Browsing by Subject "Sodium"
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Publication Preharvest and postharvest factors affecting the quality profile of onion landraces(2021) Romo-Perez, Maria Luisa; Zörb, ChristianOnion cultivation has been practiced for over 4000 years and does not exist as a wild species. Over time onions have adapted to different climates, creating a wide range of varieties and landraces. Today, in modern agriculture, commercial onion breeders focus almost exclusively on conventional farming which increases the demand for certain well-known varieties and hybrids but lowers the diversity available in the mainstream market. Additionally, a clear need for new varieties of onions is heralded by organic farming systems, where pesticides and chemical fertilizers are banned. A way to preserve biodiversity and enrich the range of varieties available in organic farming systems is to re-evaluate traditional landraces and introduce their benefits to the broader public. Onions are known for their good storability, particular aroma, as well as for their health-promoting benefits due to the rich content of non-structural carbohydrates, flavonoids, and S-containing compounds. However, the quality status and sensorial characteristics of onions can be influenced through preharvest and postharvest factors. Some of those factors are genotype, soil, and storage conditions. Preharvest abiotic factors such as soil salinity can lead to several reduction of yield and quality aspects. Much like many other vegetable species, onions have always been classified as salt-sensitive crop. However, to date, there was very little evidence to that claim, and information about the impact of salinity on onion quality and physiology is lacking. This thesis aims to characterize onion landraces and compare them using targeted and untargeted metabolomics with commercial cultivars when grown under organic farming conditions. A part of this is evaluating the differences of landrace metabolite profile and the storage impact after five months of cold storage. Furthermore, this thesis discusses the effect of increased soil salinity on the metabolism and physiology of onion plants. In chapter 2, yield and quality aspects of studied onion varieties demonstrated that landraces can achieve similar or even better results than modern varieties Sturon and Red Baron when grown under organic farming conditions of South-West Germany. Furthermore, differences between Sturon and landraces demonstrated that parts of the aromatic and flavor properties found in landraces have been lost in modern genotypes (Chapter 3). These results indicate that the maximum potential of the modern onion varieties has not yet been reached and further optimization of their yield and quality parameter could be attained through future breeding programs that include local landraces. Among the studied landraces, Birnförmige, Stunova, and Rijnsburger 4 are the most interesting and promising candidates. For instance, Birnformige demonstrated not only good storability but also high levels of S-containing compounds and fructans. Stunova presented good yield stability and capacity, while Rijnsburger 4 exhibited the highest levels of amino acids suitable as precursors of aromatic substances as well as good storability. Despite several reports claiming that onions are sensitive to salinity, chapter 4 of this thesis demonstrated there is no reduction in plant growth, quality, or aroma in onion plants after moderate Na+ treatments. Nevertheless, in comparison with the landrace Birnformige, modern variety Sturon showed a slight increase of compatible solutes by Na+ accumulation, demonstrating that the potential of certain varieties for onion production under increased soil salinity is actually much higher than previously assumed.