J., & Castagneyrol, B. (2017). The effect of tree genetic diversity on insect herbivory varies with insect abundance. Ecosphere, 8(1), e01637.

Fieldes, M. A. (1994). Heritable effects of 5-azacytidine treatments on the growth and development of flax ( Linum usitatissimum ) genotrophs and genotypes. Genome, 37(1), 1–11.

Fieldes, M. A., & Amyot, L. (1999). Epigenetic control of early flowering in flax lines induced by 5-azacytidine applied to germinating seed. Journal of Heredity, 90(1), 199–206.

Fieldes, M. A., Schaeffer, S. M., Krech, M. J., & Brown, J. C. L. (2005). DNA hypomethylation in 5-azacytidine-induced early-flowering lines of flax. Theoretical and Applied Genetics, 111(1), 136–149.

Fischer, D. G., Hart, S. C., LeRoy, C. J., & Whitham, T. G. (2007). Variation in below-ground carbon fluxes along a Populus hybridization gradient. New Phytologist, 176(2), 415–425.

Foust, C. M., Preite, V., Schrey, A. W., Alvarez, M., Robertson, M. H., Verhoeven, K. J. F., & Richards, C. L. (2016). Genetic and epigenetic differences associated with environmental gradients in replicate populations of two salt marsh perennials. Molecular Ecology, 25(8), 1639–1652.

Fraga, M. F., Rodríguez, R., & Cañal, M. J. (2002). Genomic DNA methylation-demethylation during aging and reinvigoration of Pinus radiata. Tree Physiology, 22(11), 813–816.

Gáspár, B., Bossdorf, O., & Durka, W. (2019). Structure, stability and ecological significance of natural epigenetic variation: a large-scale survey in Plantago lanceolata. New Phytologist, 221(3), 1585–1596.

Geoghegan, J. L., & Spencer, H. G. (2012). Population-epigenetic models of selection. Theoretical Population Biology, 81(3), 232–242.

Gibert, A., Tozer, W., & Westoby, M. (2019). Plant performance response to eight different types of symbiosis. New Phytologist, 222(1), 526–542.

González, A. V., Gómez‐Silva, V., Ramírez, M. J., & Fontúrbel, F. E. (2020). Meta‐analysis of the differential effects of habitat fragmentation and degradation on plant genetic diversity. Conservation Biology, 34(3), 711–720.

Gugger, P. F., Fitz-Gibbon, S., PellEgrini, M., & Sork, V. L. (2016). Species-wide patterns of DNA methylation variation in Quercus lobata and their association with climate gradients. Molecular Ecology, 25(8), 1665–1680.

Haddad, N. M., Crutsinger, G. M., Gross, K., Haarstad, J., Knops, J. M. H., & Tilman, D. (2009). Plant species loss decreases arthropod diversity and shifts trophic structure. Ecology Letters, 12(10), 1029–1039.

Haddad, N. M., Crutsinger, G. M., Gross, K., Haarstad, J., & Tilman, D. (2011). Plant diversity and the stability of foodwebs. Ecology Letters, 14(1), 42–46.

Hahn, C. Z., Niklaus, P. A., Bruelheide, H., Michalski, S. G., Shi, M., Yang, X., … Durka, W. (2017). Opposing intraspecific vs. interspecific diversity effects on herbivory and growth in subtropical experimental tree assemblages. Journal of Plant Ecology, 10(1), 244–251.

Hannan, M. T., & Freeman, J. (1977). The Population Ecology of Organizations. American Journal of Sociology, 82(5), 929–964.

Hastings, A., & Harrison, S. (1994). Metapopulation Dynamics and Genetics. Annual Review of Ecology and Systematics, 25, 167–188. Retrieved from

Heer, K., Mounger, J., Boquete, M. T., Richards, C. L., & Opgenoorth, L. (2018). The diversifying field of plant epigenetics. New Phytologist, 217(3), 988–992.

