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1. VoronaGasyCodes : A Public Database of Mitochondrial Barcodes for Malagasy Birds

   https://doi.org/10.1111/1755-0998.70027  

   Reddy, Sushma; Wacker, Kristen; Fahmy, Mai; Hekkala, Evon; Bates, John M; Goodman, Steven M; Hackett, Shannon J; Raherilalao, Marie J; Maddox, J Dylan (August 2025, Molecular Ecology Resources)

   Bonin, Aurélie (Ed.)

   ABSTRACT Molecular tools are increasingly being used to survey the presence of biodiversity and their interactions within ecosystems. Indirect methods, like environmental DNA (eDNA) and invertebrate‐derived DNA (iDNA), are dependent on sequence databases with accurate and sufficient taxonomic representation. These methods are increasingly being used in regions and habitats where direct detection or observations can be difficult for a variety of reasons. Madagascar is a biodiversity hotspot with a high proportion of endemic species, many of which are threatened or endangered. Here we describe a new resource, VoronaGasyCodes, a curated database of newly published genetic sequences from Malagasy birds. Our database is currently populated with six mitochondrial genes or DNA barcodes for 142 species including 70% of the birds endemic to the island and will be periodically updated as new data become available. We demonstrate the utility of our database with an iDNA study of leech blood meals where we successfully identified 77% of the hosts to species. These types of resources for characterising biodiversity are critical for insights into species distribution, discovery of new taxa, novel ecological connections and advancing conservation and restoration measures. 

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2. A combined microscopy and single-cell sequencing approach reveals the ecology, morphology, and phylogeny of uncultured lineages of zoosporic fungi

   https://doi.org/10.1128/mbio.01313-23  

   Seto, Kensuke; Simmons, D. Rabern; Quandt, C. Alisha; Frenken, Thijs; Dirks, Alden C.; Clemons, Rebecca A.; McKindles, Katelyn M.; McKay, R. Michael; James, Timothy Y. (July 2023, mBio)

   Casadevall, Arturo (Ed.)

   Much of the diversity of microbes from natural habitats, such as soil and freshwater, comprise species and lineages that have never been isolated into pure culture. In part, this stems from a bias of culturing in favor of saprotrophic microbes over the myriad symbiotic ones that include parasitic and mutualistic relationships with other taxa. In the present study, we aimed to shed light on the ecological function and morphology of the many undescribed lineages of aquatic fungi by individually isolating and sequencing molecular barcodes from 127 cells of host-associated fungi using single-cell sequencing. By adding these sequences and their photographs into the fungal tree, we were able to understand the morphology of reproductive and vegetative structures of these novel fungi and to provide a hypothesized ecological function for them. These individual host-fungal cells revealed themselves to be complex environments despite their small size; numerous samples were hyper-parasitized with other zoosporic fungal lineages such as Rozellomycota. 

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3. Improving Aquatic Biodiversity Estimates in Africa: Rotifers of Angola and Ghana

   https://doi.org/10.3390/d16050269  

   Smolak, Radoslav; Brown, Patrick D; Walsmith, Robert N; Ríos-Arana, Judith V; Sanful, Peter; Kalous, Lukáš; Walsh, Elizabeth J (May 2024, Diversity)

   Afrotropical inland waters are highly diverse ecosystems; however, they remain poorly studied, especially for rotifers. Here, we contributed to the knowledge of the rotifer species richness in the largely understudied African countries of Angola and Ghana. We assessed the roles of habitat type and a suite of abiotic environmental factors in determining rotifer species richness of Ghana. A total of 37 sites (Ghana 32, Angola 5) in 19 water bodies from a variety of aquatic habitat types were sampled. In Ghana, we identified 118 taxa (105 species or subspecies level, 13 identified to genus). We identified 15 taxa (13 species) in the Angola samples. For Ghana, 100 of 118 (~85%) taxa were new records for the country, of which 13 species (~11%) were also new records for Africa. Nearly all the species (~93%) were new records for Angola. Species richness was positively correlated with conductivity and reservoir habitat type and negatively with pH. Redundancy analysis (RDA), conducted at the species level for the Ghana dataset, indicated suites of species associated with latitude, longitude, temperature, TDS, or pH. We also evaluated the effect of climate on species distribution in 27 African countries by conducting a review of all reports from Africa to determine factors associated with species richness. A Spearman’s correlation confirmed a significant positive correlation between the number of rotifer species and the number of climatic regions (R = 0.53, p < 0.001) for certain countries, based on species distributions in relation to Köppen–Geiger climate regions. This fact validates the environmental heterogeneity hypothesis for African rotifers. Lastly, we predicted that rotifer species richness in Ghana, as a country with a tropical climate, could approach ~190 taxa, while in climatically heterogeneous Angola we predict ~200 taxa. This study contributes to our knowledge of rotifer biogeography and species richness patterns in Africa. 

