01410nam0 22003131i 450 UON0052001720231205105540.37788-7115-169-020231115d2003 |0itac50 baitaIT|||| |||||Donne, madonne, deeabito sacro e riti di vestizione, gioiello votivo, vestitriciun itinerario antropologico in area lagunare venetaElisabetta Silvestrini, Giampaolo Gri, Riccarda Pagnozzatoa cura di Riccarda PagnozzatoPadovaIl Poligrafo2003313 p., [23] c. di tav.24 cmDonazione prof.ssa Amalia SignorelliIT-UONSI F. Signorelli1 C598ICONOGRAFIA CRISTIANACelebrazioniUONC102052FIITPadovaUONL000153394.26Feste21SILVESTRINIElisabettaUONV102390144886GRIGian PaoloUONV102523466841PagnozzatoRiccardaUONV293383442940Il PoligrafoUONV260867650ITSOL20240220RICASIBA - SISTEMA BIBLIOTECARIO DI ATENEOUONSIUON00520017SIBA - SISTEMA BIBLIOTECARIO DI ATENEOSI F. Signore1 C 598 SI 47445 5 Donazione prof.ssa Amalia SignorelliDonne, madonne, dee3905180UNIOR04193nam 2200865z- 450 991059507370332120220916(CKB)5680000000080789(oapen)https://directory.doabooks.org/handle/20.500.12854/92117(oapen)doab92117(EXLCZ)99568000000008078920202209d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierProduction and Role of Molecular Hydrogen in PlantsBasel20221 online resource (128 p.)3-0365-5097-6 3-0365-5098-4 Molecular hydrogen (hydrogen gas; H2) is gaining prominence in the scientific literature as well as the popular media. Early studies suggest the use of H2 treatment for a wide range of human diseases, from COVID-19 to various neurodegenerative diseases. Moreover, its biological activity also appears to have therapeutic and regulatory effects in plants. Accordingly, it has been suggested to be useful in agricultural settings. H2 has effects on a range of physiological events in plants. It has been shown to have effects on seed germination, plant growth, and development. It has also been found to be involved in plant stress responses and to be protective against abiotic stress. It also has beneficial effects during the post-harvest storage of crops. Therefore, its use in the agricultural setting has great potential as it appears to be safe, with no toxicity or harm to the environment. One of the conundrums of the use of H2 is how it induces these effects in plants and plant cells. It is difficult to envisage how it works based on a classical receptor mechanism. There is evidence that it may act as a direct antioxidant, by scavenging hydroxyl radicals, or via enhancing the plant's innate antioxidant system as a signaling molecule. It has also been reported to exert effects through action on heme oxygenase, cross-talk with other signaling molecules, and regulating the expression of various genes. However, how H2 fits into, and integrates with, other signaling pathways is not clearly understood. Future work is needed to elucidate the mechanism and significance of the interaction of H2 with these and other cellular systems.History of engineering & technologybicsscTechnology: general issuesbicsscamyloseantioxidant capacityantioxidantscadmiumcarbendazim degradationChinese chiveChinese herbal medicinecut carnation flowerscut flowerdetoxification systemfield qualityflower industrygene expressionglucosamineglutathione metabolismheme oxygenasehydrogenhydrogen gashydrogen nanobubble waterhydrogen-based agriculturehydrogenasehydroxyl radicalsmolecular hydrogenn/anitric oxidephenylpropanoid biosynthesis and metabolismphytohormones signaling pathwayspostharvest qualitypostharvest techniquereactive oxygen speciesredox balancericesecondary metabolismsenescence-associated enzymesstarchstorage qualitysucrosesugar metabolismthe fourth industrial revolutiontranscription factorsvase lifeWuzhimaotao (Ficus hirta Vahl)History of engineering & technologyTechnology: general issuesHancock Johnedt836086Hancock JohnothBOOK9910595073703321Production and Role of Molecular Hydrogen in Plants3035366UNINA