Comparing the effect of organic and chemical nutritional management and intercropping with clover on the quantity and quality of different wheat (Triticum aestivum L.) cultivars

Optimal availability of nutrients, particularly nitrogen (N), from authorized resources is one of the most important issues in organic agriculture. Intercropping forage legumes with cereal crops may be a way of providing ecological services such as providing N for companion or following crops by biological N fixation. To determine the effect of biological, chemical, and organic fertilization on the quality and quantity of ten different wheat cultivars, an experiment was conducted during two successive growing seasons. The three experimental factors (F1, F2, F3) were: mix cropping with Persian clover (Trifolium resupinatum L.) (F1: biological N fixation, as control); chemical nitrogen fertilizer (F2: 100 kg ha-1, urea), and organic cow manure (F3: 40 t ha-1). The vegetative growth parameters improved by F1 and F2 treatments. The F2 had the highest values of spikelet and seed number per spike, 1000-grain weight, and seed yield, followed by F1. The cv. ‘Kabul-13’ was the best among all tested cultivars in terms of almost all reproductive parameters. The highest seed yield was obtained by F2 ‘Kabul-13’ (8.02 t ha-1), and F1 ‘Kabul-13’ (7.26 t ha-1). By considering seed yield, ‘Chont-1’ and ‘Kabul-13’ were more suitable to be intercropped with clover. The effect of experimental factors was not significant on seed potassium and phosphorus contents, while percentage of seed protein improved by F3 (13%), and ‘Mugawim’ (13.59%). The highest protein yield was gained by F2 and F1 (820 and 650 kg ha-1) and also by ‘Kabul-13’ (850 kg ha-1). Overall, mixed cropping of wheat and clover can be suggested as a possible alternative for nutrients providing in wheat production in low input agro-ecosystems

Green fuel production from saffron waste by dilute acid hydrolysis

In this study, the dilute acid Hydrolysis of saffron waste as a lignocellulose biomass for fermentable sugar production as a green fuel is investigated. Saffron plant waste was collected, washed with distilled water, dried by being exposed to air and sunlight, milled by a disk mill up to 50 micrometers and kept in plastic at room temperature. The prepared biomass was heated in a specified acidic solution for a predetermined time period in the autoclave. The influences of 3 major parameters including temperature, acid concentration and time on the produced fermentable sugar is investigated by the response surface method. According to previous studies, the levels for pretreatment were: temperature (116, 124, 132, and 140oC), process time (20, 30, 40, and 50 minute and sulfuric acid concentration (0, 1, 2, and 3%). To determine the type and quantity of products, the filtered solution was analyzed by HPLC and the results (glucose, xylose and furfural) were modeled by a quadratic equation. This model showed that glucose concentration was influenced by the quadratic power of acid concentration and time while xylose concentration was influenced by time and furfural depends on time alone. It may be concluded that high acid concentration, low temperature and medium time could produce maximum products (glucose and xylose) with minimum inhibitor (furfural)

Effect of corm planting density, organic and chemical fertilizers on formation and phosphorus uptake of saffron (Crocus sativus L.) replacement corms during phonological stages

Saffron (Crocus sativus L.) propagates by replacement corms producing from the mother corm after flowering during each season. In order to investigate the effect of corm planting density, organic and chemical fertilizers on formation and phosphorus uptake of saffron replacement corms during phonological stages, a field experiment was conducted as factorial layout based on randomized complete block design with three replications, at Faculty of Agriculture, Ferdowsi University of Mashhad, Iran, during 2013 and 2014 growing seasons. The experimental treatments were all combination of different levels of planting density (25, 50, 75 and 100 corms per m2) and fertilizer sources (manure 25 t. ha-1, chemical fertilizer (N 150 kg ha-1 + P 75 kg ha-1) and control). Due to different sampling dates of replacement corms during phonological stages (21 November, 21 December, 20 January, 20 April and 21 May, respectively), the experimental data were analyzed as factorial - split in time based on a randomized complete block design. Based on results, the highest number of replacement corms lower than 4 g (5.8 corms per plant) were observed in fifth sampling stage and then decreased. In all levels of planting density (25 to 100 corms per m2), the effects of manure on increasing the number, weight and phosphorus content of replacement corms in range of 4.1 to 8 and 8.1 to 12 g per plant were significantly higher than chemical fertilizer. In fifth sampling stage, by applying the manure, the weight and phosphorus content of replacement corms in range of 8.1 to 12 g per plant were significantly increased (approximately twice), as compared to chemical fertilizer. It seems the decrease in saffron yield as result to decreasing the corm planting density can be slightly offset by increasing the percentage of larger corms formation per plant

Effect of Summer Irrigation and Conservation Tillage on Flower Yield and Qualitative Characteristics of Saffron (Crocus sativus L.)

In order to investigate the effects of summer irrigation and conservation tillage on flower characteristics and corms behavior of Saffron (Crocus sativus L.), a field experiment was conducted during 2009- 2010, at Faculty of Agriculture, University of Torbat-e-Heydarieh, Iran. A factorial trial based on complete randomized block design with four replications was used. The experimental treatments were all combination of summer irrigations (July, August, July + August and no irrigation) and conservation tillage (application and non- application). Based on analysis of variance, in the first and second years, summer irrigation had significant effects on number and flower yield of saffron. In the first year, the highest number of flower, flower and stigma yield of saffron significantly observed by irrigation on July + August (25 flowers per m2, 12.1 and 0.16 g.m-2, respectively,). In the second year, irrigation in August had highest significant effects on mentioned characteristics of saffron (127.4 flowers per m2, 61.4 and 0.87 g.m-2, respectively). In the first year, flower and stigma yields of saffron significantly increased by conservation tillage (by 11.3 and 11.7%), as compared to control (no conservation tillage). In addition, summer irrigation and conservation tillage significantly increased picrocrocin content

Effect of mother corm weight and foliar application of nutrients on flower and corm yield of Spanish and Iranian saffron (Crocus sativus L.)

