Threshold Tolerance of New Genotypes of Pennisetum glaucum (L.) R. Br. to Salinity and Drought

With continued population growth, increasing staple crop production is necessary. However, in dryland areas, this is negatively affected by various abiotic stresses, such as drought and salinity. The field screening of 10 improved genetic lines of pear millet originating from African dryland areas was conducted based on a set of agrobiological traits (i.e., germination rate, plant density, plant maturity rate, forage, and grain yields) in order to understand plant growth and its yield potential responses under saline environments. Our findings demonstrated that genotype had a significant impact on the accumulation of green biomass (64.4% based on two-way ANOVA), while salinity caused reduction in grain yield value. HHVBC Tall and IP 19586 were selected as the best-performing and high-yielding genotypes. HHVBC Tall is a dual purpose (i.e., forage and grain) line which produced high grain yields on marginal lands, with soil salinization up to electrical conductivity (EC) 6–8 dS m−1 (approximately 60–80 mM NaCl). Meanwhile, IP 19586, grown under similar conditions, showed a rapid accumulation of green biomass with a significant decrease in grain yield. Both lines were tolerant to drought and sensitive to high salinity (above 200 mM NaCl). The threshold salinity of HHVBC Tall calculated at the seedling stage was lower than that of IP 19586. Seedling viability of these lines was affected by oxidative stress and membrane peroxidation, and they had decreased chlorophyll and carotenoid biosynthesis. This study demonstrated that ionic stress is more detrimental for the accumulation of green and dry biomass, in combination with increasing the proline and malonic dialdehyde (MDA) contents of both best-performing pearl millet lines, as compared with osmotic stress

Threshold Tolerance of New Genotypes of Pennisetum glaucum (L.) R. Br. to Salinity and Drought

With continued population growth, increasing staple crop production is necessary. However, in dryland areas, this is negatively affected by various abiotic stresses, such as drought and salinity. The field screening of 10 improved genetic lines of pear millet originating from African dryland areas was conducted based on a set of agrobiological traits (i.e., germination rate, plant density, plant maturity rate, forage, and grain yields) in order to understand plant growth and its yield potential responses under saline environments. Our findings demonstrated that genotype had a significant impact on the accumulation of green biomass (64.4% based on two-way ANOVA), while salinity caused reduction in grain yield value. HHVBC Tall and IP 19586 were selected as the best-performing and high-yielding genotypes. HHVBC Tall is a dual purpose (i.e., forage and grain) line which produced high grain yields on marginal lands, with soil salinization up to electrical conductivity (EC) 6–8 dS m−1 (approximately 60–80 mM NaCl). Meanwhile, IP 19586, grown under similar conditions, showed a rapid accumulation of green biomass with a significant decrease in grain yield. Both lines were tolerant to drought and sensitive to high salinity (above 200 mM NaCl). The threshold salinity of HHVBC Tall calculated at the seedling stage was lower than that of IP 19586. Seedling viability of these lines was affected by oxidative stress and membrane peroxidation, and they had decreased chlorophyll and carotenoid biosynthesis. This study demonstrated that ionic stress is more detrimental for the accumulation of green and dry biomass, in combination with increasing the proline and malonic dialdehyde (MDA) contents of both best-performing pearl millet lines, as compared with osmotic stress

Sweet Sorghum Genotypes Testing in the High Latitude Rainfed Steppes of the Northern Kazakhstan (for Feed and Biofuel)

Twenty-eight sweet sorghum (Sorghum bicolor (L.) Moench) genotypes of the different ecological and geographic origins: Kazakhstan, Russia, India, Uzbekistan, and China were tested in the high latitude rainfed conditions of northern Kazakhstan. The genotypes demonstrated high biomass production (up to 100 t·ha-1 and more). The genotypes ripening to full reproductive seeds were selected for seed production and introduction in the northern Kazakhstan. Lactic acid bacteria Lactobacillus plantarum S-1, Streptococcus thermophilus F-1 and Lactococcus lactis F-4 essentially enhance the fermentation process, suppressing undesirable microbiological processes, reducing the loss of nutrient compounds, accelerating in 2 times maturation ensilage process and providing higher quality of the feed product

