this study evidenced the presence of parasites in a cesspit of an aristocratic palace of nineteenth century in Sardinia (Italy) by the use of classical paleoparasitological techniques coupled with nextgeneration sequencing. Parasite eggs identified by microscopy included helminth genera pathogenic for humans and animals: the whipworm Trichuris sp., the roundworm Ascaris sp., the flatworm Dicrocoelium sp. and the fish tapeworm Diphyllobothrium sp. In addition, 18S rRNA metabarcoding and metagenomic sequencing analysis allowed the first description in Sardinia of aDNA of the human specific T. trichiura species and Ascaris genus. Their presence is important for understanding the health conditions, hygiene habits, agricultural practices and the diet of the local inhabitants in the period under study. Paleoparasitology, the study of ancient parasites recovered from archaeological sites, is a branch of paleopathology important to understand the health conditions and lifestyle of past populations 1-5. Classical paleoparasitology consist on the rehydration and microscopic analysis of coprolites, latrine sediments, pelvic soil of skeletons or intestines of mummified bodies, followed by identification of recovered parasite eggs basing on morphometry and other characteristics (e.g. opercula, caps and surface structures) 6. With this approach, since the first description in 1910 of Schistosoma haematobium eggs in a renal tissue of an Egyptian mummy 7 , helminth eggs have been identified in coprolites, latrines, mummified bodies, and archaeological contests all over the world 4,8-15. Despite microscopy is still a method of choice for paleoparasitological studies, it allows to identify the parasites mostly to genus level, as the eggs of related species are often indistinguishable 5,16,17. For a better taxonomic identification, immunological, hybridization and molecular techniques were developed and used in combination with classical methods 18-21. Molecular paleoparasitological studies are mainly based on PCR amplification and Sanger sequencing of short barcoding loci as 18S rDNA, mostly using primers for specific parasite taxa 21-24. The recent developed next generation sequencing (NGS) allows to identify multiple taxonomic groups at the same time by direct shotgun sequencing of DNA extracted from the samples (metagenomics) or by PCR-based metabarcoding of target genes 25-29 , but the application of this technique to paleoparasitology is so far limited to few studies 22,30,31. In Europe, human intestinal parasites were described from Palaeolithic until the middle of 1900 17 , but in Sardinia