Heer, K., Ullrich, K. K., Hiss, M., Liepelt, S., Schulze Brüning, R., Zhou, J., … Rensing, S. A. (2018). Detection of somatic epigenetic variation in Norway spruce via targeted bisulfite sequencing. Ecology and Evolution, 8(19), 9672–9682.

Helm, A., Oja, T., Saar, L., Takkis, K., Talve, T., & Pärtel, M. (2009). Human influence lowers plant genetic diversity in communities with extinction debt. Journal of Ecology, 97(6), 1329–1336.

Herrera, C. M. (2017). The ecology of subindividual variability in plants: patterns, processes, and prospects. Web Ecology, 17(2), 51–64.

Herrera, C. M., & Bazaga, P. (2010). Epigenetic differentiation and relationship to adaptive genetic divergence in discrete populations of the violet Viola cazorlensis. New Phytologist, 187(3), 867–876.

Herrera, C. M., Medrano, M., & Bazaga, P. (2016). Comparative spatial genetics and epigenetics of plant populations: heuristic value and a proof of concept. Molecular Ecology, 25(8), 1653–1664.

Herrera, C. M., Medrano, M., & Bazaga, P. (2017). Comparative epigenetic and genetic spatial structure of the perennial herb Helleborus foetidus : Isolation by environment, isolation by distance, and functional trait divergence. American Journal of Botany, 104(8), 1195–1204.

Herrera, C. M., Medrano, M., Pérez, R., Bazaga, P., & Alonso, C. (2019). Within‐plant heterogeneity in fecundity and herbivory induced by localized <scp>DNA</scp> hypomethylation in the perennial herb Helleborus foetidus. American Journal of Botany, 106(6), 798–806.

Hewezi, T., Lane, T., Piya, S., Rambani, A., Rice, J. H., & Staton, M. (2017). Cyst nematode parasitism induces dynamic changes in the root epigenome. Plant Physiology, 174(1), 405–420.

Hofmann, N. R. (2015). Epigenetic Battles Underfoot: Allelopathy among Plants Can Target Chromatin Modification. The Plant Cell, 27(11), 3021.

Holling, C. S. (1992). Cross-scale morphology, geometry, and dynamics of ecosystems. Ecological Monographs, 62(4), 447–502.

Hooper, D. U., Chapin, F. S., Ewel, J. J., Hector, A., Inchausti, P., Lavorel, S., … Wardle, D. A. (2005). Effects of biodiversity on ecoystem functioning: A consensus of current knowledge. Ecological Monographs, 75(1), 3–35.

Hughes, A. R., Inouye, B. D., Johnson, M. T. J., Underwood, N., & Vellend, M. (2008). Ecological consequences of genetic diversity. Ecology Letters, 11(6), 609–623.

Jiang, C., Mithani, A., Belfield, E. J., Mott, R., Hurst, L. D., & Harberd, N. P. (2014). Environmentally responsive genome-wide accumulation of de novo Arabidopsis thaliana mutations and epimutations. Genome Research, 24(11), 1821–1829.

Johannes, F., Porcher, E., Teixeira, F. K., Saliba-Colombani, V., Simon, M., Agier, N., … Colot, V. (2009). Assessing the Impact of Transgenerational Epigenetic Variation on Complex Traits. PLoS Genetics, 5(6), e1000530.

Johnson, M. T. J., Lajeunesse, M. J., & Agrawal, A. A. (2006). Additive and interactive effects of plant genotypic diversity on arthropod communities and plant fitness. Ecology Letters, 0(0), 051012084514001.

Kagiya, S., Yasugi, M., Kudoh, H., Nagano, A. J., & Utsumi, S. (2018). Does genomic variation in a foundation species predict arthropod community structure in a riparian forest? Molecular Ecology, 27(5), 1284–1295.

Kawakatsu, T., Huang, S. C., Jupe, F., Sasaki, E., Schmitz, R. J., Urich, M. A., … Ecker, J. R. (2016). Epigenomic Diversity in a Global Collection of Arabidopsis thaliana Accessions. Cell, 166(2), 492–505.

