TY - JOUR
T1 - Monitoring soil fauna with ecoacoustics
AU - Robinson, Jake M.
AU - Annells, Amy
AU - Cavagnaro, Timothy R.
AU - Liddicoat, Craig
AU - Rogers, Heidi
AU - Taylor, Alex
AU - Breed, Martin F.
PY - 2024/9
Y1 - 2024/9
N2 - Ecoacoustics - or acoustic ecology - aids in monitoring elusive and protected species in several ecological contexts. For example, passive acoustic monitoring (PAM), which involves autonomous acoustic sensors, is widely used to detect various taxonomic groups in terrestrial and aquatic ecosystems, from birds and bats to fish and cetaceans. Here, we illustrate the potential of ecoacoustics to monitor soil biodiversity (specifically fauna) - a crucial endeavour given that 59% of species live in soil yet 75% of soils are affected by degradation. We describe the sources of sound in the soil (e.g. biological, geological and anthropogenic) and the ability of acoustic technology to detect and differentiate between these sounds, highlighting opportunities and current gaps in knowledge. We also propose a roadmap for the future development of optimized hardware, analytical pipelines and experimental approaches. Soil ecoacoustics is an emerging field with considerable potential to improve soil biodiversity monitoring and 'soil health' diagnostics. Indeed, early studies suggest soil ecoacoustics can be successfully applied in various ecosystems (e.g. grasslands, temperate, tropical and arid forests) and land uses (e.g. agriculture, viticulture, natural and restored ecosystems). Given the low cost, minimal intrusiveness, and effectiveness in supporting soil biodiversity assessments and biosecurity risks, we advocate for the advancement of soil ecoacoustics for future land management applications.
AB - Ecoacoustics - or acoustic ecology - aids in monitoring elusive and protected species in several ecological contexts. For example, passive acoustic monitoring (PAM), which involves autonomous acoustic sensors, is widely used to detect various taxonomic groups in terrestrial and aquatic ecosystems, from birds and bats to fish and cetaceans. Here, we illustrate the potential of ecoacoustics to monitor soil biodiversity (specifically fauna) - a crucial endeavour given that 59% of species live in soil yet 75% of soils are affected by degradation. We describe the sources of sound in the soil (e.g. biological, geological and anthropogenic) and the ability of acoustic technology to detect and differentiate between these sounds, highlighting opportunities and current gaps in knowledge. We also propose a roadmap for the future development of optimized hardware, analytical pipelines and experimental approaches. Soil ecoacoustics is an emerging field with considerable potential to improve soil biodiversity monitoring and 'soil health' diagnostics. Indeed, early studies suggest soil ecoacoustics can be successfully applied in various ecosystems (e.g. grasslands, temperate, tropical and arid forests) and land uses (e.g. agriculture, viticulture, natural and restored ecosystems). Given the low cost, minimal intrusiveness, and effectiveness in supporting soil biodiversity assessments and biosecurity risks, we advocate for the advancement of soil ecoacoustics for future land management applications.
KW - bioacoustics
KW - biomonitoring
KW - ecoacoustics
KW - soil biodiversity
KW - soil health
UR - http://www.scopus.com/inward/record.url?scp=85203193640&partnerID=8YFLogxK
UR - http://purl.org/au-research/grants/ARC/LP190100051
UR - http://purl.org/au-research/grants/ARC/LP190100484
UR - http://purl.org/au-research/grants/ARC/DP210101932
U2 - 10.1098/rspb.2024.1595
DO - 10.1098/rspb.2024.1595
M3 - Review article
SN - 0962-8452
VL - 291
JO - Proceedings of The Royal Society of London Series B: Biological Sciences
JF - Proceedings of The Royal Society of London Series B: Biological Sciences
IS - 2030
M1 - 20241595
ER -