جستجوی مقالات مرتبط با کلیدواژه « zinc » در نشریات گروه « کشاورزی »

In order to evaluate the effect of foliar application of iron and zinc sulfate on yield and yield components of forage corn (Hybrid 704 Single Cross), an experiment in a randomized complete block design with 3 replications was carried out. The treatments included the control (spraying solution with distilled water), spraying of micronutrients including iron sulfate [FeSO4.7H2O (20% Fe)], zinc sulfate [ZnSO4.7H2O (22% Zn)] and iron sulfate + zinc sulfate with a concentration of 5 in 1000 at the 4-leaves stage, 8-leaves stage and both stages. The results showed that the greatest height (with an average of 190 cm), shoot dry weight (with an average of 1774 g m-2), the number of seeds in a row (with an average of 50), the number of rows (with an average of 17.3) and the number of seeds in a cob (with an average of 867) and the weight of a thousand seeds (average of 312 grams) were resulted from iron and zinc foliar spraying at both stages of 4 and 8 leaves, which increased by 15.3, 31.4, 11.3, 17.3, 28.3 and 20.3% compared to their lowest value (control), respectively. The results of this research indicated that the simultaneous foliar application of iron and zinc had a greater effect on the studied traits compared to the foliar application of each nutrient of iron and zinc alone. Therefore, in order to have forage with rather good characteristics, it is recommended to spray iron and zinc solution simultaneously at both 4 and 8-leaves stages.

Drought stress is one of the most important abiotic stresses that reduces crop production more than any other stress. Micronutrients such as iron and zinc can improve drought stress tolerance in saffron. For this purpose, the present study was conducted in the growth chamber of the College of Science, University of Tehran, in order to investigate the effect of iron and zinc on vegetative characteristics and resistance traits of saffron plant under water stress conditions as a factorial based on a completely randomized design. In this experiment, iron and zinc were investigated at three levels of half concentration of Hoagland, full concentration and twice the concentration of Hoagland solution and at four levels of dryness of 0, 5, 10 and 15% polyethylene glycol 6000 (PEG). The results showed that drought stress reduced fresh and dry root weight (1.36 g and 0.12 g in PEG 15%), root length (2.67 cm in PEG 15%), leaf and root protein content (0.05 and 0.04 mg/g FW in PEG 15%) and oxidizing enzymes (such as root peroxidase (1.04 IU/g protein in PEG10% and in PEG15% (1.09 IU/mg protein), leaf polyphenol oxidase (in PEG5% (0.14, 0.15 IU/mg protein in PEG10% and 0.14 IU/mg protein in PEG15%), leaf catalase (0.63 in PEG5%, 0.59 IU/mg protein in PEG10% and 0.34 IU/mg protein in PEG15%) and root catalase (0.25 IU/mg proein in PEG10% and 0.18 IU/mg protein in PEG15%). The use of iron and zinc in full concentrations and twice the concentration of Hoagland solution improved some qualitative and biochemical properties such as total chlorophyll (full concentration of zinc in PEG15% as much as 4.48 mg/g FW), chlorophyll a (twice the concentration of zinc in PEG5% as much as 2.96 mg/g FW), chlorophyll b (zinc at full concentration in PEG15% as much as 5.04 mg/g w/w) Wet), carotenoids (zinc twice the concentration in PEG10% by 0.73 μg/mg protein), leaf flavonoids (iron twice the concentration of PEG5% by 0.18 μg/g FW), zinc root flavonoid twice the concentration in PEG0 by 0.15 μg/g FW), leaf flavonoids (iron twice the concentration in PEG15% by 0.05 μg/g FW) and flavonols (Leaf flavonols (twice the concentration of iron in PEG15% by 0.05 μg/g FW) and root flavonols (twice the concentration of iron in PEG5% by 0.21 μg/g FW). Finally, treatment with iron and zinc improved the status of some of the measured parameters under drought stress conditions. The use of these concentrations of iron and zinc is recommended to reduce the negative effects of drought in saffron.

