The Norway spruce (Picea abies), the most important tree species in European forests, is relatively sensitive to salt and does not grow in natural saline environments. Yet many trees are actually exposed to salt stress due to the common practice of de-icing of mountain roads in winter, using large amounts of NaCl. To help develop strategies for an appropriate use of reproductive seed material on reforestation sites, ensuring better chances of seedling survival in salt-affected areas, we have studied the responses of young spruce seedlings to salt treatments. The specific aim of the work was to identify the optimal salt stress biomarkers in Picea abies, using as experimental material seedlings obtained by germination of seeds with origin in seven populations from the Romanian Carpathian Mountains. These responses included general, conserved reactions such as the accumulation of ions and different osmolytes in the seedlings needles, reduction in photosynthetic pigments levels, or activation of antioxidant systems. Although changes in the contents of different compounds involved in these reactions can be associated to the degree of stress affecting the plants, we propose that the (decreasing) levels of total phenolics or total carotenoids and the (increasing) levels of Na+ or K+ ions in Picea abies needles, should be considered as the most reliable and useful biomarkers for salt stress in this species. They all show very high correlation with the intensity of salt stress, independently of the genetic background of the seeds parental population, and relatively easy, quantitative assays are available to determine their concentrations, requiring simple equipment and little amount of plant material.
Larix decidua, the European larch, is not normally affected by drought or salinity in its natural habitats, but it may be when grown as an ornamental tree, by the widespread practice of winter de-icing of mountain roads with NaCl, and because of global warming-induced environmental changes. The responses of two-month-old larch seedlings to 30 days water deficit (withholding irrigation) or salt stress (150 mM NaCl) treatments were studied by determining stress-induced changes in several growth parameters and biochemical markers (ion and osmolyte contents, level of oxidative stress, activation of enzymatic and non-enzymatic antioxidant systems). Both treatments caused the inhibition of growth, degradation of photosynthetic pigments, a small increase in malondialdehyde (MDA, an oxidative stress biomarker), and the activation of antioxidant enzymes: superoxide dismutase (SOD), catalase (CAT), ascorbate peroxidase (APX), and glutathione reductase (GR). In all cases, salinity appeared to have stronger effects on the seedlings than water deficit. The presence of relatively high concentrations of glycine betaine, both in control and stressed plants, may represent a constitutive mechanism of defence against stress in European larch. Additionally, other responses were specific for salt stress and included the activation of K + transport from roots to shoots and the accumulation of Pro as an osmoprotectant.
The evolution of the forestry sector in the last two decades in Romania has been significantly influenced by the post 1989 political and economic changes, forest restitution and the European Union accession process. Based on the analysis of forestry statistics, legislation and institutional changes this paper underlines the main developments in the forestry sector in the last twenty years and the linkages with other sectors that had an impact on its development. The significant change in forest ownership (based on which 45% of the Romanian forest is nowadays in non-state hands), the unprecedented re-organisation of the forest sector through the institutional separation of the regulatory, control and forest management functions, the changes in forest administration (including the establishment of more than 110 private forest districts) and the full privatisation of the wood harvesting and processing sector complemented by foreign investments have shaped the forest sector development in a context in which the forest resource remained almost unchanged. Major developments have been recorded in the establishment and management of large protected areas as National Forest Administration Romsilva is currently administrating 22 national and nature parks. Both positive and negative interactions of forestry with environmental protection, wood processing, agriculture, rural development, road infrastructure and tourism sectors have also impacted the evolution of the forest sector. Development policy options recommended by authors include among others the strengthening of the public authority responsible for forestry, reorganisation of the state forest administration and supporting the access of forest owners to the national and EU funding and compensation schemes for forestry.