Kellenberger, R. T., Schlüter, P. M., & Schiestl, F. P. (2016). Herbivore-Induced DNA Demethylation Changes Floral Signalling and Attractiveness to Pollinators in Brassica rapa. PLOS ONE, 11(11), e0166646.

Keller, T. E., Lasky, J. R., & Yi, S. V. (2016). The multivariate association between genomewide DNA methylation and climate across the range of Arabidopsis thaliana. Molecular Ecology, 25(8), 1823–1837.

Kelly, D. (1994). The evolutionary ecology of mast seeding. Trends in Ecology and Evolution, 9(12), 465–470.

Kinoshita, T., & Seki, M. (2014). Epigenetic Memory for Stress Response and Adaptation in Plants. Plant and Cell Physiology, 55(11), 1859–1863.

Koricheva, J., & Hayes, D. (2018). The relative importance of plant intraspecific diversity in structuring arthropod communities: A meta-analysis. Functional Ecology, 32(7), 1704–1717.

Koricheva, J., Mulder, C. P. H., Schmid, B., Joshi, J., & Huss-Danell, K. (2000). Numerical responses of different trophic groups of invertebrates to manipulations of plant diversity in grasslands. Oecologia, 125(2), 271–282.

Lamy, T., Laroche, F., David, P., Massol, F., & Jarne, P. (2017). The contribution of species-genetic diversity correlations to the understanding of community assembly rules. Oikos, 126(6), 759–771.

Latzel, V., Allan, E., Bortolini Silveira, A., Colot, V., Fischer, M., & Bossdorf, O. (2013). Epigenetic diversity increases the productivity and stability of plant populations. Nature Communications, 4(1), 2875.

Latzel, V., Münzbergová, Z., Skuhrovec, J., Novák, O., & Strnad, M. (2020). Effect of experimental DNA demethylation on phytohormones production and palatability of a clonal plant after induction via jasmonic acid. Oikos, oik.07302.

Lehmair, T. A., Pagel, E., Poschlod, P., & Reisch, C. (2020). Surrounding landscape structures, rather than habitat age, drive genetic variation of typical calcareous grassland plant species. Landscape Ecology, 1–13.

Lidicker, W. Z. (2007). Levels of organization in biology: on the nature and nomenclature of ecology’s fourth level. Biological Reviews, 83(1), 71–78.

Linders, T. E. W., Schaffner, U., Eschen, R., Abebe, A., Choge, S. K., Nigatu, L., … Allan, E. (2019). Direct and indirect effects of invasive species: Biodiversity loss is a major mechanism by which an invasive tree affects ecosystem functioning. Journal of Ecology, 107(6), 2660–2672.

Lira-Medeiros, C. F., Parisod, C., Fernandes, R. A., Mata, C. S., Cardoso, M. A., & Ferreira, P. C. G. (2010). Epigenetic Variation in Mangrove Plants Occurring in Contrasting Natural Environment. PLoS ONE, 5(4), e10326.

Loomis, E. S., & Fishman, L. (2009). A Continent‐Wide Clone: Population Genetic Variation of the Invasive Plant Hieracium aurantiacum (Orange Hawkweed; Asteraceae) in North America. International Journal of Plant Sciences, 170(6), 759–765.

Lu, W., Xiao, L., Quan, M., Wang, Q., El‐Kassaby, Y. A., Du, Q., & Zhang, D. (2020). Linkage‐linkage disequilibrium dissection of the epigenetic quantitative trait loci (epiQTLs) underlying growth and wood properties in Populus. New Phytologist, 225(3), 1218–1233.

Madritch, M. D., Donaldson, J. R., & Lindroth, R. L. (2007). Canopy herbivory can mediate the influence of plant genotype on soil processes through frass deposition. Soil Biology and Biochemistry, 39(5), 1192–1201.

