Revised circumscription of Nothofagus and recognition of the segregate genera Fuscospora, Lophozonia, and Trisyngyne (Nothofagaceae)

Heenan, P. B.; Smissen, Rob D.

doi:10.11646/phytotaxa.146.1.1

Cited by 106 publications

(77 citation statements)

References 58 publications

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“…The subantarctic, Andean species of Nothofagus s.str. (Nothofagaceae; see Heenan and Smissen, 2013) diverged around 20 Ma (scenario 1 of Sauquet et al, 2012). Unfortunately, the phylogeny of Nothofagus in this part of the tree is not yet well-resolved (Sauquet et al, 2012;Heenan and Smissen, 2013).…”

Section: Southern Andesmentioning

confidence: 99%

“…(Nothofagaceae; see Heenan and Smissen, 2013) diverged around 20 Ma (scenario 1 of Sauquet et al, 2012). Unfortunately, the phylogeny of Nothofagus in this part of the tree is not yet well-resolved (Sauquet et al, 2012;Heenan and Smissen, 2013). Also in the Southern Andes, the diversification of the genus Oriastrum (Asteraceae; nomenclature following Davies, 2010) in high-elevation environments contrasts between southern and central Andean clades : while the southern Andean centered subgenus Oriastrum may have diversified about 13 Ma, crown node age of the central Andean subgenus Egania was estimated to ca.…”

Section: Southern Andesmentioning

confidence: 99%

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Phylogenetic insights into Andean plant diversification

2014

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Section: Southern Andesmentioning

confidence: 99%

Section: Southern Andesmentioning

confidence: 99%

Phylogenetic insights into Andean plant diversification

2014

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“…We selected sites that had an established P. menziesii plantation .20 years in age, P. menziesii seedlings naturalized from this source, and both a native forest (southern beech, Fuscospora cliffortioides (Hook.f. ), previously Nothofagus solandri [Heenan and Smissen 2013]) and a grassland within 1 km of the mature P. menziesii plantation. Detailed site histories are not known, but grasslands in our study system were originally native forests that were transformed to grasslands through anthropogenic fires, initially by Māori ca.…”

Section: Invasive Seedling Surveymentioning

confidence: 99%

Mycorrhizal co‐invasion and novel interactions depend on neighborhood context

Moeller

Dickie

Peltzer

et al. 2015

Ecology

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Abstract. Biological invasions are a rapidly increasing driver of global change, yet fundamental gaps remain in our understanding of the factors determining the success or extent of invasions. For example, although most woody plant species depend on belowground mutualists such as mycorrhizal fungi and nitrogen-fixing bacteria, the relative importance of these mutualisms in conferring invasion success is unresolved. Here, we describe how neighborhood context (identity of nearby tree species) affects the formation of belowground ectomycorrhizal partnerships between fungi and seedlings of a widespread invasive tree species, Pseudotsuga menziesii (Douglas-fir), in New Zealand. We found that the formation of mycorrhizal partnerships, the composition of the fungal species involved in these partnerships, and the origin of the fungi (co-invading or native to New Zealand) all depend on neighborhood context. Our data suggest that nearby ectomycorrhizal host trees act as both a reservoir of fungal inoculum and a carbon source for late-successional and native fungi. By facilitating mycorrhization of P. menziesii seedlings, adult trees may alleviate mycorrhizal limitation at the P. menziesii invasion front. These results highlight the importance of studying biological invasions across multiple ecological settings to understand establishment success and invasion speed.

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“…Krasser (Lophozonia glauca) Heenan & Smissen (Hualo) (Heenan and Smissen 2013). Nothofagus glauca is a temperate deciduous hardwood species, monoecious, wind pollinated and dispersed by small mammals.…”

Section: Introductionmentioning

confidence: 99%

Variability in seed germination and seedling growth at the intra- and inter-provenance levels of Nothofagus glauca (Lophozonia glauca), an endemic species of Central Chile

Moya

Meza

Díaz

et al. 2017

N.Z. j. of For. Sci.

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Background: Patterns of seed germination and subsequent seedling growth of the endemic species Nothofagus glauca (Phil.) Krasser (Lophozonia glauca) (Hualo) were studied in two provenances from Mediterranean Central Chile (pre-Andean mountain range provenance and coastal range provenance). The main aim of the study was to determine differences in seed germination and seedling growth at the intra-and inter-provenance levels. Methods: The experiment was carried out with seeds from two provenances and four to five different sites from each provenance. Seed germination tests were conducted in 10 × 1 m beds in a greenhouse. Germinated seeds were sown in 140-mL containers and cultivated under nursery conditions for 8 months. After that period, growth and survival were measured. Results: Germination, growth and survival were highly variable at the intra-provenance level. Sites from the pre-Andean mountain range provenance exhibited lower germination capacity (33.1%) and seedling survival (76.3%) than sites from the Coastal range provenance (40.2 and 91.3%, respectively). Conclusions: Provenance variability was important for seed mass and germination, and seedling survival, while intra-provenance variability was systematically higher, whatever the functional trait considered, indicating a high potential capacity of the species to adapt to climate change. This intra-provenance variability must be conserved with the use of local seed. In our case, pre-Andean sites must be established in high-elevation environments, while coastal provenances must be restricted to more lowland and coastal environments.

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Revised circumscription of Nothofagus and recognition of the segregate genera Fuscospora, Lophozonia, and Trisyngyne (Nothofagaceae)

Cited by 106 publications

References 58 publications

Phylogenetic insights into Andean plant diversification

Phylogenetic insights into Andean plant diversification

Mycorrhizal co‐invasion and novel interactions depend on neighborhood context

Variability in seed germination and seedling growth at the intra- and inter-provenance levels of Nothofagus glauca (Lophozonia glauca), an endemic species of Central Chile

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