Publications by authors named "Jen-Pan Huang"

The coconut rhinoceros beetle (CRB, ) is a palm tree pest capable of rapidly expanding its population in new territories. Previous studies identified a digestive symbiosis between CRB and its gut microbes. However, no research compared the genetic variation of CRBs with their hindgut microbiota on a global scale.

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Fern-spore-feeding (FSF) is rare and found in only four families of Lepidoptera. Stathmopodidae is the most speciose family that contains FSF species, and its subfamily Cuprininae exclusively specializes on FSF. However, three species of Stathmopodinae also specialize on FSF.

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Biodiversity conservation is a top priority in the face of global environmental change, and the practical restoration of biodiversity has emerged as a key objective. Nevertheless, the question of how to effectively contribute to biodiversity restoration and identify suitable systems for such efforts continues to present major challenges. By using genome-wide SNP data, our study revealed that populations from different mountain ranges of the Formosan Long-Arm Scarab beetle, a flagship species that receives strict protection, exhibited a single genetic cluster with no subdivision.

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Beetles, despite their remarkable biodiversity and a long history of research, remain lacking in reference genomes annotated with structural variations in loci of adaptive significance. We sequenced and assembled high-quality chromosome-level genomes of four Hercules beetles which exhibit divergence in male horn size and shape and body colouration. The four Hercules beetle genomes were assembled to 11 pseudo-chromosomes, where the three genomes assembled using Nanopore data (Dynastes grantii, D.

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In recent years, parasite conservation has become a globally significant issue. Because of this, there is a need for standardized methods for inferring population status and possible cryptic diversity. However, given the lack of molecular data for some groups, it is challenging to establish procedures for genetic diversity estimation.

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Article Synopsis
  • Hybridization can complicate taxonomic classification but is common among animal species and can enhance phenotypic diversity and genetic understanding.
  • The study focused on F1 hybrids of two Hercules beetle species and used genetic analysis methods to find that these hybrids were more closely related to the maternal species based on mitochondrial data, while nuclear data indicated they were genetically intermediate between the two parental species.
  • Findings highlight that the design of the sampling can significantly influence the genetic structure observed and emphasize the importance of genomic studies in exploring how hybridization contributes to phenotypic variation within and between species.
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Species distribution models (SDMs) have conventionally been used for evaluating the distribution of individual species, but they can also be used, through comparing different SDMs, to evaluate the geographic similarity between taxa. In this study, we used a parasite and host system to infer the geographic overlaps between species with tight biological interaction, for example, parasites and their obligate host. Specifically, we used the horsehair worm and its three mantis hosts to study the extent of niche overlap.

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The evolutionary dynamics and phylogenetic utility of mitochondrial genomes (mitogenomes) have been of particular interest to systematists and evolutionary biologists. However, certain mitochondrial features, such as the molecular evolution of the control region in insects, remain poorly explored due to technological constraints. Using a combination of long- and short-read sequencing data, we assembled ten complete mitogenomes from ten Hercules beetles.

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While advances in sequencing technologies have been invaluable for understanding evolutionary relationships, increasingly large genomic data sets may result in conflicting evolutionary signals that are often caused by biological processes, including hybridization. Hybridization has been detected in a variety of organisms, influencing evolutionary processes such as generating reproductive barriers and mixing standing genetic variation. Here, we investigate the potential role of hybridization in the diversification of the most speciose genus of lichen-forming fungi, Xanthoparmelia.

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The ecology and genetic diversity of the model yeast before human domestication remain poorly understood. Taiwan is regarded as part of this yeast's geographic birthplace, where the most divergent natural lineage was discovered. Here, we extensively sampled the broadleaf forests across this continental island to probe the ancestral species' diversity.

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Fungal members of (Ascomycota) were found to be associated with , one of the three currently known horsehair worm (Nematomorpha) species in Taiwan. The fungi were identified as , which is mostly known as a plant pathogen, through the use of the nuclear ribosomal internal transcribed spacer and partial large subunit (nrITS + nrLSU) and glyceraldehyde-3-phosphate dehydrogenase (GAPDH) DNA sequences. To our knowledge, this report represents both the first records for associated with hairworms and for fungi on Nematomorpha.

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Character displacement that leads to divergent phenotypes between sympatric species has been hypothesized to facilitate coexistence and promote the accumulation of biodiversity. However, there are alternative evolutionary mechanisms that may also lead to the evolution of phenotypic divergence between sympatric species; one of the mechanisms is evolutionary contingency. We studied the evolution of the presence and absence of a major male horn phenotype, which may have ecological implications for promoting coexistence between sympatric beetles, across geographic populations from different beetles.

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Coca is the natural source of cocaine as well as a sacred and medicinal plant farmed by South American Amerindians and mestizos. The coca crop comprises four closely related varieties classified into two species (Amazonian and Huánuco varieties within Erythroxylum coca Lam., and Colombian and Trujillo varieties within Erythroxylum novogranatense (D.

