Abstract
AbstractFull ridge‐furrow plastic film‐mulching (FM) is a key agriculture drought mitigation technique in the semiarid Loess Plateau of China. The establishment of high‐yield maize (Zea mays L.) population under FM is built on robust plant development and indispensable soil support that generally started from the seedling stage. However, there is still a lack of information on the root‐shoot development of maize seedling under FM. A 2‐yr field experiment was performed in rainfed plots of Loess Plateau experimental station to study the effects of FM on root‐shoot growth of maize seedlings. Root samples were harvested from different soil layers until max rooting depth at V3 and V6 stages to detail the vertical development. Our results implied that FM significantly improved soil hydrothermal conditions and canopy development at V3 and V6 stages. At the V3 stage, there was no significant difference in root biomass between treatments or growth seasons, but root length under FM treatment was decreased by about 17%; moreover, ridge‐furrow without mulching (CK) treatment intended to distribute 4–9% more root biomass in deeper soil layers, and the root biomass per unit length under FM treatment was increased. At the V6 stage, FM brought about significant advantages in root biomass and length. Nonetheless, maize seedlings under FM treatment had a consistently lower root/shoot ratio, higher root efficiency, and higher water use efficiency during the V3–V6 period. In conclusion, FM helped rainfed maize seedlings run a lightweight but high‐efficiency root to support its productive shoot since the very beginning.
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