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Environmental and Invertebrate-Derived DNA: A Powerful Approach for Surveying and Monitoring Biodiversity (2023)
Book Chapter
Guimaraes Sales, N. (2023). Environmental and Invertebrate-Derived DNA: A Powerful Approach for Surveying and Monitoring Biodiversity. In P. M. Galetti Jr. (Ed.), Conservation Genetics in the Neotropics. (1). Springer. https://doi.org/10.1007/978-3-031-34854-9

To know the organisms that surround us has always seemed a fascinating idea and a necessity to characterize an area and estimate its natural values. However, performing complete surveys of the organisms is not always an easy task, because some of the... Read More about Environmental and Invertebrate-Derived DNA: A Powerful Approach for Surveying and Monitoring Biodiversity.

Citizen scientists’ motivation to participate in environmental DNA (eDNA) surveys: A case study on monitoring mammals in the UK (2023)
Working Paper
Broadhurst, H., Smith, E. E., Jackman, J. M., Singleton, N., Tansley, D., Raynor, R., …McDevitt, A. D. Citizen scientists’ motivation to participate in environmental DNA (eDNA) surveys: A case study on monitoring mammals in the UK

1. Citizen scientists have become integral participants in nature conservation projects, and the demand for effective conservation efforts has sparked increasing interest in utilizing environmental DNA (eDNA) for species monitoring, drawing citizen s... Read More about Citizen scientists’ motivation to participate in environmental DNA (eDNA) surveys: A case study on monitoring mammals in the UK.

DNA metabarcoding of mock communities highlights potential biases when assessing Neotropical fish diversity (2023)
Journal Article
Hilário, H. O., Hilario, H., Mendes, I. S., GuimarãesSales, N., & Carvalho, D. C. (2023). DNA metabarcoding of mock communities highlights potential biases when assessing Neotropical fish diversity. Environmental DNA, https://doi.org/10.1002/edn3.456

Despite the increasing popularity of DNA metabarcoding in the assessment of aquatic ecosystems using fish eDNA or ichthyoplankton, challenges have hampered its broader application in the Neotropical freshwaters. Using five mock communities composed o... Read More about DNA metabarcoding of mock communities highlights potential biases when assessing Neotropical fish diversity.

Shark‐dust: Application of high‐throughput DNA sequencing of processing residues for trade monitoring of threatened sharks and rays (2023)
Journal Article
Prasetyo, A. P., Murray, J. M., Kurniawan, M. F. A. K., Sales, N. G., McDevitt, A. D., & Mariani, S. (in press). Shark‐dust: Application of high‐throughput DNA sequencing of processing residues for trade monitoring of threatened sharks and rays. Conservation Letters, 16(5), https://doi.org/10.1111/conl.12971

Illegal fishing, unregulated bycatch, and market demand for certain products (e.g., fins) are largely responsible for the rapid global decline of shark and ray populations. Controlling trade of endangered species remains difficult due to product vari... Read More about Shark‐dust: Application of high‐throughput DNA sequencing of processing residues for trade monitoring of threatened sharks and rays.

Amazonian ichthyoplankton assessment via DNA metabarcoding: A baseline for detecting spawning sites of migratory fishes (2023)
Journal Article
Silva, L. E., Domingues, R. R., Sales, N. G., Villela, P. M., Silva, C. B., & Hilsdorf, A. W. (2023). Amazonian ichthyoplankton assessment via DNA metabarcoding: A baseline for detecting spawning sites of migratory fishes. Biological Conservation, 284, 110180. https://doi.org/10.1016/j.biocon.2023.110180

The Neotropical fish fauna comprises approximately 6080 species, of which almost 3000 inhabit the Amazon River basin. However, the construction of hydroelectric dams has threatened this biodiversity by habitat fragmentation. To uncover the putative e... Read More about Amazonian ichthyoplankton assessment via DNA metabarcoding: A baseline for detecting spawning sites of migratory fishes.