Abstract
Large areas of tidal flats were previously developed into aquaculture ponds and were recently encouraged to be converted into paddy fields to fulfill food and economic needs in China. However, the influences of short-term rice cultivation at the reclaimed aquaculture ponds on soil chemical properties and bacterial communities are poorly understood. To address this issue, we collected mineral soil samples at 0–20 and 20–40 cm depths from non-cultivated soils and paddy fields after being reclaimed from aquaculture ponds in Nantong, China, and identified soil bacterial communities using high-throughput sequencing. The results suggested that rice cultivation significantly increased the accumulation of total soil carbon (TC) and dissolved organic carbon (WSOC). The pH, ammonium (NH4+), nitrate (NO3−) and available phosphorus (AP) varied with the reclamation duration but did not show a unanimous tendency. Proteobacteria, Acidobacteria, Bacteroidetes, Chloroflexi and Planctomycetes dominated the bacterial community in both non-cultivated and cultivated soils after reclamation regardless of cultivation ages and soil depth. The variations in the diversity and composition of the soil microbial community were mainly associated with electrical conductivity (EC), WSOC, TC, NH4+ and NO3− in non-cultivated and cultivated lands. Here, we found that short-term rice cultivation at the reclaimed aquaculture ponds strongly influenced soil bacterial communities and chemical properties, especially in the 0–20 cm depth, in the coastal regions.
Highlights
IntroductionThe conflict of the expansion of construction land and the protection of cultivated land has attracted more and more attention in urbanizing China
Introduction published maps and institutional affilNowadays, the conflict of the expansion of construction land and the protection of cultivated land has attracted more and more attention in urbanizing China
The present study showed an overwhelming dominance of Proteobacteria in paddy fields, and the relative abundance of Proteobacteria gradually increased with rice cultivation duration, probably due to some Proteobacteria preferring to decompose lignocellulose and the cellulose of crop residues [47,48]
Summary
The conflict of the expansion of construction land and the protection of cultivated land has attracted more and more attention in urbanizing China. As one of the most important land reserve resources, coastal mudflat area development will contribute to compensate for the losses of arable land [4]. More than 2.2 × 104 km of coastal mudflats have been reclaimed mainly for agricultural and aquaculture purposes since the 1950s [5]. The coastal aquaculture ponds have increased continuously from 2612 km in 1984 to 13,075 km in 2016 in China, which have been the fastest developing and expanding land-use type in the coastal mudflat regions [6]. The reclamation of coastal mudflat areas for aquaculture ponds has brought a lot of economic benefits.
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