{"paper_id":"0745cb30-7a5c-4e5c-85df-687c2d94a0ea","body_text":"This is a Preprint and has not been peer reviewed. This is version 1 of this Preprint.\nYou must log in to post a comment.\nThere are no comments or no comments have been made public for this article.\nThis is a Preprint and has not been peer reviewed. This is version 1 of this Preprint.\nAdd a Comment\nYou must log in to post a comment.\nComments\nThere are no comments or no comments have been made public for this article.\nIdentifying close relatives in wild animal populations is fundamental across many research fields. Genetic estimates of relatedness have expanded rapidly in recent decades, based on various types of genetic data. Here, we review their use and outline opportunities for future studies by combining two complementary approaches. First, we systematically reviewed 2,861 articles to assess how genetic relatedness has been estimated over time. Second, we compare widely used genetic data types for inferring relatedness, conducting computational experiments using data from a rhesus macaque (Macaca mulatta) population in Puerto Rico. We compared other methods against precise identity-by-descent segment-based estimates of relatedness. Our results show that most studies of relatedness (89%) continue to rely on short tandem repeat (STR) markers, despite their limited precision. Single-nucleotide polymorphism (SNP)- marker-based relatedness estimates remain underused (8.3% of studies), even though they yield more reliable estimates when sampled in sufficient numbers. Finally, we find that the simple pairwise-mismatch rate (PMR) method for estimating relatedness in low-coverage WGS data (commonly used in human ancient DNA studies) works robustly for low-coverage data, e.g., DNA retrieved from faecal samples or from cost-effective low-coverage whole-genome sequencing (lcWGS). Together, our findings highlight lcWGS combined with PMR-based relatedness estimation as a promising, cost-effective alternative when DNA quality is limited, genomic resources are scarce, or economic efficiency is essential.\nhttps://doi.org/10.32942/X28D4R\nLife Sciences\npaternity assignment, sequencing depth, wildlife genomics, kinship inference, ancient DNA methods, microsatellites\nPublished: 2026-01-23 19:27\nLast Updated: 2026-01-23 19:27\nCC BY Attribution 4.0 International\nConflict of interest statement:\nNone\nData and Code Availability Statement:\nhttps://github.com/afreudiger/CayoKinshipComparison/ and https://github.com/hringbauer/cayo_pmr/\nLanguage:\nEnglish","source_license":"CC-BY-4.0","license_restricted":false}