Elevational shifts in phylogenetic diversity of angiosperm trees across the subtropical Brazilian Atlantic Forest

Bergamin, Rodrigo Scarton; Seger, Guilherme Dubal dos Santos; Carlucci, Marcos B.; Molz, Martin; Mello, Ricardo Silva Pereira; Martins, Rafael; Jarenkow, João André; Brack, Paulo; Müller, Sandra Cristina; Duarte, Leandro da Silva

doi:10.1111/aec.12996

Cited by 12 publications

(11 citation statements)

References 71 publications

(154 reference statements)

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“…Meanwhile, most Rubiaceae clades have a complex biogeographic history, and their high diversity in South America seems to be linked to the rise of the Andes ( 74 ). Families like Myrtaceae and Lauraceae are more commonly found in moist environments and, in South America, have acquired adaptations to colder temperatures, enabling them to diversify in higher elevations ( 75 ), which could explain their high diversity in South America and low diversity in Africa. In contrast, Ebenaceae, particularly the genus Diospyros, is known for its morphological and species diversity in Africa, coupled with a geographically wide distribution ( 76 , 77 ).…”

Section: Discussionmentioning

confidence: 99%

Dissecting the difference in tree species richness between Africa and South America

Miranda

Dexter

Swaine

et al. 2022

Proc. Natl. Acad. Sci. U.S.A.

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Significance Our full-scale comparison of Africa and South America’s lowland tropical tree floras shows that both Africa and South America’s moist and dry tree floras are organized similarly: plant families that are rich in tree species on one continent are also rich in tree species on the other continent, and these patterns hold across moist and dry environments. Moreover, we confirm that there is an important difference in tree species richness between the two continents, which is linked to a few families that are exceptionally diverse in South American moist forests, although dry formations also contribute to this difference. Plant families only present on one of the two continents do not contribute substantially to differences in tree species richness.

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Section: Discussionmentioning

confidence: 99%

Dissecting the difference in tree species richness between Africa and South America

Miranda

Dexter

Swaine

et al. 2022

Proc. Natl. Acad. Sci. U.S.A.

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“…Observations to date provide mixed support for the TNC, OTT, and OTL hypotheses: latitudinal decreases in evolutionary diversity (Kerkhoff et al, 2014) and angiosperm family ages (Hawkins et al, 2011;Romdal et al, 2013) have been reported, but also an increase in basal−weighted phylogenetic beta diversity to high latitudes (McFadden et al, 2019). Evolutionary diversity has been found to decrease with elevation in tropical montane forest (Bergamin et al, 2020), but also to increase along with increasing family age (Qian et al, 2014;Tiede et al, 2015).…”

Section: Introductionmentioning

confidence: 97%

Evolutionary Diversity Peaks at Mid-Elevations Along an Amazon-to-Andes Elevation Gradient

et al. 2021

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Elevation gradients present enigmatic diversity patterns, with trends often dependent on the dimension of diversity considered. However, focus is often on patterns of taxonomic diversity and interactions between diversity gradients and evolutionary factors, such as lineage age, are poorly understood. We combine forest census data with a genus level phylogeny representing tree ferns, gymnosperms, angiosperms, and an evolutionary depth of 382 million years, to investigate taxonomic and evolutionary diversity patterns across a long tropical montane forest elevation gradient on the Amazonian flank of the Peruvian Andes. We find that evolutionary diversity peaks at mid-elevations and contrasts with taxonomic richness, which is invariant from low to mid-elevation, but then decreases with elevation. We suggest that this trend interacts with variation in the evolutionary ages of lineages across elevation, with contrasting distribution trends between younger and older lineages. For example, while 53% of young lineages (originated by 10 million years ago) occur only below ∼1,750 m asl, just 13% of old lineages (originated by 110 million years ago) are restricted to below ∼1,750 m asl. Overall our results support an Environmental Crossroads hypothesis, whereby a mid-gradient mingling of distinct floras creates an evolutionary diversity in mid-elevation Andean forests that rivals that of the Amazonian lowlands.

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“…In Australasia, Myrtaceae predominate in most ecosystems, with more than 2250 species recorded [1]. They are also found in biological hotspots around the globe [2,3]. As such, A. psidii infection is a threat to many fragile ecosystems characterised by a high rate of endemism [4][5][6].…”

Section: Introductionmentioning

confidence: 99%

Both Constitutive and Infection-Responsive Secondary Metabolites Linked to Resistance against Austropuccinia psidii (Myrtle Rust) in Melaleuca quinquenervia

et al. 2022

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Austropuccinia psidii is a fungal plant pathogen that infects species within the Myrtaceae, causing the disease myrtle rust. Myrtle rust is causing declines in populations within natural and managed ecosystems and is expected to result in species extinctions. Despite this, variation in response to A. psidii exist within some species, from complete susceptibility to resistance that prevents or limits infection by the pathogen. Untargeted metabolomics using Ultra Performance Liquid Chromatography with Ion Mobility followed by analysis using MetaboAnalyst 3.0, was used to explore the chemical defence profiles of resistant, hypersensitive and susceptible phenotypes within Melaleuca quinquenervia during the early stages of A. psidii infection. We were able to identify three separate pools of secondary metabolites: (i) metabolites classified structurally as flavonoids that were naturally higher in the leaves of resistant individuals prior to infection, (ii) organoheterocyclic and carbohydrate-related metabolites that varied with the level of host resistance post-infection, and (iii) metabolites from the terpenoid pathways that were responsive to disease progression regardless of resistance phenotype suggesting that these play a minimal role in disease resistance during the early stages of colonization of this species. Based on the classes of these secondary metabolites, our results provide an improved understanding of key pathways that could be linked more generally to rust resistance with particular application within Melaleuca.

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Elevational shifts in phylogenetic diversity of angiosperm trees across the subtropical Brazilian Atlantic Forest

Cited by 12 publications

References 71 publications

Dissecting the difference in tree species richness between Africa and South America

Dissecting the difference in tree species richness between Africa and South America

Evolutionary Diversity Peaks at Mid-Elevations Along an Amazon-to-Andes Elevation Gradient

Both Constitutive and Infection-Responsive Secondary Metabolites Linked to Resistance against Austropuccinia psidii (Myrtle Rust) in Melaleuca quinquenervia

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