European larch (Larix decidua) is naturally distributed at high elevations in Central Europe. Romanian populations of L. decidua are scattered in different areas of the country. In this study, we used 12 highly informative genomic simple sequence repeat (SSR) markers for genotyping seven populations from different areas of Romania. The SSR markers were highly variable, with up to 11 alleles per SSR locus and an average polymorphic information content of 0.713. High values of observed (H o = 0.542) and expected (H e = 0.738) heterozygosities were observed. Cluster analysis of populations did not group them according to geographical distance, but some clusters contained populations from a similar altitudinal range. The partition of genetic variation revealed that two-thirds of the genetic variation was found within individuals (due to high H o levels), while only one-sixth of the total genetic variation corresponded to variation among populations. A population structure analysis identified four genetic clusters, and in most cases individuals from a single population were assigned to several genetic clusters. Multivariate principal coordinates analysis confirmed the population structure analysis. SSR markers are a powerful tool for evaluating diversity, relationships, and the genetic structure of Romanian L. decidua populations, which have high levels of diversity and low genetic structuration.
Climate change and its detrimental effects on agricultural production, freshwater availability and biodiversity accentuated the need for more stress-tolerant varieties of crops. This requires unraveling the underlying pathways that convey tolerance to abiotic stress in wild relatives of food crops, industrial crops and ornamentals, whose tolerance was not eroded by crop cycles. In this work we try to demonstrate the feasibility of such strategy applying and investigating the effects of saline stress in different species and cultivars of Portulaca. We attempted to unravel the main mechanisms of stress tolerance in this genus and to identify genotypes with higher tolerance, a procedure that could be used as an early detection method for other ornamental and minor crops. To investigate these mechanisms, six-week-old seedlings were subjected to saline stress for 5 weeks with increasing salt concentrations (up to 400 mM NaCl). Several growth parameters and biochemical stress markers were determined in treated and control plants, such as photosynthetic pigments, monovalent ions (Na+, K+ and Cl−), different osmolytes (proline and soluble sugars), oxidative stress markers (malondialdehyde—a by-product of membrane lipid peroxidation—MDA) and non-enzymatic antioxidants (total phenolic compounds and total flavonoids). The applied salt stress inhibited plant growth, degraded photosynthetic pigments, increased concentrations of specific osmolytes in both leaves and roots, but did not induce significant oxidative stress, as demonstrated by only small fluctuations in MDA levels. All Portulaca genotypes analyzed were found to be Na+ and Cl− includers, accumulating high amounts of these ions under saline stress conditions, but P. grandiflora proved to be more salt tolerant, showing only a small reduction under growth stress, an increased flower production and the lowest reduction in K+/Na+ rate in its leaves.
The potential of testing new apple cultivars and the possibility to induce valuable traits is directly dependent on the availability of sufficient genetic diversity, while apple breeding has narrowed the genetic ground of commercial cultivars. Wild species were studied in regard to their influence upon progenies and their capacity to enlarge apple genetic diversity. The interspecific seedlings were framed in five biparental mating (paired crosses), in which Malus species were crossed with different cultivars, obtaining half-sib families. The number of F1 progenies per combination varied from 31 (Cluj 218/2 ? M. floribunda) up to 142 (Reinette Baumann ? M. floribunda), with a total of 1650 hybrids F1. The influences upon vigour and juvenile period and possible correlation among fruit size and taste were analyzed. Juvenile period varied from 6.00 (M. zumi ? Jonathan) to 9.31 years (Cluj 218/2 ? M. floribunda). Data based on correlation coefficient illustrated that the fructification year was not influenced by the vigour of trees. The highest value of correlation for fruit?s size and taste was obtained among M. coronaria hybrids. This result might suggest that once the fruit are larger, there is a high chance the taste is also more appreciative and fruit quality for mouth feels increase. Depending on the parental formula, additive effects may be inferior compared to genetic effects of dominance and epistasis. Although M. zumi and M. floribunda achieved the same genetic gain (0.31), M. zumi had a higher expected selection response for fruit size. The difficulty of obtaining seedlings with tasty and large fruit when wild Malus species are used as genitors is resulting from the values of expected selection response data, but in the same time results confirm that wild Malus species are suitable resources for genetic variability, both for dessert and ornamental apple cultivars.
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