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1. Adaptation to hummingbird pollination is associated with reduced diversification in Penstemon

   https://doi.org/10.1002/evl3.130  

   Wessinger, Carolyn A. ; Rausher, Mark D. ; Hileman, Lena C. ( October 2019 , Evolution Letters)

   A striking characteristic of the Western North American flora is the repeated evolution of hummingbird pollination from insect-pollinated ancestors. This pattern has received extensive attention as an opportunity to study repeated trait evolution as well as potential constraints on evolutionary reversibility, with little attention focused on the impact of these transitions on species diversification rates. Yet traits conferring adaptation to divergent pollinators potentially impact speciation and extinction rates, because pollinators facilitate plant reproduction and specify mating patterns between flowering plants. Here, we examine macroevolutionary processes affecting floral pollination syndrome diversity in the largest North American genus of flowering plants, Penstemon. Within Penstemon, transitions from ancestral bee-adapted flowers to hummingbird-adapted flowers have frequently occurred, although hummingbird-adapted species are rare overall within the genus. We inferred macroevolutionary transition and state-dependent diversification rates and found that transitions from ancestral bee-adapted flowers to hummingbird-adapted flowers are associated with reduced net diversification rate, a finding based on an estimated 17 origins of hummingbird pollination in our sample. Although this finding is congruent with hypotheses that hummingbird adaptation in North American Flora is associated with reduced species diversification rates, it contrasts with studies of neotropical plant families where hummingbird pollination has been associated with increased species diversification. We further used the estimated macroevolutionary rates to predict the expected pattern of floral diversity within Penstemon over time, assuming stable diversification and transition rates. Under these assumptions, we find that hummingbird-adapted species are expected to remain rare due to their reduced diversification rates. In fact, current floral diversity in the sampled Penstemon lineage, where less than one-fifth of species are hummingbird adapted, is consistent with predicted levels of diversity under stable macroevolutionary rates.

    

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2. Into the Andes: multiple independent colonizations drive montane diversity in the Neotropical clearwing butterflies Godyridina

   https://doi.org/10.1111/mec.13773  

   Chazot, Nicolas ; Willmott, Keith R. ; Condamine, Fabien L. ; De‐Silva, Donna Lisa ; Freitas, André V. L. ; Lamas, Gerardo ; Morlon, Hélène ; Giraldo, Carlos E. ; Jiggins, Chris D. ; Joron, Mathieu ; et al ( October 2016 , Molecular Ecology)

   Understanding why species richness peaks along the Andes is a fundamental question in the study of Neotropical biodiversity. Several biogeographic and diversification scenarios have been proposed in the literature, but there is confusion about the processes underlying each scenario, and assessing their relative contribution is not straightforward. Here, we propose to refine these scenarios into a framework which evaluates four evolutionary mechanisms: higher speciation rate in the Andes, lower extinction rates in the Andes, older colonization times and higher colonization rates of the Andes from adjacent areas. We apply this framework to a species‐rich subtribe of Neotropical butterflies whose diversity peaks in the Andes, the Godyridina (Nymphalidae: Ithomiini). We generated a time‐calibrated phylogeny of the Godyridina and fitted time‐dependent diversification models. Using trait‐dependent diversification models and ancestral state reconstruction methods we then compared different biogeographic scenarios. We found strong evidence that the rates of colonization into the Andes were higher than the other way round. Those colonizations and the subsequent local diversification at equal rates in the Andes and in non‐Andean regions mechanically increased the species richness of Andean regions compared to that of non‐Andean regions (‘species‐attractor’ hypothesis). We also found support for increasing speciation rates associated with Andean lineages. Our work highlights the importance of the Andean slopes in repeatedly attracting non‐Andean lineages, most likely as a result of the diversity of habitats and/or host plants. Applying this analytical framework to other clades will bring important insights into the evolutionary mechanisms underlying the most species‐rich biodiversity hotspot on the planet.

    

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3. Biogeographic breaks in the Atlantic Forest: evidence for Oligocene/Miocene diversification in Bertolonia (Melastomataceae)

   https://doi.org/10.1093/botlinnean/boab099  

   Bacci, Lucas F. ; Reginato, Marcelo ; Bochorny, Thuane ; Michelangeli, Fabián A. ; Amorim, André M. ; Goldenberg, Renato ( December 2021 , Botanical Journal of the Linnean Society)

   The distribution of major clades in Bertolonia (Melastomataceae) is congruent with subareas of the Atlantic Forest, providing an opportunity to estimate ages of historical breaks in the Atlantic Forest, from its major north/south split to more restricted local radiations. The role of niche conservatism in driving diversification of Bertolonia is also analysed and discussed in the light of its historical distribution. We estimated the age of the diversification events, gathered the climatic envelopes of species and clades, generated bioregions for the Atlantic Forest and reconstructed the ancestral areas of speciation for the genus. Our analysis subdivided the Atlantic Forest in five subareas, three of them in the northern and two in the southern Atlantic Forest. We also recovered a deep north/south divergence of the Atlantic Forest in the Oligocene (c. 30 Mya) followed by subsequent local radiations in both regions and a south-eastern/southern division in the Miocene. Later diversification happened mostly from the Mid-Miocene to Pliocene/Pleistocene with several dispersal events, mostly between neighbouring areas. We corroborated this assumption demonstrating that closely related lineages tend to occur in habitats with similar climatic conditions, mainly related to temperature. Our analyses on Bertolonia effectively captured relatively old historical events in the Atlantic Forest, such as the north/south division in the Oligocene and south/south-eastern split in the Miocene, but also recent ones, such as climatic fluctuations and forest fragmentation in the Quaternary. We indicate here for the first time that, for some organisms, the well-known north/south split of the Atlantic Forest could be older than expected. Recent radiation events occurred mainly on a regional basis after this deep division of the domain and the subclades that were recovered showed a significant climatic niche conservatism.

