Abstract
The aim of this work was to evaluate the effect of earthworms (Lumbricidae) on the enzymatic activity and microbial functional diversity in the burrow system [burrow wall (BW) 0–3 mm, transitional zone (TZ) 3–7 mm, bulk soil (BS) > 20 mm from the BW] and cast aggregates of a loess soil under a pear orchard. The dehydrogenase, β-glucosidase, protease, alkaline phosphomonoesterase, and acid phosphomonoesterase enzymes were assessed using standard methods. The functional diversity (catabolic potential) was assessed using the Average Well Color Development and Richness Index following the community level physiological profiling from Biolog Eco Plates. All measurements were done using soil from each compartment immediately after in situ sampling in spring. The enzymatic activites including dehydrogenase, protease, β-glucosidase and alkaline phosphomonoesterase were appreciably greater in the BW or casts than in BS and TZ. Conversely, acid phosphomonoesterase had the largest value in the BS. Average Well Color Development in both the TZ and the BS (0.98–0.94 A590 nm) were more than eight times higher than in the BWs and casts. The lowest richness index in the BS (15 utilized substrates) increased by 86–113% in all the other compartments. The PC1 in principal component analysis mainly differentiated the BWs and the TZ. Utilization of all substrate categories was the lowest in the BS. The PC2 differentiated the casts from the other compartments. The enhanced activity of a majority of the enzymes and increased microbial functional diversity in most earthworm-influenced compartments make the soils less vulnerable to degradation and thus increases the stability of ecologically relevant processes in the orchard ecosystem.
Highlights
Earthworms are considered as the most important soil ecosystem engineers in soils through building of burrows and cast production (Jégou et al, 2001; Lavelle, 2011)
The β-glucosidase and alkaline phosphomonoesterase activity had the lowest respective values in transitional zone (TZ) (356 and 24 mg p-nitrophenol kg−1 h−1), but they increased in cast aggregates (CAs) and burrow wall (BW) by 137–102% for the former and by 75–107% for the latter
The activity of acid phosphomonoesterase, was the largest in bulk soil (BS) but not significantly different from that noted in the other compartments
Summary
Earthworms are considered as the most important soil ecosystem engineers in soils through building of burrows and cast production (Jégou et al, 2001; Lavelle, 2011). Earthworm casts during aging become strong and water stable aggregates and improve soil aggregation more than plant roots (e.g., Blanchart et al, 2004b). The input of labile C and energy can affect the abundance of the microbial community and enzymatic activity in the drilosphere and casts built in soil (Jégou et al, 2001; Valchovski, 2011; Lipiec et al, 2015) and in vermicompost (Sen and Chandra, 2009; Kostecka and Paczka, 2011) leading to priming effect (Kuzyakov et al, 2000; Bundt et al, 2001). On the other hand the microorganisms in earthworm-built structures are an unavoidable constituent of earthworms’ natural diet (Pizl and Novakova, 2003) and the structures may affect microbial abundance and activity through direct trophic effects (Andriuzzi et al, 2016)
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