Abstract
In natural farming rice paddies, intertillage (tillage between rows, during rice growth period) is often performed mainly to remove weeds without the use of chemicals. Also, the intertillage disturbs soil surfaces, potentially impacting the characteristics of soil microbial communities, such as their diversity and abundance. Natural farming systems aim to maintain biodiversity, but it remains unclear whether the intertillage impacts soil microbes in rice paddies. Thus, this study aimed to understand to what extent “five times intertillage” treatment (5T) influences soil bacterial abundance and community structures compared with no tillage (NT), under a natural farming rice paddy system. Soils were sampled at rice proximity, soil surface, and 10 cm depth in a natural farming rice paddy, during the early to late vegetative phase (June to July), in Hokkaido, Japan. The 16S rRNA community structures and abundance were analyzed by next generation sequencing (NGS) and quantitative PCR, respectively. We observed that NT had significantly higher bacterial abundances at the soil surface than 5T. However, there were no clear differences between 5T and NT, regarding the bacterial community structures, including their diversity indices. Instead, the sampling timings markedly impacted the bacterial community structures for the rice proximity and soil surface, showing increasing diversity indices at the late vegetative stage, compared to the early vegetative stage, suggesting the interaction between the crop growth and bacterial communities. In this study, we did not observe the significant difference between the rice yield from NT (2.3 ± 0.7 t·ha−1) and 5T plots (2.7 ± 0.9 t·ha−1); however, the 5T might have negatively impacted soil bacterial abundances but not the community structure of the bacteria.
Highlights
Natural farming is an alternative agricultural system to grow food, which is highly supported by microbial functions rather than utilization of various types of fertilizer [1,2,3,4]. e concept of natural farming is similar to conservation agriculture (often involves minimal tillage or no tillage (NT) and rotation) [5,6,7], yet differs from organic farming.Regarding natural farming rice paddy systems, Kasubuchi et al [8] concluded that conducting five times inter tillage (5T) in a natural farming rice paddy during the rice growing period can increase the yield as high as that of the conventional farming about five years later
We focused on 5T and NT treated plots. e natural managed paddy is 40 × 25 m in size and divided in nine plots with 13.34 × 8.33 m in size each. e natural farming rice paddy alongside with no fertilizer, herbicide, pesticide, and insecticide application was established in 2017
We found that the 16S rRNA copy number at the location of rice proximity and soil surface under NT and 5T treatment decreased along with rice growth (Figure 1), but at the 10 cm depth it was more stable compared to other locations. is was consistent with the previous studies that 16S rRNA copy number decreased with increasing plant growth [31, 34]
Summary
Natural farming is an alternative agricultural system to grow food, which is highly supported by microbial functions rather than utilization of various types of fertilizer [1,2,3,4]. e concept of natural farming is similar to conservation agriculture (often involves minimal tillage or no tillage (NT) and rotation) [5,6,7], yet differs from organic farming (still in need of plowing, tilting, spreading organic fertilizer, and weeding).Regarding natural farming rice paddy systems, Kasubuchi et al [8] concluded that conducting five times inter tillage (5T) in a natural farming rice paddy during the rice growing period can increase the yield as high as that of the conventional farming about five years later. Multiple intertillage methods had been widely conducted in rice paddies to control weed growth during Edo period which was from the end of 17th-18th century. Intertillage is performed during the rice growth period, using a small machine with chainweeder to control weeds amounts (Supplementary Photo 1), enhance soil aeration, plant root growth, and water infiltration [8]. Applied and Environmental Soil Science soil organic matter to accelerate the release of nutrients for crop growth; remove weed to minimize its competition with crop; incorporate oxygen which benefits aerobic microorganisms active [9,10,11,12]. Tillage decreases microbial abundance and activities in a long-term period due to increasing decomposition rate of soil organic matter which contains dead animal body and plant [13, 14]. In contrast to tillage treatment, NT treatment can increase formation of soil organic matter and soil aggregate because there is no disturbance on soil, further improving soil microbial activities [15,16,17,18,19]
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