Abstract
Soil invertebrates are important for diverse soil ecosystem services, which are jeopardized by pesticides and microplastics. In the present study, we aimed to assess above-ground invertebrates’ morphospecies abundance in the presence of glyphosate (GLY), its main metabolite aminomethylphosphonic acid (AMPA), and microplastics (MPs). Three land-use systems were analyzed: agricultural systems with and without plastic mulch and pesticides (AwPM, AwoPM) and natural unmanaged farming systems (UF). Soil GLY, AMPA, MP concentrations and above-ground invertebrates were quantified. GLY concentrations were also assessed inside invertebrate tissues. GLY, AMPA and the highest concentration of GLY in invertebrates’ tissue were found only in AwoPM at 0.14–0.45 mg kg−1, 0.12–0.94 mg kg−1 and 0.03–0.26 mg kg−1, respectively. MPs were present as follows: AwPM system (100%, 400–2000 particles kg−1) > AwoPM (70.8%, 200–1000 particles kg−1) > UF (37.5%, 200–400 particles kg−1). No significant correlations were found between soil MPs, GLY and AMPA. There was a significant correlation between MPs and morphospecies from the order Entomobrymorpha (Collembola, R = 0.61, p < 0.05). Limnophila, Mesogastropoda (Gastropoda) and Siphonaptera morphospecies were only present in the UF system. GLY in invertebrate tissue was inversely correlated with soil GLY (R = −0.73, p < 0.05) and AMPA (R = −0.59, p < 0.05). Further investigations are required to understand these phenomena.
Highlights
Soil GLY and aminomethylphosphonic acid (AMPA) concentrations were above the limit of detection in all samples Soil GLY and AMPA concentrations were above the limit of detection in all samples from from the an system withoutsystem plastic without mulch (AwoPM) system, with a median of 0.23 (0.14–0.45) mg kg−1 and 0.64 (0.12–0.94) −1
This study addressed for the first time the community of above-ground-dwelling invertebrates in agricultural systems with soil glyphosate (GLY), AMPA and microplastics (MPs)
The abundance of above-ground dwellers decreased in agricultural systems with regard to the reference system of this study, i.e., Limnophila, Mesogastropoda (Gastropoda) as well as Siphonaptera clearly decreased, but this condition seems to be unrelated to the presence of glyphosate, AMPA and/or microplastics, because no correlation was observed among these invertebrates and those pollutants in this study
Summary
Above-ground invertebrates are essential in agricultural areas because of their role in maintaining both nutrient cycling and the physico-chemical properties of the soil [2,3]. They are in danger when emergent pollutants such as glyphosate (GLY) and microplastics. Recent studies have demonstrated how these pollutants affect soil invertebrate communities, especially in agricultural areas [4,5,6,7]
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