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Maryam Keshavarzi, Akram Gholami , Zahra Nazem Bokaee,
Volume 3, Issue 4 (12-2016)
Abstract

With 29 species in Iran, Polygonum L. is comprised of annual and perennial plants in different habitats. P. aviculare makes a species complex, hardly distinguished from P. arenastrum and P. patulum. In the present study, po-llen grains, fruit surface and petals and leaves epidermis features were used to provide diagnostic features in order to se-parate species from one another. In Total, 33 populations of 6 annual species, including P. aviculare, P. arenastrum, P. patulum, P. argyrocoleon, P. polycnemoides and P. olivascens were studied. Specimens were gathered during field trips and studied by means of light and scanning electron microscopes. The Pollen grains of all the species which were stud-ied were monad, subprolate or prolate spheroidal and tricolpate. Main differences were also observed in their surface ornamentations. Length of equatorial and polar axes and colpus, granules diameters and the average distance between granules were other diagnostic features of the pollen grains. Statistical analysis of epidermis features revealed that the length and width of epidermis cells and stomata length varied in the species studied. A close relationship was found between P. aviculare and P. arenastrum on the one hand and P. argyrocoleon and P. olivascens on the other. The sepa-ration of P. polycnemoides could be attributed to differences in epidermis features. Results showed that a selected set of these features to be of taxonomic importance.


Akbar Forghani, Amir Hossein Forghani, Maryam Altafi, Kazem Hashemi Majd, Omid Sofalian,
Volume 8, Issue 3 (10-2021)
Abstract

Most of agricultural lands in Iran are located in arid and semi-arid regions and are considered as saline soils. In order to investigate the interaction of salinity as well as potassium and calcium on the growth and yield of tomato plants, a factorial experiment was perfected in the form of randomized complete blocks, in hydroponic conditions, with three replicates per treatment. Experimental factors include salinity at three levels (0, 20, and 40 mM NaCl), potassium content form chloride, nitrate (0 and 15 mM), and calcium from chloride, and nitrate (with 0 and 10 mM (. The studied growth factors, including plant height, stem diameter, number of leaves, flowers and fruits and leaf chlorophyll decreased with increase NaCl. Treatment plants with Ca (NO3)2 at 40 mM NaCl, increased the shoot and root dry weight by 55% and 95%, respectively. In addition, application of Ca (NO3)2 in the medium with maximum salinity concentration resulted in an increase of 75% in chlorophyll content. The analysis of data showed that the increase of salinity was accompanied with increase sodium content level of tomato plants. However, the root potassium was observed to decrease. On the contrast to the root, potassium content showed no change in the organs from the root upwards. Also, the use of Ca (NO3)2 with 40 mM NaCl reduced Na+ content by 23% compared with plants treated only with 40 mM NaCl. According to the results, it seems that application of Ca (NO3)2 may improve chlorophyll content, dry weight, and modulate ion hemostasis and decreased the negative of salt stress in tomato plants.


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