The corm size, nutrient management and corm type are the most important factors that may affect the quantitative and qualitative characteristics of saffron (Crocus sativus L.). In order to study the effect of mother corm size and nutrient foliar application on flower and corm yield of Spanish and Iranian Saffron landrace, an experiment was conducted with factorial arrangement based on randomized complete block design with three replications during two growing seasons (2013-14 and 2014-15) at the Faculty of Agriculture of the Ferdowsi University of Mashhad, Iran .The saffron corm type was considered in two levels (Iranian corm and Spanish corm), mother corm size were in three levels (1- 8g, 8.1- 15g, 15.1- 23g) and nutrient foliar application were in two levels (control and sprayed leaves with 7% micro and macro nutrients). The results showed that the effect of different mother corm size, corm type and nutrient foliar application on the number of flowers, flower fresh and dry weight (stigma + style) were significant. The highest number of flowers (48.6 flower.m-2), flower fresh weight (24.3 g.m-2) and saffron (stigma + style) dry weight (0.25 g.m-2) were obtained in 15.1-23g mother corm size, and the lowest were obtained in 8g > mother corms. In contrast, nutrient foliar application had not significant effect on total produced daughter corms. However, the highest number of flowers (43.7 flower.m-2), flower fresh weight (21.8 g.m-2) and stigmas dry weight (0.23 g.m-2) were obtained from Iranian corms in the second year. Hence, the use of appropriate weight for planting Iranian corms (over 15 g) with nutrient of foliar application can be useful for increasing the performance of the flowers and saffron corms

Effect of planting density on flower and corm yield of Spanish & Iranian Saffron (Crocus sativus L.)

In order to study the effect of planting density on flower and corm yield of Spanish and Iranian saffron (Crocus sativus L.) types, an experiment was arranged in factorial with randomized complete block design with three replications. This experiment was conducted on the Research Farm of the Faculty of Agriculture, Ferdowsi University of Mashhad in 2013-15. The saffron corm type was considered in two levels (a1: Iranian corm and a2: Spanish corm) and the planting densities were in three levels (d1:40, d2:48 and d3:60 corm.m-2). The two year results showed that the effect of different planting density and saffron corm types on the number of flowers, flower fresh and dry weight (stigma + style) and number of replacement corms were significant (

Effects of corm origin, corm weight and nutrient foliar application on yield and qualitative traits of saffron (.Crocus sativus L)

In general, corm weight and nutrient management are considered as the most important factors in relation to quantitative and qualitative traits of saffron. In order to investigate the effects of mother corm origin, mother corm weight and nutrient foliar application on yield and qualitative traits of saffron, a field experiment was conducted as factorial layout based on a randomized complete block design with three replications at the Faculty of Agriculture, Ferdowsi University of Mashhad, Iran, during the years from 2012 to 2015. The mother corm origin (Iranian and Spanish corms), mother corm weight 8 g and lower (small), 8.1–15 g (medium) and 15.1-23 g (large) and nutrient foliar application (application and control) were considered as the first, second and third experimental factors, respectively. According to the results, the larger mother corms significantly resulted in a greater number of flowers per m2, increased fresh flower and dry stigma + style yields. However, the effect of nutrient foliar application was observed to be not significant on these traits. When Iranian mother corms were planted, the number of flowers per m2, fresh flower and dry stigma + style yields were higher, compared with Spanish mother corms. For instance, flower number, fresh flower and dry stigma + style yields increased by 17, 13 and 14%, respectively, when planting Iranian mother corms. Nonetheless, picrocrocin concentration was higher (up to 3.8%) in the Spanish planted corm treatment. Based on the results, beside the optimal nutrient foliar application, the importance of adapting the corms origin with environmental conditions of the site designated for planting is emphasized

Thermal Analysis: A Complementary Method to Study the Shurijeh Clay Minerals

Clay minerals are considered the most important components of clastic reservoir rock evaluation studies. The Shurijeh gas reservoir Formation, represented by shaly sandstones of the Late Jurassic-Early Cretaceous age, is the main reservoir rock in the Eastern Kopet-Dagh sedimentary Basin, NE Iran. In this study, X-ray diffraction (XRD), X-ray fluorescence (XRF), scanning electron microscopic (SEM) studies, and thermal analysis including differential thermal analysis (DTA), and thermogravimetric analysis (TGA) techniques were utilized in the characterization of the Shurijeh clay minerals in ten representative samples. The XRF studies showed that silica and aluminum oxides are present quantities. The XRD test was then used to determine the mineralogical composition of bulk components, as well as the clay fraction. The XRD patterns indicated the presence of dominant amount of quartz and plagioclase, with moderate to minor amounts of alkali feldspar, anhydrite, carbonates (calcite and dolomite), hematite and clay minerals. The most common clays in the Shurijeh Formation were illite, chlorite, and kaolinite. However, in very few samples, glauconite, smectite, and mixed layer clay minerals of both illite-smectite and chlorite-smectite types were also recognized. The XRD results were quantified, using the elemental information from the XRF test, showing that each Shurijeh exhibited low to moderate amounts of clay minerals, typically up to 21%. The amount of illite, the most dominant clay mineral, reached maximum of 13.5%, while the other clay types were significantly smaller. Based on the use of SEM and thermal data, the results of the identification of clay minerals, corresponded with the powder X-ray diffraction analysis, which can be taken into account as an evidence of the effectiveness of the thermal analysis technique in clay typing, as a complementary method besides the XRD