Algae are existing macroscopic materials with substantial benefits, including as important growth regulators and macronutrients and micronutrients for the growth of healthy crop plants. Biofertilizers obtained from algae are identified as novel production fertilizers or innovative biofertilizers without the detrimental impacts of chemicals. Seaweeds contain many water-soluble minerals and nutrients that plants can easily absorb and that are valuable for crop plants’ growth. At present, Ascophyllum nodosum (L.) Le Jolis extract outperforms chemical fertilizers in terms of increasing seed germination, plant development, and yield, as well as protecting plants from severe biotic and abiotic stresses. A. nodosum contains bioactive compounds that exhibit an array of biological activities such as antibiotic, anti-microbial, antioxidant, anti-cancer, anti-obesity, and anti-diabetic activities. A. nodosum extract (AnE) contains alginic acid and poly-uronides that improve soil’s water-carrying ability, morsel structure, aeration, and capillary action, stimulating root systems in plants, increasing microbial activity in soil, and improving mineral absorption and availability. The scientific literature has comprehensively reviewed these factors, providing information about the different functions of A. nodosum in plant growth, yield, and quality, the alleviation of biotic and abiotic stresses in plants, and their effects on the interactions of plant root systems and microbes. The application of AnE significantly improved the germination rate, increased the growth of lateral roots, enhanced water and nutrient use efficiencies, increased antioxidant activity, increased phenolic and flavonoid contents, increased chlorophyll and nutrient contents, alleviated the effects of abiotic and biotic stresses in different crop plants, and even improved the postharvest quality of different fruits.
Context Preservation of genetic diversity of species is a pressing issue; in particular, the preservation of the gene pool of many rare and endangered plants is a priority. Species of the genus Crambe (family Brassicaceae) have potential in agriculture and bioremediation. Aims This study aims to assess the genetic diversity and DNA fingerprint of five rare species of the genus Crambe, and to develop the concept of a genetic passport for rare plants. Methods DNA fingerprinting was conducted via the inter simple sequence repeat (ISSR) method, using six ISSR primers. Hierarchical cluster analysis of the species was performed. Key results In total, 145 polymorphic loci were detected. The studied species formed two different clusters on genetic dendrogram analysis. The first cluster comprised two species, Crambe steveniana and C. tataria from a single subsection (Tatariae), forming a common clade. They were the most genetically close species with genetic similarity of 0.8431. The remaining three species (C. cordifolia, C. maritima, C. pinnatifida), from another subsection of Crambe, formed nodes from the general clade. Conclusions The findings allow plants to be genetically certified using our methods and informative ISSR primers for rare plants. We were able to propose a genetic formula identifying a species and present an example of a genetic passport for rare plants. The genetic structure of C. pinnatifida was investigated for the first time. Implications The present findings contribute to the systematics and critical investigation of rare plant species with genetic resource potential. A genetic passport could be used in the protection of copyright of agricultural varieties.
The article is aimed to assess the florocenotic diversity of the specially protected natural territory of the Rostov region ʺRazdorskie sklonyʺ. In the Rostov region there are 84 specially protected natural areas (PA), including the protected landscape ʺRazdorskie sklonyʺ. The PA consists of three cluster sites with a total area of 1117.64 hectares. The ʺRazdorskie sklonyʺ are a picturesque natural-historical landscape, typical for the right-bank slope of the Don valley. It has a long history of cultural development. Here there are feather grass steppes, the southernmost ravine upland forests, outcrops of pontic limestone-shell rocks, sands of the Yanovskaya formation and clay outcrops on the slopes, with a strip of alluvial floodplain. The vegetation of the right bedrock slope of the Don valley is distinguished by great formational variegation and mosaicism, due to the rapid and abrupt change of environmental factors in a rather limited space, which largely determines the richness and originality of its floristic complex. On the territory of the protected landscape, subzonal forb-sod grass, as well as hemipsammophytic (semi-sandy) and petrophytic steppes are present. Woody vegetation is represented by gully, floodplain forests and thickets of bushes. The vegetation cover of the ʺRazdorskie sklonyʺ is distinguished by a low degree of anthropogenic destruction and is quite representative in syntaxonomic and floristic terms. The flora of the protected landscape includes 693 species of higher vascular plants, including 29 taxa from the Red Books of the Rostov Region and the Russian Federation, a total of 183 taxa from the Red List of the International Union for Conservation of Nature (93 species) and the European Red List (145 species). Forest vegetation in the gullies of the protected areas is represented by ravine, floodplain forests and thickets of bushes. In the system of zoning of the ravine forests of the Lower Don, the ravine forests of the ʺRazdorskie sklonyʺ belong to one of the most southern regions – the Crimean-Donetsk region. Numerous cenopopulations of for-est ephemeroids form spring synusia in ravine forests and thickets of shrubs, being a temporary ʺcollective dominantʺ.
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