A comparison of root distribution of three hardwood species grown on a hillside in the Caspian forest,Iran

Slope is a complex environmental factor that can subject plants to a number of mechanical stresses. The anchorage of roots and improvement of slope stability mainly depend on specific properties of root systems, such as root distribution. In the present study, 24 trees (from three species) growing on gentle slopes (10–20°) were randomly chosen for root distribution analysis. The profile trenching method was used to obtain root characteristics. The findings indicated that root area ratio (RAR) decreased with depth and that maximum RAR values were observed in the upper layers; RAR values were between 0.0004% and 6.6444%. Average RAR values were not statistically different in upslope and downslope layers except in one case. The dot grid method (100 × 150 mm) usually overestimated the RAR values. The amount of roots decreased with depth following a power law. About 50% and 90% of roots were located in the first 30 and 60 cm depths, respectively. Results of analysis of covariance (ANCOVA) showed a significant effect of diameter at breast height (DBH) on total RAR but not on the total number of roots. About 70% of roots had diameter of less than 10 mm. Spearman’s correlation showed significant negative correlation between the total number of roots and the amount of N, P, and K elements, and a positive correlation between DBH and RAR. The results serve to develop understanding of the biotechnical characteristics of root systems of Caspian species.     

Application of response surface methodology for evaluating particleboard properties made from cotton stalk particles

High-quality wood resource scarcity as well as population growth and demand of wood have encouraged the use of alternative sources of lignocellulosic materials. In this study, the possibility of producing particleboard from waste cotton stalks is evaluated. The effects of the independent variables included weight ratio of melamine-formaldehyde to urea-formaldehyde, shelling ratio and the percentage of cotton stalks to poplar in the core layer were analyzed in the form of response surface methodology based on second-order multiple linear regression model. The results showed that there was perfect agreement between the estimated values and observed data, as with an increase in the ratio of melamine-formaldehyde resin to urea-formaldehyde, shelling ration and amount of poplar in the core layer of panels, modulus of rupture, modulus of elasticity and internal bonding increase. The optimal point of use of investigated variables included 18.30% melamine-formaldehyde, 30.35% thickness of the surface layers and 10.70% of poplar in the core layer.     

Salinity stress on various physiological and biochemical attributes of two distinct maize (Zea mays L.) genotypes

Present study investigates the effect of salinity stress on physiological and biochemical characteristics of two maize genotypes cultivated under controlled growth conditions. The selected maize genotypes being salt-tolerant and salt-sensitive were respectively designated as Sahwal-2002 and Sadaf. The experiment was conducted in triplicates, two varieties, three priming treatments and two salinity levels, in the Government College University, Faisalabad. The antioxidants activity was measured by comparing the tolerance in response to acute and prolonged salinity treatment. The difference of genotype with salinity tolerance as well as seed priming with phenylalanine were not dependent on antioxidant activity when salt exposure was prolonged. The results show that an indirect relationship was present for PAL seed priming and oxidative damage due to salt. The antioxidant enzymes present in plant effectively reduced the oxidative damage of salt and thus, increased the overall crop yield.     

Development of a Brucella suis specific hybridisation probe and PCR which distinguishes B. suis from Brucella abortus.

A genomic library was prepared from Brucella suis DNA (MboI digested) and cloned into the BamHI site of pUC18. Colony hybridisation using a probe prepared from purified B. suis DNA labelled with alpha 32P was carried out to identify colonies of interest. About 20 colonies, which gave an intense signal upon hybridisation with whole B. suis genomic DNA as a probe, were selected. Because of the high degree of DNA homology between B. suis and Brucella abortus, a short probe was chosen as it would more likely give species specificity. Of seven fragments selected to probe whole B. suis, B. abortus, and Yersinia enterocolitica DNA, one was found to hybridise with B. suis only. The probe was sequenced in two directions and sense and anti sense primers of 25bp in length were chosen to yield a product of 421bp. After optimisation of the PCR, a product of 420bp was obtained with B. suis template DNA and two bands of 420 and 650bp were detected with B. abortus template DNA. This is the first reported PCR of the Brucella genome where a single pair of primers will discriminate between B. suis and B. abortus. No band was observed when the two primers were used to amplify E. coli, Y. enterocolitica, Enterobacter cloacae, Staphylococcus aureus, Streptococcus uberis, Corynebacterium bovis, or Serratia marcescens template DNA.     

