Mohammad Jabbari oranj; Hosein Moghadam; Mohammad Reza Jahansooz; Ali Ahmadi; Babak Motesharezadeh
Abstract
In order to investigate the effects of irrigation, planting date, and biofertilizers on phenological traits, yield, and some qualitative traits of quinoa as a new plant, an experiment has been conducted on a farm located in Bilehsvar region of Ardabil Province in two cropping years from 2019 to 2021 ...
Read More
In order to investigate the effects of irrigation, planting date, and biofertilizers on phenological traits, yield, and some qualitative traits of quinoa as a new plant, an experiment has been conducted on a farm located in Bilehsvar region of Ardabil Province in two cropping years from 2019 to 2021 in split - split plot design based on a randomized complete block design with three replications. Experimental factors include irrigation at three levels, including (complete irrigation, irrigation termination in budding stage, and irrigation termination in seed filling stage) as the main factor, planting date at three levels (namely 27 July, 11 August, and 27 August) as the sub-factor, and four levels of nitrogen biofertilizer (the control, seed inoculant with Azotobacter, inoculant with Azospirillum, and inoculation with a mixture of Azotobacter and Azospirillum) as the sub-sub-factor. The results show that the use of complete irrigation with a planting date of 27 July and inoculation of Azotobacter and Azospirillum biofertilizers has increased the length of phenological stages and 1000-seed weight. In terms of harvest index, complete irrigation treatment with planting date of 27 July, and combined inoculation of biofertilizers have had the highest value, in terms of protein percentage and saponin content of seed, irrigation interruption at the budding stage with planting date of 27 July, while co-inoculation with biofertilizers has given the best results, and the highest biological yield (620 g/m2) and grain yield (304.97 g/m2) have been obtained from complete irrigation treatment with planting date of 11 August and co-inoculation of biofertilizers.
Abdolreza Akhgar; Parisa Sotodeh
Abstract
To study the effect of vermicompost and plant growth promoting rhizobacteria (PGPR) on yield indices, oil and protein percent and element concentration of seed in sesame (Sesamum indicum L.), a greenhouse experiment has been conducted in factorial based on completely randomized design with four replications ...
Read More
To study the effect of vermicompost and plant growth promoting rhizobacteria (PGPR) on yield indices, oil and protein percent and element concentration of seed in sesame (Sesamum indicum L.), a greenhouse experiment has been conducted in factorial based on completely randomized design with four replications at Vali-e-Asr university of Rafsanjan in 2014. Experiment factors include four levels of vermicompost (zero (V0), 1 (V1), 2 (V2), and 4 (V3) percent) and five bacterial levels (without bacteria (B0), inoculation with an isolate from fluorescent pseudomonads group, having ability to dissolve inorganic phosphate (B1), Azospirillum sp. (B2), Azotobacter sp. (B3), and with the ability to fix nitrogen and a mixture of three bacteria (B4)). The results show that the application of vermicompost and PGPR alone significantly increase oil percentage (up to 80.7% and 15.4%, respectively), potassium, iron, and manganese concentration in seed sesame. Also, simultaneous application of vermicompost and PGPR are significantly enhanced along with weight of seeds, number and weight of capsule, protein of seed and concentration of nitrogen, phosphorous and copper in seed sesame. In general, the combined application of vermicompost and growth-promoting bacteria, through a synergistic relationship, have increased the yield and the content of mineral elements of sesame seeds.
Maryam Niazi Ardekani; Vahid Barati; Hamid reza Boostani; Ehsan Bijanzadeh
Abstract
This study was perform at the experimental farm of the College of Agriculture and Natural Resources of Darab, Shiraz University in 2017 - 2018 growing season. A split factorial experiment in a randomized complete block design with three replicates was carried out. Treatments included: two levels of irrigation ...
Read More
This study was perform at the experimental farm of the College of Agriculture and Natural Resources of Darab, Shiraz University in 2017 - 2018 growing season. A split factorial experiment in a randomized complete block design with three replicates was carried out. Treatments included: two levels of irrigation as the main plots [normal irrigation (IRN): irrigation based on the plant's water requirement up to the physiological maturity and another factor was water stress (IRDI): irrigation based on the plant's water requirement up to the anthesis stage (cutting of irrigation after anthesis)]. Also, sub plots were two levels of wheat residues [1. without residue, 2. returning 30% of wheat residue to soil] and four fertilizer sources [N0, no nitrogen fertilizer (control); N100, 100 kg N ha-1; Bio + N50, Biofertilizer (Azospirillum brasilense) + 50 kg N ha-1 and Bio, Biofertilizer (Azospirillum brasilense)]. The results showed that the cut of irrigation after anthesis significantly decreased the micronutrients uptake of shoot and grain in barley. All fertilizer sources increased the uptake of micronutrients especially in normal irrigation conditions. Among the N sources, the Bio + N50 treatment was more effective in micronutrients uptake. Also, the highest grain yield in the normal irrigation and water stress condition was obtained in Bio + N50.