00838nam0-22003011i-450 99000327156040332120220609112259.0000327156FED01000327156(Aleph)000327156FED0100032715620000920d--------km-y0itay50------baitay-------001yyAppunti di geografia regionale sulla Penisola ibericaLuigi Pedreschis.l.s.e.s.d.568 p.Penisola iberica914.6Pedreschi,Luigi<1922- >23762ITUNINARICAUNIMARCBK990003271560403321082.000.PED719DECGEDECGEAppunti di geografia regionale sulla Penisola Iberica674315UNINAING0104750nam 22006615 450 991073148700332120230609083619.03-031-30858-110.1007/978-3-031-30858-1(MiAaPQ)EBC30591355(Au-PeEL)EBL30591355(DE-He213)978-3-031-30858-1(PPN)27226282X(CKB)26895836200041(EXLCZ)992689583620004120230609d2023 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierGasotransmitters Signaling in Plant Abiotic Stress Gasotransmitters in Adaptation of Plants to Abiotic Stress /edited by Mehar Fatma, Zebus Sehar, Nafees A. Khan1st ed. 2023.Cham :Springer International Publishing :Imprint: Springer,2023.1 online resource (230 pages)Signaling and Communication in Plants,1867-9056Print version: Fatma, Mehar Gasotransmitters Signaling in Plant Abiotic Stress Cham : Springer International Publishing AG,c2023 9783031308574 Includes bibliographical references.Gasotransmitters signaling in plants under abiotic stress: An overview -- Influence of gasotransmitters on the physiology of plants with respect to abiotic stress tolerance -- Gasotransmitters and omics for abiotic stress tolerance in plants -- Advancement in the biology of gasotransmitters: H2S, NO, and ethylene -- Hydrogen sulfide: An evolving gasotransmitter regulating salinity and drought stress response in plants -- Ethylene synthesis and redox homeostasis in plants: Recent advancement -- Nitric oxide and cellular redox homeostasis in plants -- The function of hydrogen sulfide in plant responses to salinity and drought: new insights -- Hydrogen peroxide and its role in abiotic stress tolerance in plants -- Interaction of ethylene and H2S in plant stress management.This book deals with the gasotransmitters signaling in redox reactions and homeostasis for the adaptation of plants to unfavorable abiotic stress environments. There are lots of interesting chapters in this book that cover both research and educational objectives. This book serves as a reference illustrated book for all who are interested in the regulation of gasotransmitters and redox homeostasis in agriculture. Maintenance of redox homeostasis strengthens the potentiality of plants to resist abiotic stress conditions through the enhanced antioxidant system and the subsequent impact on other signaling molecules. The book presents novel outcomes and implications in plant biology concerning the study of different types of gasotransmitters signaling such as nitric oxide (NO), ethylene, hydrogen sulfide (H2S), etc. under diverse abiotic stresses in one place. The chapters of the book discuss the recent progress and current perspectives on the role of gasotransmitters relevance to plant functions and adaptations to abiotic stresses, the influence of gasotransmitters on the physiology of plants with respect to abiotic stress tolerance, gasotransmitters and omics for abiotic stress tolerance, advancement in the biology of gasotransmitters in regulating salinity and drought stress response in plants, new insights of gasotransmitters and cellular redox homeostasis in plants and the chapter also deliberate the emerging role of gasotransmitters in regulating redox homeostasis for plant stress management. This book is the first comprehensive book covering all aspects and advancements in the biology of gasotransmitters in redox homeostasis conferring different abiotic stress tolerance, from which readers from all backgrounds can get benefitted. This book will appeal to researchers, students, scientific societies, agriculturists, etc.Signaling and Communication in Plants,1867-9056BotanyAgriculturePlantsStress (Physiology)Plant ScienceAgriculturePlant SignallingPlant Stress ResponsesBotany.Agriculture.Plants.Stress (Physiology)Plant Science.Agriculture.Plant Signalling.Plant Stress Responses.572.82Fatma MeharSehar ZebusKhan Nafees A.MiAaPQMiAaPQMiAaPQBOOK9910731487003321Gasotransmitters Signaling in Plant Abiotic Stress3394546UNINA02575oam 2200553M 450 991015319100332120230808200639.01-315-53702-81-134-99234-31-134-99227-0(CKB)3710000000960753(MiAaPQ)EBC4748548(OCoLC)1007181704(OCoLC-P)1007181704(FlBoTFG)9781315537023(BIP)57468281(BIP)63819336(EXLCZ)99371000000096075320160913e20161985 uy 0engur|||||||||||rdacontentrdamediardacarrierGerman temporal semantics three-dimensional tense logic and a GPSG fragment /John A. NerbonneLondon :Routledge,2016.1 online resource (295 pages) illustrationsRoutledge Library Editions. Semantics and Semiology ;Volume 10Originally published: 1985.1-138-69032-5 1-138-69031-7 Includes bibliographical references.First published in 1985, this book analyses temporal meaning in German. The framework is that of a model-theoretic semantics, more specifically one incorporating a multi-dimensional tense logic. The first chapter presents this logic and argues that three dimensions are optimal for the description of natural language temporalia. The second chapter applies this theory to the analysis of temporal meaning in German. Frame adverbials, the Present and Past Tenses, duratives, aspectual adverbials using in, and the adverbials particle schon are examined. Chapter 3 provides a formal syntax to bear the semantic analysis proposed in the second chapter and the final chapter explores syntactic and semantic extensions of the fragment, showing how the Perfect, the particle noch, the passive, and a distinct reading of frame adverbials may be accommodated.German languageTemporal constructionsGerman languageSemanticsGerman languageGrammar, GenerativeTense (Logic)German languageTemporal constructions.German languageSemantics.German languageGrammar, Generative.Tense (Logic)435Nerbonne John A.1951-223043OCoLC-POCoLC-PBOOK9910153191003321German temporal semantics2882920UNINA