One of the non-biological stresses for crop plants is drought and lack of water, which is the most important factor limiting the growth of crop plants in arid and semi-arid areas, including Iran. Drought impairs normal growth, disturbs water relations, and reduces water use efficiency in plants. Plants, however, have a variety of physiological and biochemical responses at cellular and whole organism levels, making it a more complex phenomenon. The rate of photosynthesis is reduced mainly by stomatal closure, membrane damage, and disturbed activity of various enzymes, especially those involved in ATP synthesis. Plants display a range of mechanisms to withstand drought, such as reduced water loss by increased diffusive resistance, increased water uptake with prolific and deep root systems, and smaller and succulent leaves to reduce transpirational loss. Therefore, the effects of drought stress and seed nutritional priming on plants can play an important role in managing different irrigation regimes to deal with adverse environmental conditions and improve crop yield management.

Quinoa is one of the crops that has received special attention in recent years due to its high nutritional value and resistance to dehydration. For this purpose, an experiment was conducted in the form of a factorial split plot, with three rounds of irrigation of 7, 10 and 14 days as the main factor and seed priming at two levels without prime as a control and Iron sulfate + zinc sulfate combination as the second factor was applied on three genotypes (Q12, Q29 and Giza1) of quinoa as secondary factors, in the crop year of 2021-2022 in the regions of Neishabour and Kashmar.

Moisture stress decreased the relative water content and percentage of membrane stability. In Kashmir region, the highest relative water content was observed in cultivars Q12 and Giza under the treatment of irrigation once every 14 days. While in the Neishabur region, the highest value of the mentioned variable was obtained in the treatment of irrigation once every 7 days and cultivar Q29. Slicing analysis of the interaction effect of cultivar and irrigation treatments and the interaction effect of irrigation and priming in Kashmir region showed that the 7 and 10 day irrigation treatment was significant on cell membrane stability. Comparison of the average interaction effect of the three tested factors in Neishabur area showed that the variety Q12 (regardless of seed priming) along with applying 14 days of irrigation caused a significant increase in membrane stability in Neishabur. Although the lowest level of membrane stability was obtained in the priming treatment of Q12 and Giza cultivars with the application of 7 days of irrigation once. It was observed that the priming treatment of Q29 and Giza cultivars with irrigation every 10 and 7 days, respectively, showed the highest amount of total chlorophyll in the Kashmir region, while in the Neishabur region, the highest amount of total chlorophyll was obtained in non-priming of Giza cultivar with the application of 10 Irrigation once a day. The results of the experiment showed that seed priming of Q12 and Q29 cultivars under irrigation once every 7 days caused a significant increase in seed yield in Kashmir region. In Neishabur region, the highest amount of seed yield was obtained in the non-priming cultivar Giza under irrigation once in 10 days.

In general, seed priming with zinc sulfate and iron sulfate can improve the physiological characteristics of quinoa under water stress. Although in regarding the relative water content, the Q29 variety had a dominant effect on the priming treatment in Neishabour region. According to the results of the Q29 variety in the Kashmar region and the Giza variety In the Neishabour region, it will help plant growth by maintaining the chlorophyll content of the leaves under low irrigation conditions.

In this research, the effect of zinc and selenium synthesized from nano-mineralized probiotics was investigated on yield characteristics, egg quality characteristics, antioxidant status, and immune response of laying hens. A number of 576 high-line laying hens at the peak of production (from 25 to 37 weeks of age in three four-week periods) were used as a completely randomized design with a 3x3 factorial experiment with eight replications and eight birds per replication. Experimental treatments are 1. The control diet (without selenium and zinc), 2. Control diet + selenium chelate, 3. Control diet + zinc chelate, 4. Control diet + zinc synthesized from probiotics, 5. Control diet + selenium synthesized from probiotics, 6. Control diet + zinc chelate + selenium chelate, 7. Diet Control + zinc chelate + selenium synthesized from probiotic, 8. Control diet + zinc synthesized from probiotic + selenium chelate, 9. Control diet + zinc synthesized from probiotic + selenium synthesized from probiotic. The results showed that using zinc and selenium synthesized from probiotics increased production percentage, average egg weight, and improved feed conversion ratio (P<0.05). The serum concentration of cholesterol, triglyceride and malondialdehyde in chickens receiving probiotic zinc and selenium was the lowest. The serum HDL concentration and total antioxidant index were the highest compared to other treatments (P<0.05). In general conclusion, zinc and selenium synthesized from nano-mineralized probiotics have a better performance in laying hens.