Marfil, C. F., Camadro, E. L., & Masuelli, R. W. (2009). Phenotypic instability and epigenetic variability in a diploid potato of hybrid origin, Solanum ruiz-lealii. BMC Plant Biology, 9(1), 1–16.

Medrano, M., Herrera, C. M., & Bazaga, P. (2014). Epigenetic variation predicts regional and local intraspecific functional diversity in a perennial herb. Molecular Ecology, 23(20), 4926–4938.

Mirouze, M., & Paszkowski, J. (2011). Epigenetic contribution to stress adaptation in plants. Current Opinion in Plant Biology, 14(3), 267–274.

Moreira, X., & Mooney, K. A. (2013). Influence of plant genetic diversity on interactions between higher trophic levels. Biology Letters, 9(3), 20130133.

Moreira, X., Mooney, K. A., Zas, R., & Sampedro, L. (2012). Bottom-up effects of host-plant species diversity and top-down effects of ants interactively increase plant performance. Proceedings of the Royal Society B: Biological Sciences, 279(1746), 4464–4472.

Mounger, J., Ainouche, M., Bossdorf, O., Cavé-Radet, A., Li, B., Parepa, M., … Richards, C. (n.d.). Epigenetics and the success of invasive plants.

Münzbergová, Z., Cousins, S. A. O., Herben, T., Plačková, I., Mildén, M., & Ehrlén, J. (2013). Historical habitat connectivity affects current genetic structure in a grassland species. Plant Biology, 15(1), 195–202.

Muth, N. Z., & Pigliucci, M. (2007). Implementation of a novel framework for assessing species plasticity in biological invasions: responses of Centaurea and Crepis to phosphorus and water availability. Journal of Ecology, 95(5), 1001–1013.

Papazian, S., Girdwood, T., Wessels, B. A., Poelman, E. H., Dicke, M., Moritz, T., & Albrectsen, B. R. (2019). Leaf metabolic signatures induced by real and simulated herbivory in black mustard (Brassica nigra). Metabolomics, 15(10), 130.

Pratx, L., Rancurel, C., Da Rocha, M., Danchin, E. G. J., Castagnone-Sereno, P., Abad, P., & Perfus-Barbeoch, L. (2018). Genome-wide expert annotation of the epigenetic machinery of the plant-parasitic nematodes Meloidogyne spp., with a focus on the asexually reproducing species. BMC Genomics, 19(1), 1–21.

Preite, V., Snoek, L. B., Oplaat, C., Biere, A., van der Putten, W. H., & Verhoeven, K. J. F. (2015). The epigenetic footprint of poleward range-expanding plants in apomictic dandelions. Molecular Ecology, 24(17), 4406–4418.

Puy, J., de Bello, F., Dvořáková, H., Medina, N. G., Latzel, V., & Carmona, C. P. (2020). Competition‐induced transgenerational plasticity influences competitive interactions and leaf decomposition of offspring. New Phytologist, nph.17037.

Quadrana, L., & Colot, V. (2016). Plant Transgenerational Epigenetics. Annual Review of Genetics, 50(1), 467–491.

Raffard, A., Cucherousset, J., Santoul, F., Gesu, L. Di, & Blanchet, S. (2018). Intraspecific variation and warming have comparable effects on eco-evolutionary dynamics. BioRxiv, 332619.

Raffard, A., Santoul, F., Cucherousset, J., & Blanchet, S. (2019). The community and ecosystem consequences of intraspecific diversity: a meta-analysis. Biological Reviews, 94(2), 648–661.

Raj, S., Bräutigam, K., Hamanishi, E. T., Wilkins, O., Thomas, B. R., Schroeder, W., … Campbell, M. M. (2011). Clone history shapes Populus drought responses. Proceedings of the National Academy of Sciences of the United States of America, 108(30), 12521–12526.

Rapp, R. A., & Wendel, J. F. (2005). Epigenetics and plant evolution. New Phytologist, 168(1), 81–91.

