Ebrahim Morshedi; MOHAMMAD HOOSAIN GHARINEH; Ahmad Kochekzadeh; Abdol Mehdi Bakhshandeh
Abstract
An experiment is conducted to evaluate effect of Bacillus and Pseudomonas on Quantitative and Qualitative Yield and malting efficiency of different Barley cultivars in rainfed conditions in a farm of Ilam Agriculture and Natural Resources Research Center in 2017 and 2018. The experiment is factorial ...
Read More
An experiment is conducted to evaluate effect of Bacillus and Pseudomonas on Quantitative and Qualitative Yield and malting efficiency of different Barley cultivars in rainfed conditions in a farm of Ilam Agriculture and Natural Resources Research Center in 2017 and 2018. The experiment is factorial according to randomized complete blocks design with four replications. Three cultivars (namely, Behrokh, Grace, and Sararoud1 as first and seed inoculated with growth-promoting bacteria) and Fertilizer at eight levels (including the control, complete fertilizer (Field recommendation), Pseudomonas bacteria, Bacillus bacteria, combination of Pseudomonas and Bacillus bacteria, Pseudomonas bacteria + half fertilizer, Bacillus bacteria + half fertilizer and combination of Pseudomonas and Bacillus bacteria + half fertilizer) are considered second factor. The results show that all the studied traits (with the exception of malting efficiency) addition main effect, are significantly affected by year interaction in cultivar in fertilizer treatment, but malting efficiency is influenced by interaction cultivar in fertilizer treatments. Heights number of seeds per spike, number of spikes per m-2, and grain yield are recorded by a combination of Pseudomonas and Bacillus bacteria + half fertilizer under garis cultivar with means 31, 390 and 5294 kg/h in 2018 and 35, 400 and 6222 kg/h respectively. Maximum malting efficiency (95.5 %) has also been observed in the combination of Pseudomonas and Bacillus bacteria + half fertilizer under Behrokh.
Mohsen Roshdi; Mohammad kazemalilou; Solmaz Kazemalilou
Abstract
The row spacing and planting density are important factors in yield of red bean. In this regard the effects of plant density and weed control methods on grain protein yield of red bean have been studied via a field study as a factorial based on complete randomized blocks design with three replications ...
Read More
The row spacing and planting density are important factors in yield of red bean. In this regard the effects of plant density and weed control methods on grain protein yield of red bean have been studied via a field study as a factorial based on complete randomized blocks design with three replications at the Agricultural Research Station of Khoy during 2018. Plant density is at three levels (20, 25, and 30 plants per m2) and weed control methods are at four levels (lack of control, selective herbicide (Bentazon), general herbicide (paraquat), and manual control). Results show that the interaction effect of plant density and weed control methods has been significant on the number of lateral branches, number of pods per plant, 100-grain weight, grain yield, harvest index, and grain protein yield, though without any significant effect on the number of grain per pod. The highest number of pods per plant (26) is obtained at the density of 20 plants per m2 and manual weeding. The highest seed yield and seed protein yield, 3391 and 841 kg ha-1 belong to the density of 30 plants per m2 and manual weeding, respectively. The interference of weeds can also affect crop production quality by altering the grains composition such as protein. It can be achieved to optimum yield in red bean by increasing the competitive ability of the crop through the selection of optimal density (30 plants per m2) in combination with manual weeding.
Sodabeh Reza Beighi; Ehsan Bijanzadeh
Abstract
In order to study the effect of silicon on biochemical traits, leaf relative water content and yield of two bread and durum wheat cultivars under late season water stress conditions, a split factorial experiment in a randomized complete block design was conducted in three replicates during 2017-2018 ...