Like other crops, wheat also faces several environmental limitations during its growth period, such as the lack of micronutrients. Zinc deficiency causes limitations in crop production, especially growth, and yield in calcareous soils. Considering the economic and agricultural importance of wheat in the world and Iran, it is necessary to pay attention to and identify genetic relationships, to know the level of genetic diversity, and estimate it in wheat germplasm by plant breeders. The present research was conducted with the aim of identifying genetic diversity and investigating stress tolerance indicators on phenological, physiological, and biochemical traits in desirable spring wheat cultivars under optimal conditions and zinc deficiency stress.

Sixty-four spring wheat cultivars under both optimal conditions and zinc deficiency stress, a simple lattice design was performed in 2019-2020 in the research farm of the Faculty of Agriculture, Urmia University. In this research, phenological traits including the number of days to germination, number of days to booting, number of days to pollination, number of days to physiological maturity, grain filling period, and physiological and biochemical characteristics including canopy temperature, total chlorophyll, leaf area index, fresh weight and dry weight, relative water content, grain protein concentration, zinc concentration in shoot and grain yield were measured.

The results of the analysis of variance revealed a significant difference among the cultivars in both optimal conditions and zinc deficiency stress in most of the studied traits. positive and significant correlations of Ys and Yp with MP, GMP, STI, and HM indices showed that these indices are the most suitable indices for screening cultivars under zinc deficiency stress conditions.

Generally, based on studied traits, tolerance indices, the results of principal components analysis, and cluster analysis, Aflak, Darya, Arvand, Roshan, Kavir, and Sirvand were selected as desirable cultivars and VEE/NAC, Tajan, Parsi, and Panjamo were identified as undesirable and susceptible cultivars. The selected tolerant and susceptible cultivars can be used for developing biparental populations, gene expression analysis, and breeding programs to produce cultivars with high yield.

To investigate the effect of zinc and potassium application on some morphological traits and yield of wheat (Triticum aestivum L.) under drought stress, a split-factorial layout based on a randomized complete block design (RCBD) with three replicates were carried out at the experimental farm of the Research, Education and Extension Center of Agriculture and Natural Resources of Hamadan during 2017-2018. The main plot included irrigation levels (normal and water stress) and the subplot included two factors of foliar application of potassium (K) and zinc (Zn) fertilizers. Potassium fertilizer from K2O source (40%) including 2 L/ha at three levels; I) without fertilizer (control sample), II) leaf spray at the beginning of booting, III) leaf spray after pollination, and zinc fertilizer from water-soluble zinc source (10%) including four liters per ha in three levels; I) without fertilizer (control sample), II) leaf spray at the beginning of booting, III) leaf spray was used after pollination. The results of the analysis of variance showed a significant difference between treatments in all studied traits. Significant differences in all of the traits were observed under stress and normal irrigation. Co-application of potassium and zinc fertilizers compared to the control increased grain yield (4.5%) and RWC (5.8%) evaluated morphological indices under stress conditions.To investigat

Investigations showed that the pollution of heavy metals, especially lead, in fields has caused tension and decreased yield. This issue has caused concern about the risk of consuming contaminated food for human health. The role of plant regulators in heavy metal stress conditions has been of interest in recent years. Lead and zinc (in high concentration) are toxic metals for plants, which are easily absorbed by the plant's root system. As a result, they cause damage to plant growth and development and prevent enzyme activity. Maize is economically important for harvesting seeds and fodder. However, in areas contaminated with metal stress, due to the absorption of metals by the plant, the yield of the cultivated plant in these areas decreases, for this purpose, an experiment aimed at the effect of concentration and different methods of salicylic acid hormone on growth, photosynthesis and anatomical characteristics. and physiological in corn under the stress of zinc and lead metals and also the possibility of reducing the risk of toxicity of these elements is investigated.

