Published in AoB Plants on September 11, 2016
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Increased genetic variation and evolutionary potential drive the success of an invasive grass. Proc Natl Acad Sci U S A (2007) 4.15
Soil biota and exotic plant invasion. Nature (2004) 3.67
Biotic interactions and plant invasions. Ecol Lett (2006) 3.51
Novel ecosystems: implications for conservation and restoration. Trends Ecol Evol (2009) 3.47
Climatic niche shifts are rare among terrestrial plant invaders. Science (2012) 3.44
Breakdown of an ant-plant mutualism follows the loss of large herbivores from an African savanna. Science (2008) 3.25
Five potential consequences of climate change for invasive species. Conserv Biol (2008) 2.62
Reconstructing routes of invasion using genetic data: why, how and so what? Mol Ecol (2010) 2.25
Olive domestication and diversification in the Mediterranean Basin. New Phytol (2014) 2.13
A general eco-evolutionary framework for understanding bioinvasions. Trends Ecol Evol (2005) 2.10
How are deleterious mutations purged? Drift versus nonrandom mating. Evolution (2003) 2.10
Soil biota and invasive plants. New Phytol (2006) 2.09
Inbreeding depression is purged in the invasive insect Harmonia axyridis. Curr Biol (2011) 2.08
Unifying niche shift studies: insights from biological invasions. Trends Ecol Evol (2014) 1.92
Crops gone wild: evolution of weeds and invasives from domesticated ancestors. Evol Appl (2010) 1.38
Integrative invasion science: model systems, multi-site studies, focused meta-analysis and invasion syndromes. New Phytol (2013) 1.25
Co-invasion by Pinus and its mycorrhizal fungi. New Phytol (2010) 1.24
The complex history of the olive tree: from Late Quaternary diversification of Mediterranean lineages to primary domestication in the northern Levant. Proc Biol Sci (2013) 1.21
Conflicting selection pressures on seed size: evolutionary ecology of fruit size in a bird-dispersed tree, Olea europaea. J Evol Biol (2003) 1.19
Anthropogenically induced adaptation to invade (AIAI): contemporary adaptation to human-altered habitats within the native range can promote invasions. Evol Appl (2011) 1.14
High genetic diversity and clonal growth in relict populations of Olea europaea subsp. laperrinei (Oleaceae) from Hoggar, Algeria. Ann Bot (2005) 1.12
Primary domestication and early uses of the emblematic olive tree: palaeobotanical, historical and molecular evidence from the Middle East. Biol Rev Camb Philos Soc (2012) 1.10
Phenotypic plasticity and population differentiation in an ongoing species invasion. PLoS One (2012) 1.07
Single vs multiple independent olive domestications: the jury is (still) out. New Phytol (2015) 1.07
Phylogenetics of Olea (Oleaceae) based on plastid and nuclear ribosomal DNA sequences: tertiary climatic shifts and lineage differentiation times. Ann Bot (2009) 1.07
High genetic load in an old isolated butterfly population. Proc Natl Acad Sci U S A (2012) 1.05
Invasion of diverse habitats by few Japanese knotweed genotypes is correlated with epigenetic differentiation. Ecol Lett (2012) 1.05
On the origin of the invasive olives (Olea europaea L., Oleaceae). Heredity (Edinb) (2007) 0.98
Phenotypic plasticity and integration across the canopy of Olea europaea subsp. guanchica (Oleaceae) in populations with different wind exposures. Am J Bot (2009) 0.92
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Role of propagule pressure in colonization success: disentangling the relative importance of demographic, genetic and habitat effects. J Evol Biol (2013) 0.91
Soil properties and olive cultivar determine the structure and diversity of plant-parasitic nematode communities infesting olive orchards soils in southern Spain. PLoS One (2015) 0.91
Rapid evolution and range expansion of an invasive plant are driven by provenance-environment interactions. Ecol Lett (2014) 0.87
Mycorrhizal co-invasion and novel interactions depend on neighborhood context. Ecology (2015) 0.85
The structure of legume-rhizobium interaction networks and their response to tree invasions. AoB Plants (2016) 0.84
History of the invasive African olive tree in Australia and Hawaii: evidence for sequential bottlenecks and hybridization with the Mediterranean olive. Evol Appl (2013) 0.84
Cultivation shapes genetic novelty in a globally important invader. Mol Ecol (2012) 0.84
Arbuscular mycorhizal fungi associated with the olive crop across the Andalusian landscape: factors driving community differentiation. PLoS One (2014) 0.83
A tool to assess potential for alien plant establishment and expansion under climate change. J Environ Manage (2015) 0.82
The Genetic Paradox of Invasions revisited: the potential role of inbreeding × environment interactions in invasion success. Biol Rev Camb Philos Soc (2016) 0.82
European invasion of North American Pinus strobus at large and fine scales: high genetic diversity and fine-scale genetic clustering over time in the adventive range. PLoS One (2013) 0.81
Loci under selection during multiple range expansions of an invasive plant are mostly population specific, but patterns are associated with climate. Mol Ecol (2015) 0.79
Sequence analysis of single-copy genes in two wild olive subspecies: nucleotide diversity and potential use for testing admixture. Genome (2014) 0.79
Gene flow and natural selection shape spatial patterns of genes in tree populations: implications for evolutionary processes and applications. Evol Appl (2015) 0.79
Multiple introductions boosted genetic diversity in the invasive range of black cherry (Prunus serotina; Rosaceae). Ann Bot (2010) 0.79
Belowground legacies of Pinus contorta invasion and removal result in multiple mechanisms of invasional meltdown. AoB Plants (2014) 0.78
Human usage in the native range may determine future genetic structure of an invasion: insights from Acacia pycnantha. BMC Ecol (2013) 0.77