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Phenotypic traits are often integrated into evolutionary modules: sets of organismal parts that evolve together. In social insect colonies, the concepts of integration and modularity apply to sets of traits both within and among functionally and phenotypically differentiated castes. On macroevolutionary timescales, patterns of integration and modularity within and across castes can be clues to the selective and ecological factors shaping their evolution and diversification.

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Species-level diversity and the underlying mechanisms that lead to the formation of new species, that is, speciation, have often been confounded with intraspecific diversity and population subdivision. The delineation between intraspecific and interspecific divergence processes has received much less attention than species delimitation. The ramifications of confounding speciation and population subdivision are that the term speciation has been used to describe many different biological divergence processes, rendering the results, or inferences, between studies incomparable.

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A basic expectation of evolution by natural selection is that species morphologies will adapt to their ecological niche. In social organisms, this may include selective pressure from the social environment. Many non-ant parasites of ant colonies are known to mimic the morphology of their host species, often in striking fashion [1, 2], indicating there is selection on parasite morphology to match the host (Batesian and/or Wasmannian mimicry [3]).

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Article Synopsis
  • Advancements in molecular genetics show that hybridization is common in plants, animals, and fungi, affecting evolution and speciation, particularly in pathogenic fungi, although its impact on fungal lineages has not been widely studied.
  • This research investigates how hybridization influences the development of distinct asexual lichens, specifically examining vagrant forms of the rock-dwelling species in the Rhizoplaca melanophthalma complex.
  • Findings indicate that hybrid speciation likely contributes to the emergence of these lichens, and the study suggests further exploration of hybridization's role in evolutionary processes, urging a closer look at reticulate phylogenies in species classification.
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We sequenced and assembled the complete mitochondrial genome of , from the Alishan, Chiayi County, Taiwan. The length of the complete mitogenome of is 16,926 bp and the mitogenome contains 13 protein-coding, 22 tRNA, and 2 rDNA genes. Nucleotide compositions of the whole mitogenome of are 38.

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Historical mass extinction events had major impacts on biodiversity patterns. The most recent and intensively studied event is the Cretaceous - Paleogene (K-Pg) boundary (ca. 66 million years ago [MYA]).

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Article Synopsis
  • Advances in next-generation sequencing have greatly increased the number of loci for phylogenetic analysis, yet many studies still show significant gene-tree discordance due to historical factors like rapid diversification and gene duplication.
  • Our study focused on 13 genera in the Lobariaceae family, analyzing 400 single-copy nuclear genes to assess the effects of data types (nucleotide vs. amino acid) and phylogenetic methods (species tree vs. concatenation) on evolutionary relationships.
  • We found that incongruences in phylogenetic trees were linked to the type of sequence data and reconstruction method, with evidence of rapid diversification occurring around the Cretaceous-Paleogene boundary, which complicates the understanding of evolutionary relationships within the Lobariaceae
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The Western Hercules beetle (Dynastes grantii) is endemic to the highland forest habitats of southwestern United States and northern Mexico. The habitats harbor many endemic species, but are being threatened by rapid climate change and urban development. In this study, the genetic structure of D.

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To consistently and objectively delineate species-level divergence from population subdivision has been a challenge in systematics. This is particularly evident in naturally fragmented and allopatric systems in which small population size often leads to extreme population structuring. Here we evaluated the robustness of the species delimitation methods implemented in BEAST, BPP, and iBPP in the Primulina hochiensis complex comprising four described and one candidate species (five taxa in total) distributed in karst landscapes of southern China.

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(Parmeliaceae, Ascomycota) is the most species-rich genus of lichen-forming fungi. Species boundaries are based on morphological and chemical features, varying reproductive strategies and, more recently, molecular sequence data. The isidiate group is common in arid regions of North and Central America and includes a range of morphological variation and variable secondary metabolites - salazinic or stictic acids mainly.

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Article Synopsis
  • Evolutionary biologists face challenges in understanding biodiversity, as the factors influencing organism diversification vary across time and space, and it's unclear which have the most significant effects.
  • The study focused on the lichen genus Sticta, revealing its origin around 30 million years ago, but geographic origin estimates were inconclusive; high dispersal rates were noted, particularly in Hawaii where multiple colonization events occurred.
  • Investigations into symbiont interactions showed that previous positive findings were largely due to statistical errors, while an analysis indicated that tectonic activity in the Andes could actually enhance the speciation rates of Sticta species.
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The effect of microevolutionary processes on macroevolutionary patterns, and vice versa, is an important but under-investigated question. Here we present an integrative population genetic and phylogenetic study using molecular sequence data from three lichen-forming fungal lineages to empirically test the potential correlation between effective population size - approximated by the parameter θ - and estimated speciation rates using a phylogenetic tree (λ). A negative association between θ and λ was supported in one lineage of lichen-forming fungi, Melanelixia (Parmeliaceae), while no significant relationships was found for two other genera within the same family, Melanohalea and Xanthoparmelia.

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