Tuber formosanum is a truffle species that is endemic to Taiwan. It is similar to T. melanosporum and may have potential for trade in international truffle markets. Naturally the species is found only in calcareous soils. The results of this study showed that liming can facilitate the cultivation of T. formosanum in naturally acidic soils to which 8333 kg/ha CaCO 3 .MgCO 3 had been added to raise soil pH from 4.5 to 7.0. Mycorrhizas of T. formosanum were present on 45% of the root tips of 4-year-old Cyclobalanopsis glauca (Fagaceae) seedlings 2 years after planting. The first ascocarps were found in the eighth year after planting. Brules were discernible around the trees where the ascocarps were found. Soil pH, total nitrogen, carbon, and sulfur, and available nutrients were highly variable in man-made T. formosanum truffieres which suggests that T. formosanum could be grown in a wide range of soils.
HighlightsThe structural parameters of the seed box of a cup-belt potato planter were optimized.The arching phenomenon of seed potato in the reseeding box was reduced.The qualified rate of cup-belt potato planters in field operation was improved.Abstract. To solve the problem of missed sowing caused by the arching phenomenon of seed potato in the reseeding box of a cup-belt potato planter, this study used the discrete element method to analyze the seed potato movement in the seed box. The analysis revealed unreasonable structural parameters of the seed box. Therefore, the discrete element method was used to optimize the structural parameters of the seed box. First, the structural parameters of the seed box were analyzed by single-factor analysis, and then quadratic rotation orthogonal combination simulation tests of three factors and five levels were performed. Two evaluation indexes were established to evaluate the flow performance of the seed box: the amount of seed taken minus the amount of seed replenishment (CD), and the coefficient of variation of the average seed-population velocity in the reseeding box (CV). The best factor combination was found through optimization. With a 42° inclination angle of the bottom surface of the seed box (a), 145 mm reserved height of the seed isolation baffle (h), and 100° inclination angle of the seed isolation baffle (ß), the CD was 2.622 grains, and the CV was 22.887%. With these parameters, the mobility of seed potato in the reseeding box was good, and there was no arching in the reseeding box. To verify the accuracy of the optimized results, a cup-belt potato seeding test bench was built to conduct verification tests. The bench test verified the rationality of the model and the optimized parameters. Field tests showed that the arching phenomenon in the reseeding box was solved by optimizing the structural parameters of the seed box. The purpose of improving the sowing performance of the cup-belt potato planter was achieved. Keywords: Agricultural machinery, Discrete element method, Parameter optimization, Potato planter, Seed box.
In order to investigate the optimal water-saving and high-efficient irrigation patterns of winter wheat in North China Plain, during 2010-2011 and 2011-2012 winter wheat growing seasons, 3 irrigation treatments were conducted, i.e., irrigated 120 mm only at jointing stage (T1), irrigated 120 mm only at heading stages (T2), and irrigated 60 mm each at jointing and heading stages (T3), respectively, to study the effect of deficit irrigation on root-shoot development and grain yield of winter wheat in North China Plain. The results showed that under the condition of irrigated 120 mm during the winter wheat growing season, the treatment which irrigated 60 mm each at jointing and heading stages, the leaf area index significantly (LSD, P<0.05) increased at milky stage, which was mainly due to increase the leaf area index at 0-20 and more than 60 cm above the ground surface. The 2 growing season results revealed that dry matter accumulation at maturity stage in T3 was significantly (LSD, P<0.05) higher than those in T1 and T2. Compared with T2, the root length density in T1 and T3 were significantly (LSD, P<0.05) higher below the ground surface 50 cm. The results indicated that irrigated 60 mm each at jointing and heading stages during the winter wheat growing seasons, grain yield was the highest, which could be attributed to significantly (LSD, P<0.05) increase the spike numbers. Under the condition of irrigated 120 mm during the winter wheat growing seasons in North China Plain, it is suggests that winter wheat should be irrigated 60 mm each at jointing and heading stages, to achieve reasonable water use efficiency and grain yield.
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