Soil invertebrate biodiversity and functionality within the intensively farmed areas of the Po Valley
Articolo
Data di Pubblicazione:
2024
Abstract:
Although agricultural activities can strongly affect soil biodiversity and health, with consequences on the pro
visioning of soil biota-mediated functions, their specific impact on soil invertebrate communities is far from
being fully elucidated. In this study, the invertebrate communities associated with the soils of six habitat types,
including both semi-natural and cropping systems, of one of the most intensively farmed areas in Europe, the Po
Valley (North Italy), were characterized using the eDNA metabarcoding approach. The aims were to examine the
variation in the taxonomic and functional diversity among the habitats and evaluate the relation between the
disturbance caused by the main agronomic practices adopted in the area and the community diversity. Overall,
the invertebrate communities were found to substantially differ in terms of taxonomic and functional diversity
between the six habitats considered. For example, cornfield and rice paddy showed the highest diversity of
annelids and the lowest one of nematodes. Woodland was found to host the most unique soil fauna, while
grassland shared the majority of its soil taxa with almost all the other habitat types. The trophic groups had
significantly lower diversity in specific habitats (e.g., carnivores, herbivores, microbivores in cornfield) sug
gesting that biological soil quality and ecosystem services provision may vary among them. Concerning agro
nomic practices, it was not observed an inverse relation between diversity and the disturbance they cause. In
detail, while tillage and insecticide use negatively affected invertebrate diversity as a whole, specific soil taxa
and trophic groups were idiosyncratically affected by the different agronomic practices (e.g., pesticide and
fertilizer use was related to an increase of annelid and bacterivore diversity). In this regard, the peak of diversity
observed for specific taxonomic and functional groups might be attributed to an impaired community balance.
Altogether, the results obtained contribute to a more comprehensive understanding of the intricate interplay
between agricultural practices and soil invertebrate communities, with implications for the awareness of soil
health, ecosystem services provision and biodiversity conservation in agroecosystems.
visioning of soil biota-mediated functions, their specific impact on soil invertebrate communities is far from
being fully elucidated. In this study, the invertebrate communities associated with the soils of six habitat types,
including both semi-natural and cropping systems, of one of the most intensively farmed areas in Europe, the Po
Valley (North Italy), were characterized using the eDNA metabarcoding approach. The aims were to examine the
variation in the taxonomic and functional diversity among the habitats and evaluate the relation between the
disturbance caused by the main agronomic practices adopted in the area and the community diversity. Overall,
the invertebrate communities were found to substantially differ in terms of taxonomic and functional diversity
between the six habitats considered. For example, cornfield and rice paddy showed the highest diversity of
annelids and the lowest one of nematodes. Woodland was found to host the most unique soil fauna, while
grassland shared the majority of its soil taxa with almost all the other habitat types. The trophic groups had
significantly lower diversity in specific habitats (e.g., carnivores, herbivores, microbivores in cornfield) sug
gesting that biological soil quality and ecosystem services provision may vary among them. Concerning agro
nomic practices, it was not observed an inverse relation between diversity and the disturbance they cause. In
detail, while tillage and insecticide use negatively affected invertebrate diversity as a whole, specific soil taxa
and trophic groups were idiosyncratically affected by the different agronomic practices (e.g., pesticide and
fertilizer use was related to an increase of annelid and bacterivore diversity). In this regard, the peak of diversity
observed for specific taxonomic and functional groups might be attributed to an impaired community balance.
Altogether, the results obtained contribute to a more comprehensive understanding of the intricate interplay
between agricultural practices and soil invertebrate communities, with implications for the awareness of soil
health, ecosystem services provision and biodiversity conservation in agroecosystems.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Soil eDNA metabarcoding, Soil invertebrate communities, Soil invertebrate functional diversity, Agroecosystems
Elenco autori:
Brunetti, Matteo; Magoga, Giulia; Cussigh, Alex; Alali, Sumer; Pizzi, Flavia; Cremonesi, Paola; Di Lelio, Ilaria; Becchimanzi, Andrea; Comolli, Roberto; Gallina, Pietro Marino; Gandini, Gustavo; Spada, Alberto; Montagna, Matteo
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