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4. Time-calibrated phylogeny of neotropical freshwater fishes

   https://doi.org/10.3389/fbinf.2024.1433995  

   Tagliacollo, Victor A; Tan, Milton; Reis, Roberto E; Gaia, Ronielson; Carrijo, Virgilio; Ranuzi, Marcelo; Craig, Jack M; Albert, James S (December 2024, Frontiers in Bioinformatics)

   Neotropical Freshwater Fish (NFF) fauna exhibits the greatest phenotypic disparity and species richness among all continental aquatic vertebrate faunas, with more than 6,345 species distributed across the mostly tropical regions of Central and South America. The last two decades have seen a proliferation of molecular phylogenies, often at the species level, covering almost all 875 valid NFF genera. This study presents the most comprehensive genome-wide, time-calibrated phylogenetic hypothesis of NFF species to date, based on DNA sequences generated over decades through the collaborative efforts of the multinational ichthyological research community. Our purpose is to build and curate an extensive molecular dataset allowing researchers to evaluate macroevolutionary hypotheses in the NFF while facilitating continuous refinement and expansion. Using thousands of DNA sequences from dozens of studies, we compiled a supermatrix of 51 markers for 5,984 taxa, representing 3,167 NFF species. Based on this dataset, we built the most species-rich time-calibrated phylogeny of the NFF taxa to date, summarizing the collective efforts of the ichthyological research community since the midpoint of the last century. We provide a summary review of this remarkable evolutionary history and hope this dataset provides a framework for forthcoming studies of the NFF fauna, documenting compelling, emergent patterns in the world’s most diverse continental vertebrate fauna. 

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5. A CRISPR ‐based strategy for targeted sequencing in biodiversity science

   https://doi.org/10.1111/1755-0998.13920  

   Littleford‐Colquhoun, Bethan; Kartzinel, Tyler R. (December 2023, Molecular Ecology Resources)

   Abstract Many applications in molecular ecology require the ability to match specific DNA sequences from single‐ or mixed‐species samples with a diagnostic reference library. Widely used methods for DNA barcoding and metabarcoding employ PCR and amplicon sequencing to identify taxa based on target sequences, but the target‐specific enrichment capabilities of CRISPR‐Cas systems may offer advantages in some applications. We identified 54,837 CRISPR‐Cas guide RNAs that may be useful for enriching chloroplast DNA across phylogenetically diverse plant species. We tested a subset of 17 guide RNAs in vitro to enrich plant DNA strands ranging in size from diagnostic DNA barcodes of 1,428 bp to entire chloroplast genomes of 121,284 bp. We used an Oxford Nanopore sequencer to evaluate sequencing success based on both single‐ and mixed‐species samples, which yielded mean chloroplast sequence lengths of 2,530–11,367 bp, depending on the experiment. In comparison to mixed‐species experiments, single‐species experiments yielded more on‐target sequence reads and greater mean pairwise identity between contigs and the plant species' reference genomes. But nevertheless, these mixed‐species experiments yielded sufficient data to provide ≥48‐fold increase in sequence length and better estimates of relative abundance for a commercially prepared mixture of plant species compared to DNA metabarcoding based on the chloroplasttrnL‐P6 marker. Prior work developed CRISPR‐based enrichment protocols for long‐read sequencing and our experiments pioneered its use for plant DNA barcoding and chloroplast assemblies that may have advantages over workflows that require PCR and short‐read sequencing. Future work would benefit from continuing to develop in vitro and in silico methods for CRISPR‐based analyses of mixed‐species samples, especially when the appropriate reference genomes for contig assembly cannot be known a priori. 

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