Reusch, T. B. H., Ehlers, A., Hämmerli, A., & Worm, B. (2005). Ecosystem recovery after climatic extremes enhanced by genotypic diversity. Proceedings of the National Academy of Sciences, 102(8), 2826–2831.

Relman, D. A. (2008). “Til death do us part”: Coming to terms with symbiotic relationships. Nature Reviews Microbiology, Vol. 6, pp. 721–724.

Richards, C. L., Alonso, C., Becker, C., Bossdorf, O., Bucher, E., Colomé-Tatché, M., … Verhoeven, K. J. F. (2017). Ecological plant epigenetics: Evidence from model and non-model species, and the way forward. Ecology Letters, 20(12), 1576–1590.

Richards, C. L., Bossdorf, O., Muth, N. Z., Gurevitch, J., & Pigliucci, M. (2006, August 1). Jack of all trades, master of some? On the role of phenotypic plasticity in plant invasions. Ecology Letters, Vol. 9, pp. 981–993.

Richards, C. L., Schrey, A. W., & Pigliucci, M. (2012). Invasion of diverse habitats by few Japanese knotweed genotypes is correlated with epigenetic differentiation. Ecology Letters, 15(9), 1016–1025.

Richards, E. J. (2006). Inherited epigenetic variation — revisiting soft inheritance. Nature Reviews Genetics, 7(5), 395–401.

Robinson, K. M., Ingvarsson, P. K., Jansson, S., Albrectsen, B. R., Soares, J., & Macaya-Sanz, D. (2012). Genetic Variation in Functional Traits Influences Arthropod Community Composition in Aspen (Populus tremula L.). PLoS ONE, 7(5), e37679.

Rodriguez, R. J., Henson, J., Van Volkenburgh, E., Hoy, M., Wright, L., Beckwith, F., … Redman, R. S. (2008). Stress tolerance in plants via habitat-adapted symbiosis. The ISME Journal, 2(4), 404–416.

Rollins, L. A., Moles, A. T., Lam, S., Buitenwerf, R., Buswell, J. M., Brandenburger, C. R., … Sherwin, W. B. (2013). High genetic diversity is not essential for successful introduction. Ecology and Evolution, 3(13), 4501–4517.

Schaaf, L. J., Odling-Smee, F. J., Laland, K. N., & Feldman, M. W. (2003). Niche construction: the neglected process in evolution. Princeton University Press.

Schmitz, R. J., He, Y., Valdés-López, O., Khan, S. M., Joshi, T., Urich, M. A., … Ecker, J. R. (2013). Epigenome-wide inheritance of cytosine methylation variants in a recombinant inbred population. Genome Research, 23(10), 1663–1674.

Schulz, B., Eckstein, R. L., & Durka, W. (2014). Epigenetic variation reflects dynamic habitat conditions in a rare floodplain herb. Molecular Ecology, 23(14), 3523–3537.

Schweitzer, J. A., Madritch, M. D., Bailey, J. K., LeRoy, C. J., Fischer, D. G., Rehill, B. J., … Whitham, T. G. (2008). From Genes to Ecosystems: The Genetic Basis of Condensed Tannins and Their Role in Nutrient Regulation in a Populus Model System. Ecosystems, 11(6), 1005–1020.

Schweitzer, J. A., Bailey, J. K., Hart, S. C., & Whitham, T. G. (2005). Nonadditive effects of mixing cottonwood genotypes on litter decomposition and nutrient dynamics. Ecology, 86(10), 2834–2840.

Shahid, S., Kim, G., Johnson, N. R., Wafula, E., Wang, F., Coruh, C., … Axtell, M. J. (2018). MicroRNAs from the parasitic plant Cuscuta campestris target host messenger RNAs. Nature, 553(7686), 82–85.

Siefert, A., Violle, C., Chalmandrier, L., Albert, C. H., Taudiere, A., Fajardo, A., … Wardle, D. A. (2015, December 1). A global meta-analysis of the relative extent of intraspecific trait variation in plant communities. Ecology Letters, Vol. 18, pp. 1406–1419.

