Scavengers and habitats shape nutrient input to the soil via wild ungulate carcass decomposition
Abstract
The soil is a dynamic matrix providing essential functions and services for ecosystems
worldwide. Its formation involves complex interactions driven by both abiotic and biotic factors,
including the decomposition of organic matter. While research has traditionally focused on plantderived
organic matter, animal remains also contribute nutrients to the soil, influencing
biogeochemical cycles locally. Wild ungulate carcasses, though unpredictable in time and space,
serve as a key resource for a highly structured scavenger community. We aim to understand how
scavenger consumption of carcasses mediates nutrient deposition in the soil and how landscape
factors shape this process.
Nineteen aoudad (Ammotragus lervia) carcasses were placed and monitored using camera traps
in the Sierra Espuña Regional Park (Murcia, Spain) in areas with open and semi-closed vegetation
cover. Using the pictures from the cameras, we identified the scavenger community in each
carcass and the carcass consumption patterns (i.e., carcass detection and consumption times).
Soil samples were also collected at each carcass site both before carcass placement and five
months later, and analyzed for physical, chemical, biochemical, and biological properties.
Facultative scavengers played the primary role in carcass consumption, with their activity and
function shaped by vegetation cover. Parallelly, carrion decomposition impacted several soil
properties, highlighting the microbial community structure, key enzymatic activities, and the
concentration of elements essential for primary production. The availability of carrion to
scavengers, influenced by habitat configuration, modulates the nutrient input through
decomposition and its effects on the soil. These findings emphasize the important role of animal
organic matter in soil nutrient cycles and the keystone role of scavengers in ecosystem nutrient
pathways.