    

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4. Genetic structuring and species boundaries in the Atlantic stony coral Favia (Scleractinia, Faviidae)

   https://doi.org/10.1111/zsc.12652  

   Adam, Carolina de Lima ; Toonen, Robert J. ; Carlon, David B. ; Zilberberg, Carla ; Barbeitos, Marcos Soares ( January 2024 , Zoologica Scripta)

   Scleractinian corals are the main modern builders of coral reefs, which are major hot spots of marine biodiversity. Southern Atlantic reef corals are understudied compared to their Caribbean and Indo‐Pacific counterparts and many hypotheses about their population dynamics demand further testing. We employed thousands of single nucleotide polymorphisms (SNPs) recovered via ezRAD to characterize genetic population structuring and species boundaries in the amphi‐Atlantic hard coral genusFavia. Coalescent‐based species delimitation (BFD* – Bayes Factor Delimitation) recoveredF. fragumandF. gravidaas separate species. Although our results agree with depth‐related genetic structuring inF. fragum, they did not support incipient speciation of the ‘tall’ and ‘short’ morphotypes. The preferred scenario also revealed a split between two main lineages ofF. gravida, one from Ascension Island and the other from Brazil. The Brazilian lineage is further divided into a species that occurs throughout the Northeastern coast and another that ranges from the Abrolhos Archipelago to the state of Espírito Santo. BFD* scenarios were corroborated by analyses of SNP matrices with varying levels of missing data and by a speciation‐based delimitation approach (DELINEATE). Our results challenge current notions about Atlantic reef corals because they uncovered surprising genetic diversity inFaviaand rejected the long‐standing hypothesis that Abrolhos Archipelago may have served as a Pleistocenic refuge during the last glaciations.

    

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5. Sitticine jumping spiders: phylogeny, classification, and chromosomes (Araneae, Salticidae, Sitticini)

   https://doi.org/10.3897/zookeys.925.39691  

   Maddison, Wayne P. ; Maddison, David R. ; Derkarabetian, Shahan ; Hedin, Marshal ( April 2020 , ZooKeys)

   The systematics of sitticine jumping spiders is reviewed, with a focus on the Palearctic and Nearctic regions, in order to revise their generic classification, clarify the species of one region (Canada), and study their chromosomes. A genome-wide molecular phylogeny of 23 sitticine species, using more than 700 loci from the arachnid Ultra-Conserved Element (UCE) probeset, confirms the Neotropical origins of sitticines, whose basal divergence separates the new subtribe Aillutticina (a group of five Neotropical genera) from the subtribe Sitticina (five genera of Eurasia and the Americas). The phylogeny shows that most Eurasian sitticines form a relatively recent and rapid radiation, which we unite into the genus Attulus Simon, 1868, consisting of the subgenera Sitticus Simon, 1901 (seven described species), Attulus (41 described species), and Sittilong Prószyński, 2017 (one species). Five species of Attulus occur natively in North America, presumably through dispersals back from the Eurasian radiation, but an additional three species were more recently introduced from Eurasia. Attus palustris Peckham & Peckham, 1883 is considered to be a full synonym of Euophrys floricola C. L. Koch, 1837 (not a distinct subspecies). Attus sylvestris Emerton, 1891 is removed from synonymy and recognized as a senior synonym of Sitticus magnus Chamberlin & Ivie, 1944. Thus, the five native Attulus in North America are Attulus floricola , A. sylvestris , A. cutleri , A. striatus , and A. finschi . The other sitticines of Canada and the U.S.A. are placed in separate genera, all of which arose from a Neotropical radiation including Jollas Simon, 1901 and Tomis F.O.Pickard-Cambridge, 1901: (1) Attinella Banks, 1905 ( A. dorsata , A. concolor , A. juniperi ), (2) Tomis ( T. welchi ), and (3) Sittisax Prószyński, 2017 ( S. ranieri ). All Neotropical and Caribbean “ Sitticus ” are transferred to either Jollas (12 species total) or Tomis (14 species). Attinella (three species) and Tomis are both removed from synonymy with Sitticus ; the synonymy of Sitticus cabellensis Prószyński, 1971 with Pseudattulus kratochvili Caporiacco, 1947 is restored; Pseudattulus Caporiacco, 1947 is synonymized with Tomis . Six generic names are newly synonymized with Attulus and one with Attinella . Two Neotropical species are described as new, Jollas cupreus sp. nov. and Tomis manabita sp. nov. Forty-six new combinations are established and three are restored. Three species synonymies are restored, one is new, and two are rejected. Across this diversity of species is a striking diversification of chromosome complements, with X-autosome fusions occurring at least four times to produce neo-Y sex chromosome systems (X 1 X 2 Y and X 1 X 2 X 3 Y), some of which ( Sittisax ranieri and S. saxicola ) are sufficiently derived as to no longer preserve the simple traces of ancestral X material. The correlated distribution of neo-Y and a base autosome number of 28 suggests that neo-Y origins occurred preferentially in lineages with the presence of an extra pair of autosomes. 

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