Quantifying anthropogenic microparticle contamination in cave sediments: spatial heterogeneity matters
Environmental Pollution2025
1 citation
?
Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 43
?
0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Stanislao Bevilacqua,
Serena Anselmi,
Raffaele Bruschi,
Raffaele Bruschi,
Serena Anselmi,
Manuela Piccardo,
Manuela Piccardo,
Manuela Piccardo,
Manuela Piccardo,
Manuela Piccardo,
Manuela Piccardo,
Manuela Piccardo,
Manuela Piccardo,
Manuela Piccardo,
Monia Renzi
Lucia Gardossi,
Serena Anselmi,
Serena Anselmi,
Monia Renzi
Serena Anselmi,
Serena Anselmi,
Monia Renzi
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Monia Renzi
Serena Anselmi,
Manuela Piccardo,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Tecla Bentivoglio,
Manuela Piccardo,
Serena Anselmi,
Tecla Bentivoglio,
Serena Anselmi,
Raffaele Bruschi,
Stanislao Bevilacqua,
Serena Anselmi,
Serena Anselmi,
Monia Renzi
Serena Anselmi,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Manuela Piccardo,
Manuela Piccardo,
Manuela Piccardo,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Manuela Piccardo,
Serena Anselmi,
Stanislao Bevilacqua,
Monia Renzi
Monia Renzi
Serena Anselmi,
Monia Renzi
Monia Renzi
Serena Anselmi,
Tecla Bentivoglio,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Monia Renzi
Tecla Bentivoglio,
Tecla Bentivoglio,
Monia Renzi
Serena Anselmi,
Serena Anselmi,
Tecla Bentivoglio,
Serena Anselmi,
Monia Renzi
Serena Anselmi,
Tecla Bentivoglio,
Stanislao Bevilacqua,
Serena Anselmi,
Tecla Bentivoglio,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Tecla Bentivoglio,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Tecla Bentivoglio,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Monia Renzi
Monia Renzi
Monia Renzi
Serena Anselmi,
Monia Renzi
Tecla Bentivoglio,
Serena Anselmi,
Stanislao Bevilacqua,
Serena Anselmi,
Monia Renzi
Tecla Bentivoglio,
Monia Renzi
Monia Renzi
Tecla Bentivoglio,
Monia Renzi
Monia Renzi
Lucia Gardossi,
Monia Renzi
Tecla Bentivoglio,
Monia Renzi
Tecla Bentivoglio,
Tecla Bentivoglio,
Stanislao Bevilacqua,
Monia Renzi
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Monia Renzi
Serena Anselmi,
Lucia Gardossi,
Monia Renzi
Monia Renzi
Serena Anselmi,
Monia Renzi
Serena Anselmi,
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Tecla Bentivoglio,
Monia Renzi
Tecla Bentivoglio,
Lucia Gardossi,
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Summary
Microplastics and other anthropogenic particles were quantified in cave sediments, providing a record of atmospheric and terrestrial contamination reaching underground environments. The presence of microplastics in caves demonstrates the pervasive spread of plastic pollution into even secluded geological environments.
Anthropogenic microparticle pollution is a pervasive phenomenon affecting even remote environments, such as natural caves. Despite potential impacts on these fragile and valuable underground ecosystems, data on microparticle concentration in natural caves still remain sparse and often based on limited sampling and insufficient spatial replication. In this study, a hierarchical sampling design including large (between caves, 1000 s m), medium (subareas within caves, 10 s m), local (stations within subareas, 100 s cm) and small (among replicates, 10 s cm) scale, was implemented to identify patterns of spatial variation in microparticle contamination of surface sediments from two caves in the Classical Karst (NE Italy). Suspected anthropogenic microparticles were detected in all samples, with an average concentration of 90.9 items kg<sup>-1</sup> dry weight, predominantly transparent particles (>34.9 %), often fibers <1 mm (49.9 - 58.1 %). Most of the items (94.5 %) were microplastics made of PP (45 %), PET (35 %), and PE (20 %), whereas the remaining microparticles consisted of non-plastic items, including unknown cellulose (5 %) and anthropogenic cellulose (0.5 %). The total number of microparticles, their type, and relative abundance significantly varied at the scale of subareas, while no significant variations were detected at the scale of stations and between caves. In all cases, subareas and replicates primarily contributed to the total variability (11 - 20 % and ≥80 %, respectively), highlighting small- and medium-scale heterogeneity as the most relevant sources of spatial variations of microparticle contamination. As a number of factors, from varying contamination sources to the geomorphological complexity of caves, may affect dispersal and accumulation of microparticles in environmental matrices, our findings stress the need for more structured sampling designs to quantify the intrinsic spatial variability of microparticles in order to obtain reliable estimates of contamination in cave environments.