In order to investigate the mitigating effects of two methods of applying salicylic acid hormone on corn plants under heavy metal stress, the experiment was carried out as follows. The concentration of metals included: different concentrations of lead (0 and 250 mM) and zinc (0 and 2500 mM) and the treatments were with two methods of foliar spraying and priming in zero concentrations (distilled water), 750 and 1500 μmol salicylic acid and a group of seeds without stress and no treatment were considered as controls. By implementing a factorial design on morphological traits (height, plant temperature, temperature difference between the environment and leaves, and leafing ratio) and physiological traits (membrane stability index, chlorophyll fluorescence, proline, soluble sugars, carotenoid, protein and some enzymes) as well as the absorption of lead and zinc metals in the root tissue and the aerial part of the plant under hydroponic cultivation conditions. The obtained results were subjected to statistical analysis using SPSS statistical software. The mean comparison of experimental data was also done with Duncan's test. Excel 2003 software was used to draw the figures.

Morphological traits such as: plant temperature, difference between Environment and leaf temperature and physiological traits such as: proline, soluble sugars, carotenoid, protein and some enzymes increased and some other traits such as: height, and leafing ratio, index Membrane stability, chlorophyll fluorescence decreased compared to the control. These traits showed better results in seed priming treatment without stress. However, the use of foliar spray under lead-zinc and lead stress improved the stress effects by reducing the absorption of heavy elements by the root system.

SA activates the defense system of plants by synthesizing a number of proteins and increasing proline osmolytes and soluble sugars and enzymatic and non-enzymatic antioxidants such as carotenoids. As a result of reducing the oxidative stress and protecting the chloroplast membrane and the photosynthetic apparatus, the photosynthetic production is improved, resultly, the height and the proportion of the leaves increased. SA also prevents the absorption of heavy metals by the root system of the plant and its transfer to the aerial part of the plant, which reduces the signs of stress in the aerial part of the plant. By applying salicylic acid, some properties were improved by reducing the effects of stress. The use of foliar spraying improved the physiological and morphological traits during plant growth and worked better than the seed priming method. resultly, in farms with two metals lead and zinc, it is possible to tolerate the stress of these two metals by foliar spraying treatment.

Quinoa (Chenopodium quinoa Willd) belongs to the Amaranth family and is native to the Andes. In recent decades, the cultivation of this plant has extended. One of the reasons for paying attention to this plant is its ability to adapt to harsh climatic conditions. It has a higher protein content than wheat, barley, corn and rice. On the other hand, plant seeds supply all the essential amino acids (including lysine, methionine and cysteine) needed by humans. The aim of this experiment was to investigate the effect of salinity stress on the amount of micronutrients and protein percentage in quinoa seeds.

An experiment was planted as a split plot in a randomized complete block design with three replications on August 7, 2017. Experimental treatments included three superior genotypes (Sadough, Titicaca and NSRCQB). Genotype in sub-plot and irrigation water salinity at 3 levels of 2, 10 and 17 dS/m were located in the main plot. Finally, grain yield, saponin content (foam height), grain size and amount of micronutrients in grain and grain protein percentage were measured after saponification.

The effect of salinity stress on 1000-grain weight, grain yield, grain size (1.7-2, 1.4-1.7 mm), foam height, iron, zinc, calcium content and protein yield were significant. Sadough cultivar had the highest 1000-seed weight and grain yield. Sadough and Titicaca cultivar had the highest percentage of large seeds and small seeds, respectively. With increasing salinity, seed yield of Titicaca cultivar decreased by 13% per unit increasing irrigation water salinity, while in Sadough and NSRCQB genotypes, there was no significant difference with non-saline level. With increasing salinity, the lowest foam height was related to NSRCQB genotype. The interaction effect of salinity stress and genotype on grain yield, foam height, percentage of iron, zinc, calcium, protein and protein yield was significant. With increasing salinity, iron content in Titicaca cultivar, zinc content in all three genotypes, nitrogen in Sadough and NSRCQB, calcium in Titicaca, protein percentage in Sadough and NSRCQB increased significantly compared to non-saline conditions. With increasing salinity, the highest increase slope among micronutrients was related to grain. Protein yield in Sadough and NSRCQB cultivars was not affected by salinity increase, while in Titicaca cultivar decreased by 13% per unit of irrigation water salinity.