Read More
In order to study the effect of silicon on biochemical traits, leaf relative water content and yield of two bread and durum wheat cultivars under late season water stress conditions, a split factorial experiment in a randomized complete block design was conducted in three replicates during 2017-2018 growing season. Treatments included of water stress in two levels included normal irrigation and water stress at the end of flowering, silicon (Si) spraying at 0, 1, 2, and 3 mM and two wheat cultivars consisted of Chamran as bread wheat and Shabrang as durum wheat. The results showed that the main effects of late seasonal water stress, cultivar and silicon on leaf relative water content (RWC), total chlorophyll, carotenoid content and yield were significant. Under water stress conditions, when plants exposed to 3 mM silicon RWC increased 50% compared to no silicon application conditions. Grain protein under water stress conditions and 3 mM silicon was 59.3% higher than no silicon condition. Also, total chlorophyll content and carotenoid content under water stress conditions and application of 3 mM silicon increased 42.5 and 44.9%, respectively. In Chamran cultivar, application of silicon at 3 mM increased total chlorophyll content, carotenoid content, RWC and grain protein 40, 43, 42 and 56.4%, respectively, which caused 19.7% increase in grain yield compared to Shabrang cultivar under water stress conditions. In general, foliar application of 3 mM silicon by improving total chlorophyll content, carotenoid content and RWC can play an important role in increasing yield under water stress conditions.
Zohre Ansar; Mehdi Baradaran Firouzabadi; Serolah Galeshi; Ahmad Gholami; Mahdieh Parsaian
Abstract
This research was carried out to investigate the effect of spraying of Origanum vulgare and Zatria mutifora essence on quantitative and qualitative characteristics of sesame (Naz cultivar) under drought stress conditions. This experiment was conducted as split plot factorial in two years as a randomized ...
Read More
This research was carried out to investigate the effect of spraying of Origanum vulgare and Zatria mutifora essence on quantitative and qualitative characteristics of sesame (Naz cultivar) under drought stress conditions. This experiment was conducted as split plot factorial in two years as a randomized complete block design with three replications. Treatments included two different irrigation regimes (every 15 days) and drought stress (every 25 days), three levels of Origanum vulgare include 0, 40 and 60% and 3 levels of Zatria mutifora include 0, 10 and 20%. Results indicated that drought stress significantly reduced the measured indices compared to control conditions. The results also showed that water stress reduced oil content and increased protein content and activity of catalase, ascorbate peroxidase and superoxide dismutase enzymes. It was found that the most measured indices in both control and stress conditions were associated with 60% Origanum vulgare 20% Zatria mutifora essence. The use of Origanum vulgare and Zatria mutifora essence, under suitable irrigation conditions, increased the seed yield of 27.5% compared to control, whereas it increased 58% under stress conditions. Therefore, it can be stated that under dry conditions, the use of Origanum vulgare Zatria mutifora essence can induce tolerance in the plant in response to drought conditions. Since less cost is needed compared to other methods, therefore, in areas with low water conditions, it is recommended to use the Origanum vulgare and Zatria mutifora essence.
Samaneh Asadi Sanam; Mohsen Zavareh; Hasan Shokri_Vahed; Parisa Shahinrokhsar
Abstract
A randomized complete block design with three replications was performed in Rice Research Institute of Iran, Rasht in 2008, to find the effect of supplement foliar application of nitrogen and potassium on ’Daylam‘ hybrid rice grain yield, its components and grain protein percentage. Foliar ...
Read More
A randomized complete block design with three replications was performed in Rice Research Institute of Iran, Rasht in 2008, to find the effect of supplement foliar application of nitrogen and potassium on ’Daylam‘ hybrid rice grain yield, its components and grain protein percentage. Foliar application of 20 kg nitrogen (5 percent N) and 15 kg potassium (3 percent K2O) in different pre-anthesis stages was considered as treatments. Foliar application of distilled water was considered as control. Results showed that the grain yield and biological yield were increased in treatments which nitrogen and potassium was applied at pre-anthesis stages compared to control treatment. Foliar fertilization of nitrogen in maximum tillering stage had the highest effect on number of tiller per plant and grain number per panicle. The highest percentages of fertile tillers were related to foliar application of nitrogen at both maximum tillering and booting stages. Foliar application of nitrogen at maximum tillering and booting stage significantly increased grain protein content by 12.1 percent which it was 8.3 percent greater than control treatment. Result also showed that a significant and positive correlation exists between grain yield with biological yield and percentage of panicle fertility. Overall, it was concluded that maximum tillering stage is the best pre-anthesis phonological stage for foliar application of nitrogen and potassium on cv. Daylam hybrid rice.