Effect of growth regulators and explant on plant regeneration of Solanum lycopersicum L. var. cerasiforme

Tomato serves as a model to introduce agronomically important genes into dicotyledonous crop plants and to develop edible vaccines and produce cost-effective therapeutics. This study has developed an efficient protocol of shoot organogenesis for Lycopersicon esculentum Mill. through using of different types of explants and growth regulators. Generally, all explants responded significantly to presence of BAP. Best shoot regeneration for leaf (100%) was achieved on MS supplemented with BAP (2 mg/L) + IAA (0.1 mg/L), whereas it was recorded on MS supplemented with BAP (2 mg/L) and BAP (2 mg/L) + IAA (0.5 mg/L) for cotyledons (95%). In addition, hypocotyls (77%) showed the best shoot response on MS supplemented BAP (3 mg/L). Highest number of shoots per explant was 13.33, 12.25, 7.94 respectively for hypocotyls, leaves, cotyledons. The best medium for highest length of shoot was in the presence of BAP (3 and 2 mg/L) + IAA (0.1 mg/L) respectively for hypocotyl (45 mm) and leaf (40.50 mm) explants. This parameter was achieved for cotyledons (13.32 and 12.5 mm) on MS medium supplemented with BAP (3 and 2) mg/L + IAA (0.1 mg/L), respectively. The increasing of BAP concentration up to 3 (mg/L) causes shoot length to continue developing, but it fell down in the presence of BAP (4 mg/L) due to the toxic effect of growth regulators accumulation. Root formation took place within 10–14 days after culturing on the rooting media. Best root induction (100%) was observed on MS medium supplemented with IAA (0.1 and 0.2 mg/L). All rooted shoots acclimated in phytotron and then cultivated in the greenhouse.     

Generation means analysis of traits related to lodging using two crosses of durum × emmer wheat

Genetic Resources and Crop Evolution - Lodging is one of the most important factors that affect wheat final yield. Emmer [Triticum turgidum subsp. dicoccum (Schrank ex Schübl.) Thell.] is a...     

The First Report of Drought Tolerance Assessment of Iranian Asparagus

Asparagus officinalis is the most economically important species of asparagus worldwide. Commercial cultivars of asparagus are susceptible to some biotic and abiotic stresses. Drought stress is one of the most common stresses in agricultural crops cultivation. The main purpose of the current study was to compare Iranian asparagus accessions drought tolerance rate with that of ‘Mary Washington’ commercial cultivar and introducing superior accessions in terms of dry resistance rate. A factorial experiment was laid out based on a completely randomized design with three replications. The factors were a) asparagus accession in 10 levels including nine wild accessions of Iranian asparagus and ‘Mary Washington’ commercial cultivar (as control) and b) drought stress in four levels including 0 (as control), 5, 10 and 15% (w/v polyethylene glycol). Results showed that highest values of percentage and speed of seed germination and lengths of radicle and plumule were recorded in Gazanak accession. The lowest values of radicle length were recorded in Chalaki and Shiraz accessions (6.19 and 8.01?mm, respectively). Calli of ‘Mary Washington’ cultivar under highest applied level of drought stress showed the lowest value of relative growth rate (11.53?mg/day). Cluster analysis based on assessed characteristics under different applied levels of drought stress, divided Iranian asparagus accessions into four groups at Euclidean distance of 2.0. In conclusion, obtained results showed that Iranian asparagus accessions especially Gazanak accession could be a good candidate to apply in asparagus breeding programs with aim of producing asparagus dry tolerant cultivars.

     

Molecularly Imprinted Polymer (MIP) Applications in Natural Product Studies Based on Medicinal Plant and Secondary Metabolite Analysis

Characterization and extraction of plant secondary metabolites are important in agriculture, pharmaceutical, and food industry. In this regard, the applied analytical methods are mostly costly and time-consuming; therefore, choosing a suitable approach is essential for optimum results and economic suitability. One of the recently considered methods used to characterize new types of materials is MIPs. Among the various applications of MIPs is the identification and separation of various plant-derived compounds, such as secondary metabolites, chemical residues, and pesticides. The present review describes the application of MIPs as a tool in medicinal plant material analysis, focusing on plant secondary metabolism. Key Words: Molecularly imprinted polymers, Plants medicinal, Secondary metabolism