With increasing salinity up to 10 dS/m, the seed yield of three quinoa genotypes was not affected and this plant is recommended for exploitation of saline water resources. Sadough cultivar was the best among the three genotypes. The percentage of micronutrients iron, calcium, zinc and grain protein increased under saline conditions and despite the decrease in grain yield, the protein yield per square meter was not affected. The rate of increase in micronutrients and decrease in yield with increasing salinity of irrigation water is affected by genotype. Since the quantity and quality of quinoa seeds are not affected by water salinity, it can be effective in improving food security in marginal areas.

This study was conducted to investigate the effects of zinc hydroxide and zinc glycine and their mixtures on performance, blood and immune parameters, liver enzymes and expression of interleukin-6 and interferon gamma genes in broiler chickens.

Birds fed on a Corn-Soybean. The study was conducted in a completely randomized design with a 3×3 factorial arrangement with 9 treatments and 4 replications, each replication containing 15 birds. (540 Ross 308 broiler chickens). The experimental diets included the control diet (without zinc hydroxide and zinc glycine) and the levels of 50 and 100 mg / kg zinc hydroxide and zinc glycine.

The results showed that the use of mixture of zinc hydroxide and zinc glycine increased feed intake and weight at the end of broiler chickens breeding (P<0.05). Among the experimental groups, 100 zinc hydroxide (mg/kg of feed) had the blood and immune parameters (P<0.05). The use of zinc hydroxide and zinc glycine in the diet of broiler chickens has significant effect on liver enzyme (P<0.05). The different levels of zinc hydroxide and zinc glycine decreased the expression of interleukin-6 and increased gamma interferon liver genes.ConclusionsIn general, it can be stated that the mixture containing 100 zinc hydroxide (mg/kg of feed) has the most effect on performance improvement, blood and immune parameters and100 zinc hydroxide and zinc glycine (mg/kg of feed) expression of liver genes in broiler chickens.The results showed that the use of mixture of zinc hydroxide and zinc glycine increased feed intake and weight at the end of broiler chickens breeding (P<0.05). Among the experimental groups, 100 zinc hydroxide (mg/kg of feed) had the blood and immune parameters (P<0.05). The use of zinc hydroxide and zinc glycine in the diet of broiler chickens has significant effect on liver enzyme (P<0.05). The different levels of zinc hydroxide and zinc glycine decreased the expression of interleukin-6 and increased gamma interferon liver genes.

In general, it can be stated that the mixture containing 100 zinc hydroxide (mg/kg of feed) has the most effect on performance improvement, blood and immune parameters and100 zinc hydroxide and zinc glycine (mg/kg of feed) expression of liver genes in broiler chickens.

In order to investigation of influence drought stress and salinity stress on photosynthetic pigments and concentration of elements of Mentha piperita L and influence foliar spraying of selenium, an experiment of split in time and with three replications was performed in research greenhouse in Torbat-e Jam region, Iran and in during 2020, including three levels of Salinity (S1=0, S2=50 and S3=100 mmol NaCl), three levels of irrigation (I1=100, I2=75 and I3=50 percent of water requirements) and two levels of selenium (0 and 5 mgrperlit Na2SeO4). results showed that with increasing level of drought and salinity stresses, chlorophyll a, b and total and carotenoids decreased. Also, foliar spraying of selenium (5 mgr/lit Na2SeO4), respectively, 5/53, 6/10, 7/59 and 8/10 percentage was added to chlorophyll a, b and total and carotenoids in Mentha piperita L plant. Investigating effect of drought and salinity stresses on the concentration of elements in Mentha piperita L plant showed that with increasing level of drought stress from I1 to I2 and I3 , concentration of iron respectively, 6/61 and 68/59, concentration of zinc respectively, 9/09 and 181/8, concentration of sodium respectively, 26/39 and 62/93 and concentration of potassium respectively, 11/91 and 12/77 were added and with the increasing of salinity stress from S1 to S2 and S3, from concentration of iron, respectively, 19/94 and 27/81, and from concentration of zinc respectively, 87/10 and 83/57 percentage decreased and concentration of sodium from 8/45 to 21/87 and 123/67 mg/gr increased respectively. Also, with increasing level of salinity stress from S1 to S2 and S3, concentration of potassium respectively, 2/17 percentage increased and 21/55 percentage decreased. results showed that selenium is effective in reducing the effects of salinity and drought stresses and on photosynthetic pigments and concentration of elements in Mentha piperita L plant.