New Approaches for Biosaline Agriculture Development, Management and Conservation of Central Asian Degraded Drylands

This paper is an attempt to contribute to a better understanding of the very difficult arid environments in Uzbekistan, and for the conservation and rational use of halophytic rangelands resources. The survey was within a framework of Joint Research Project: supported by a Grant in Aid for Scientific Research, Japan Ministry of Education and Culture, 2003 (No. 15252002) represented by professor Dr. Tsuneo Tsukatani, Division of Economic Information Analysis, Kyoto Institute of Economic Research, Kyoto University, Japan. The field expedition was carried out from April to November 2006. The target area was Kyzylkum Desert of Central Uzbekistan

Uranium Mine Aftermath and Yangiabad Expedition in Uzbekistan

This article describes the first half of a history of uranium mines in the Fergana Valley of Central Asia, introduces the existing environment of the old mines, and analyzes a part of heavy metals of water resource in the surrounding. Fergana Valley itself has a long history of civilization, to which Chinese called Dayuan, going back to the conquest of Alexander the Great in 329 BCE or the description of a Chinese explorer Zhang Qian in 130 BCE. After the Second World War, however, Soviet Union polluted the area with heavy metal and radioactivity where a dense monoculture of cotton was developed. A great number of uranium works are located in the landslide zone and are currently exposed to destruction, thus causing radioactive pollution of the surface and underground water. The rehabilitation will cost a huge amount of cost and time. Uzbek and Japanese team dispatched a joint expedition in October 1998 to Yangiabad, one of the former uranium mines, and sampled surface water and particles in the sediments. Japanese side has studied 58 points and Uzbek side has studied 13 random points located in the Yangiabad sites. ICP-MS analysis showed that the uranium concentration of the river water around Yangiabad was unbelievably high (10 to 1, 000 ppb-U238)

A Farm in Kumsangir of Tajikistan: A Perspective of Water/land Use along Pyandzh River

We carried out an assessment of natural resources use and management along with the on-farm observations and experience gathered through a fieldwork expedition along the riparian basin of Pyandzh River from Tajik side. It is described the natural vegetation irrigation history, technologies, agriculture, crops diversity and farmer development system through this vast area of Khatlon Province of Southwestern Tajikistan. Target area is Kumsangir District and Mumin Farm in the district along Pyandzh River. By performing this survey, we could further examine our preliminary studies on the potentials for agriculture using of Subsurface Drip Irrigation (SDI) technique on the right bank of Pyandzh River. Many of the local farmers, pastoralist communities, and some of the agricultural authorities and governmental leaders were interviewed to help understand the history of their irrigation infrastructures, their concerns on the issue of land use and agricultural activities, and their outlook and desires to implement cost-effective watershed-scale water saving technologies

POLLEN MORPHOLOGY OF SOME ASIATIC SPECIES OF GENUS SALSOLA (CHENOPODIACEAE) AND ITS TAXONOMIC RELATIONSHIPS

WOS: 000288088600013Comparative studies on the pollen grain morphology of 27 Asiatic species of the genus Salsola were conducted by using scanning electron microscope (SEM analysis) in order to assess the taxonomic value of pollen traits. The pollen are radially symmetrical isopolar, pantopolyporate, spherical or subspheroid. The pollen characters like size, pore number, chord (C/D ratio), pore diameter, exine thickness, level of sinking of pore, convexness of mesoporial exine, spinule and minute-hole densities and number of spines on pore membrane appeared to be useful characters in distinguishing the species. Interesting intraspecific variations in pollen grain morphology were recorded for the C/D ratio. This parameter is highly specific, supporting the delimitation of Salsola species, and appears to be more conservative than some flower and fruit characters. The numerical value of form index comprising the ratio between the length of polar axis and diameter (P/E) also was an informative trait for delimitation of the species investigated here. Three pollen types were recognized. Euclidean distance was used to compute the dissimilarity matrix and a cladogram prepared. The quantitative characters of pollen morphology allowed clustering of groups and ordination analyses of species from different sections/subsections within genus Salsola. These features indicated that overall pollen traits reflect the current taxonomic boundaries, except for the Salsola species allocated to Climacoptera and Halothamnus, which should be accepted as separate genera