Investigation of Delay Sowing Date, Plant Density and Harvest Method on Yield and Yield Components of Baby corn (Zea mays L.) var. KSC403 su

This study was conducted to evaluate the effects of different sowing dates and plant density on quantitative and qualitative yield of baby corn var. KSC403 su (Zea mays L.). The experiment was performed in at the Agricultural Research and Natural Resources of Khorasan Razavi Province, Mashhad, Iran in 2008 growing season. The experiment was carried out in a factorial split plot based on randomized completely block design with four replications. The sowing dates (14th June, 3th July, 24th July) were used as the main factor and combination of plant densities (65000, 85000 and 105000 plant.ha-1) along with the two harvest methods (baby corn ,sweet corn and their combinations) as sub factor. The results showed significant differences among sowing dates for plant height, ear height, stem diameter, ear length, ear diameter, husked and dehusked baby corn yield. The maximum baby corn yield was harvested from 3rd sowing date (8095kg.ha-1). The plant density had significant effects on traits like stem diameter, husked and dehusked ear yield , standard ear percentage and sub- standard ear percentage. Therefore, significant differences between harvest method for plant height, ear height, dehusked and husked baby corn yields were obtained. Finally, the interaction of sowing date and plant density and harvest method was significant only for standard and sub-standard ear percentage. Thus, sowing date of July 24th and with planting density (105000 plants/ha) is recommended for maximum husked baby corn yield

Investigating Seed Germination Indices and Absorption Rate of Sodium, Chloride, Calcium, and Potassium in Different Parts of Seedlings of Sweet Corn KSC 403 (Zea Mays L var. Saccharata) Under Salinity Stress and Seed Priming

To investigate the effects of different levels of seed priming on germination indices and nutrient absorption at early growth stages of sweet corn (Golden Kernel Hybrid) a factorial experiment based on completely randomized design was conducted with three replications in 2011. The experiment consists of 6 levels of primings (seeds without priming, priming with tap water, priming with distilled water, priming with sodium chloride, potassium chloride, and hydrous calcium chloride) and five levels of salinity (zero, 4, 8, 12 and 16 ds/m sodium chloride). The characteristics studied were germination percentage, germination rate, root and shoot length, fresh weight and dry weight of seedling, root to shoot ratio and determination of sodium, chloride, calcium, and potassium concentration in different parts of seedlings (stems, roots and seed). The results indicated that increasing salinity stress levels decreased all parameters measured. Priming seeds with hydrated calcium chloride responded to significantly to salinity stress better than other treatments. Results also showed that increasing concentration of sodium chloride salt, increased absorption rate of sodium but concentration of calcium and potassium were reduced. Because application of hydrous calcium chloride stimulates cell in using calcium under salinity conditions it leads to improved seedling growth parameters. To achieve a more accurate results slicing interaction effect of seed priming×salinity levels was performed. Hydrous calcium chloride treatments improved all traits under study except sodium and potassium concentration. This represents a better performance of seeds germination under salinity stress when seeds primed with hydrous calcium chloride

Effects of Planting Pattern on Morphophiysiological Characteristics and Yield and Yield Components of Sweet and Super Sweet Corn Varieties (Zea mays L. var. saccarata)

Considering the importance of sweet corn as a new food product, this study was conducted to evaluate the effects of planting pattern on some important morphophiyziological characteristics and yield and yield components of sweet and super sweet corn (Zea Mays L. var. saccharata) varieties in Agricultural Research and Natural Resources of Khorasan Razavi Province, Mashhad, Iran in 2011. In this study three methods of planting (one and two raised bed and furrow planting) and three varieties sweet corn (Chase, Temptation, KSC403su) and one super sweet corn (Challenger) were studied in factorial experiment based on Randomized Complete Block Design with three replications. The result of ANOVA showed that sweet corn hybrids had significant differences in kernel depth, conservable grain yield and ear harvest index. It also showed that number of leaves per plant, number of leaves above ear, stem diameter, ear diameter, kernel depth, conservable grain yield and forage yield, were significantly different among three levels of planting patterns. The maximum main of these characters was belonging to two-raised bed planting pattern. In addition, the highest conservable grain yield was belonged to Challenger in two raised bed planting pattern with 25.76 ton/ha and highest fresh foliage yield was 48.6 ton/ha which belonged to Chase on one raised bed planting method. The highest ear harvest index belonged to Chase on two-raised bed planting pattern. Finally, the result showed that two raised bed planting pattern and Challenger with highest conservable grain yield trait could be used to increase sweet corn yield

Microsoft Word - 515

ABSTRACT In order to study the effect of drought stress on morphologic traits, yield and yield components of 9 new hybrids of corn (Zea maize L.), an experiment was conducted in a Randomized Complete Block Design (RCBD) with three replications under drought stress and normal irrigation based on 80 and 50 % allowing water depletion, respectively at Khorasan-Razavi Agriculture Research Center, Mashhad, Iran on June 10, 2011. The results of analyze variance showed that under normal irrigation and drought condition, there was a significant difference (p<0.01) between the hybrids. Mean comparison of hybrids revealed that in normal irrigation H6 and in drought stress H8 hybrid had the maximum grain yield (12.85 and 6.75 ton/ha, respectively). Under normal irrigation and water shortage, plant height and kernel no/row had the highest positive phenotypic correlation with kernel yield. In drought condition, grain yield was decreased due to the reduction cumulative effects in yield components.