Industrialization and destructive human activities have led to a rapid spread of heavy elements contamination in soil. The purpose of this study was to investigate the effect of silicon and salicylic acid on yield and physiological traits of corn in Rahimi and Molavi farms (contaminated with heavy metals and located near lead and zinc factors in Zanjan) in 2020, by using a factorial design based on randomized complete blocks. Factors included spraying salicylic acid at zero, 600, 1200, and 1800 µM, and spraying nanosilicon at zero, 600, 1200 and 1800 mM. Based on the results of soil analysis, lead, zinc, and cadmium concentrations in both fields were higher than the allowable limit and this heavy metal contamination was more severe in Rahimi field. Heavy metal contamination reduced plant height, grain yield and yield components, biological yield, chlorophyll content, and proline levels. The highest grain yield and grain weight were obtained with 1800 µM salicylic acid and 1200 mM nanosilicon treatments, and the lowest with the control treatment (without salicylic acid or nanosilicon). The highest chlorophyll content was obtained from 1800 µM salicylic acid treatment on Molavi's farm and the maximum amount of chlorophyll was observed in 1800 mM nanosilicon treatment. Overall, the treatments improved the yield, chlorophyll content, and relative water content of corn leaves. It is recommended to spray 1800 µM salicylic acid and 1200 mM nanosilicon on the corn fields in this area to increase the stress tolerance under heavy metal conditions.

Efficient management methods should be used to achieve optimal production of livestock products in breeding, reproduction and feeding stages. If proper nutritional management is not performed correctly at the end of pregnancy, it will have adverse effects on the amount of dry matter intake and the metabolic condition of the animal during early lactation. In all animal tissues, there are variable proportions of mineral elements and vitamins; the concentration of these elements must be within the specified range in order to protect the functional and structural activity of the tissues and to keep the growth, health and productivity of the animal without reduction or damage.

In order to evaluate the effects of selenium and vitamin E supplements administered orally or by injection in late pregnancy on the concentration of selenium, copper, zinc and iron in the blood and milk of ewes and the blood of their lambs this experiment were conducted using 18 pregnant ewes of the first lambing in a completely randomize design with three treatments and six replications. Experimental treatments included: 1) Control (receiving a dose of 10 ml of selenium and vitamin E supplement by injection two weeks before delivery; each ml contains 0.5 mg of sodium selenite and 50 mg of vitamin E). 2) selenium and vitamin E (receiving 0.3 mg of selenium and 50 mg of vitamin E mixed with diet daily per kilogram of dry matter intake) orally from four weeks before delivery and, 3) Injection of 10 ml selenium and vitamin E supplement in two stages including four weeks before calving (five ml) and two weeks before calving (five ml).The Blood samples were collected from the ewes before the administration of supplements and at the time of delivery. Blood was collected from newborn lambs before consuming colostrum and 14 days after birth. Selenium, copper, zinc and iron concentrations were measured in colostrum and milk.

The results of the experiment indicated that the average weight of the ewes two weeks after lambing for ewes that received selenium and vitamin E orally was higher than the control (P<0.05). No significant difference was observed in the concentration of iron, copper and zinc in the blood serum of ewes or lambs. The concentration of selenium in the serum of ewes and their lambs and the colostrum of ewes that received selenium and vitamin E orally was higher than other ewes. No significant difference was observed between the experimental treatments in terms of the average body condition score (BCS) until the time of delivery, but two weeks after delivery, BCS in the orally supplement of selenium and vitamin E treatment was higher than that of control group.

The results of the present study showed that in order to improve the status of selenium in livestock and the convenience of supplement administration, the use of orally selenium and vitamin E supplements is preferred by its injection method.