High Yielding Performance of Soybean in Northern Xinjiang, China

• Main Authors: Akihiro Isoda, Masanobu Mori, Shunsuke Matsumoto, Zhiyuan Li, Peiwu Wang
• Format: Article
• Language: English
• Published: Taylor & Francis Group 2006-01-01
• Series: Plant Production Science
• Subjects: Abundant solar radiation; Drip irrigation; Glycine max (L.) Merr.; Leaf area index; Pod number; Xinjiang; Yield
• Online Access: http://dx.doi.org/10.1626/pps.9.401

The experimental site (Shihezi, Xinjiang, China) is located in an arid area of central Asia with abundant solar radiation of almost 10 daily sunshine hours from April to September. The yield potential in this area appears to be high if sufficient water is supplied. The yields of five soybean (Glycine max (L.) Merr.) cultivars including three semi-indeterminate Chinese cultivars (Shidadou 1, Xindadou 1 and Suinong 11) and two determinate Japanese cultivars (Toyomusume and Toyokomachi) were evaluated over three years. These cultivars were grown under drip irrigation, a high planting density (22.2 plants m-2) and heavy applications of farmyard manure (15 t ha-1). Each cultivar showed a high leaf area index (LAI). In particular, the maximum LAI was greater than 7 over the three years in Shidadou 1 and Toyokomachi. The three Chinese cultivars with a high plant height had a low LAI in the upper layers of the canopy, but the two Japanese cultivars with a short plant height had a higher LAI in the middle or upper layers. Toyokomachi and Shidadou 1 had the highest seed yield, followed by Toyomusume. In particular, the seed yield of Toyokomachi was as high as 8.67 t ha-1 on the average of the three years. These high-yielding cultivars had more than 60 pods per plant (1350 m-2). The high yields in this experiment could be due to the large amount of intercepted radiation owing to the high LAI and abundant solar radiation, frequent and sufficient irrigation by the drip irrigation, and large number of pods as a sink.