Slotkin, R. K. (2016). Plant epigenetics: from genotype to phenotype and back again. Genome Biology, 17(1), 57.

Taberlet, P., Zimmermann, N. E., Englisch, T., Tribsch, A., Holderegger, R., Alvarez, N., … Gugerli, F. (2012). Genetic diversity in widespread species is not congruent with species richness in alpine plant communities. Ecology Letters, 15(12), 1439–1448.

Tansley, A. G. (2013). The use and abuse of vegetational concepts and terms. In The Future of Nature: Documents of Global Change (pp. 220–229).

Taudt, A., Colomé-Tatché, M., & Johannes, F. (2016). Genetic sources of population epigenomic variation. Nature Reviews Genetics, 17(6), 319–332.

van der Graaf, A., Wardenaar, R., Neumann, D. A., Taudt, A., Shaw, R. G., Jansen, R. C., … Johannes, F. (2015). Rate, spectrum, and evolutionary dynamics of spontaneous epimutations. Proceedings of the National Academy of Sciences of the United States of America, 112(21), 6676–6681.

Vannier, N., Mony, C., Bittebière, A.-K., & Vandenkoornhuyse, P. (2015). Epigenetic Mechanisms and Microbiota as a Toolbox for Plant Phenotypic Adjustment to Environment. Frontiers in Plant Science, 6(DEC), 1159.

Venturelli, S., Belz, R. G., Kämper, A., Berger, A., von Horn, K., Wegner, A., … Becker, C. (2015). Plants release precursors of histone deacetylase inhibitors to suppress growth of competitors. Plant Cell, 27(11), 3175–3189.

Walls, R. L. (2010). Hybridization and Plasticity Contribute to Divergence Among Coastal and Wetland Populations of Invasive Hybrid Japanese Knotweed s.l. (Fallopia spp.). Estuaries and Coasts, 33(4), 902–918.

Wen, Z., Pang, J., Tueux, G., Liu, Y., Shen, J., Ryan, M. H., … Siddique, K. H. M. (2020). Contrasting patterns in biomass allocation, root morphology and mycorrhizal symbiosis for phosphorus acquisition among 20 chickpea genotypes with different amounts of rhizosheath carboxylates. Functional Ecology, 34(7), 1311–1324.

Whipple, A. V., & Holeski, L. M. (2016). Epigenetic Inheritance across the Landscape. Frontiers in Genetics, 7(OCT), 189.

Whitham, T. G., Bailey, J. K., Schweitzer, J. A., Shuster, S. M., Bangert, R. K., LeRoy, C. J., … Wooley, S. C. (2006). A framework for community and ecosystem genetics: from genes to ecosystems. Nature Reviews Genetics, 7(7), 510–523.

Whitham, T. G., Difazio, S. P., Schweitzer, J. A., Shuster, S. M., Allan, G. J., Bailey, J. K., & Woolbright, S. A. (2008). Extending genomics to natural communities and ecosystems. Science (New York, N.Y.), 320(5875), 492–495.

Yu, A., Lepère, G., Jay, F., Wang, J., Bapaume, L., Wang, Y., … Navarro, L. (2013). Dynamics and biological relevance of DNA demethylation in Arabidopsis antibacterial defense. Proceedings of the National Academy of Sciences of the United States of America, 110(6), 2389–2394.

Zeng, X., Durka, W., & Fischer, M. (2017). Species-specific effects of genetic diversity and species diversity of experimental communities on early tree performance. Journal of Plant Ecology, 10(1), 252–258.

Zhang, Y. Y., Fischer, M., Colot, V., & Bossdorf, O. (2013). Epigenetic variation creates potential for evolution of plant phenotypic plasticity. New Phytologist, 197(1), 314–322. Zogli, P., & Libault, M. (2017, October 1). Plant response to biotic stress: Is there a common epigenetic response during plant-pathogenic and symbiotic interactions? Plant Science, Vol. 263, pp. 89–93.